CN108638814A - Mechanical group of vehicle dormer window - Google Patents

Abstract

The present invention relates to mechanical group of a kind of vehicle dormer window.The machinery group of the vehicle dormer window includes guide assembly, slide block assembly, positioning component, lifts arm component and drive component.When the machinery group of the vehicle dormer window is mounted on automobile, guide assembly is fixed on automobile.Slide block assembly is slidably matched with guide assembly.Slide block assembly can be moved along the predefined paths on guide assembly.Positioning component is slidably matched with guide assembly.Arm component one end is lifted to be rotatably attached with positioning component.Arm component is lifted for being fixedly connected with vehicle dormer window.Drive component drives slide block assembly movement.It lifts arm component to move synchronously with slide block assembly, positioning component with the state of tilting, until vehicle dormer window is opened completely.Due in the motion process and after vehicle dormer window opening, slide block assembly and positioning component mutually locking, positioning component is connect with the one end for lifting arm component, lift arm component relative to play before and after slide block assembly to avoid or reduce so that vehicle dormer window can stablize it is in an open position.

Description

Mechanical group of vehicle dormer window

Technical field

The present invention relates to vehicle dormer window technical fields, more particularly to mechanical group of a kind of vehicle dormer window.

Background technology

Vehicle dormer window is installed on the roof of automobile, by opening vehicle dormer window, car can be made unobscured, ventilation is good It is good.After the machinery group of traditional vehicle dormer window opens vehicle dormer window, vehicle dormer window is easy front and back play.

Invention content

Based on this, it is necessary to after the machinery group opening vehicle dormer window of traditional vehicle dormer window, before vehicle dormer window is easy Afterwards the problem of play, mechanical group of a kind of vehicle dormer window is provided.

Mechanical group of a kind of vehicle dormer window, for driving vehicle dormer window to open and close, including：

Guide assembly, for being fixed on the automobile；

The slide block assembly being slidably matched with the guide assembly, the slide block assembly can be along pre- on the guide assembly Determine path movement；

The positioning component being slidably matched with the guide assembly；

Arm component is lifted, one end is rotatably attached with the positioning component, and the act arm component is used for and the automobile day Window is fixedly connected；And

Drive the drive component of the slide block assembly movement；

Wherein, the predefined paths include first segment and the second segment that is connected with first segment, and the slide block assembly is described in First segment on predefined paths moves and towards when being moved close to the direction of the second segment, the slide block assembly can drive described It lifts arm component to rotate relative to the positioning component, so that the other end for lifting arm component is done far from the guide rail group The movement of part；When the slide block assembly is located at the second segment on the predefined paths, the slide block assembly and the positioning component It mutually locks, and the slide block assembly can drive the positioning component and the act arm component to synchronize and do translational motion.

Mechanical group of above-mentioned vehicle dormer window lifts arm component and synchronizes fortune with slide block assembly, positioning component under tilting state It is dynamic, until vehicle dormer window is opened completely.Due in the motion process and vehicle dormer window opening after, slide block assembly with positioning Component mutually locking, positioning component are connect with the one end for lifting arm component, and arm component is lifted relative to sliding block to avoid or reduce Play before and after component so that vehicle dormer window can stablize it is in an open position.

The slide block assembly is equipped with the first linkage portion in one of the embodiments, and the acts arm component is equipped with the One fit structure, when the slide block assembly is moved along the first segment of the predefined paths, first linkage portion and described first Fit structure, which matches, drives the act arm component to rotate.

In one of the embodiments, first linkage portion include the first sliding part, first fit structure be with The matched the first sliding groove of first sliding part, when the slide block assembly is moved along the first segment of the predefined paths, first Sliding part moves in the first sliding groove, so that the act arm component is driven to rotate.

The first sticking department is provided on the positioning component in one of the embodiments, the slide block assembly is equipped with With matched second fit structure of first sticking department, when the slide block assembly is located at the second segment, first lock Determine portion to match with second fit structure, so that the slide block assembly is mutually locked with the positioning component.

Second fit structure is the first groove in one of the embodiments, and first sticking department includes and institute The compatible protrusion of the first groove is stated, when the slide block assembly is located at the second segment, the protrusion is located at first groove The both sides of the interior and described protrusion respectively with the side wall of first groove connect so that the slide block assembly with it is described fixed Hyte part mutually locks.

The guide assembly is equipped with the protrusion compatible second groove in one of the embodiments, described Second groove is located at the top of first groove, described when the slide block assembly is moved along the first segment of the predefined paths Protrusion is located in second groove；The slide block assembly moves to first groove from the first segment to the second segment When by second groove, the protrusion can be fallen into first groove out of described second groove.

First groove has the first side wall and opposite with the first side wall second in one of the embodiments, Side wall, the second sidewall are hook, so that when the protrusion is located in first groove, the second sidewall catches on described Protrusion is to provide the resistance for hindering the protrusion close to first segment.

First groove has the first side wall and opposite with the first side wall second in one of the embodiments, Side wall, the first side wall are inclined relative to vertical direction；The slide block assembly is from the second segment to described first When section moves to first groove by second groove, the guide assembly can limit the positioning component in level The movement in direction, so that the first side wall pushes into the protrusion in second groove upwards.

The act arm component is equipped with third groove in one of the embodiments, is arranged on the slide block assembly limited Position portion, towards the first segment close to the direction of the second segment, the slide block assembly moves to the opening of the third groove When one end far from the first segment of the second segment, the limiting section is located in the third groove.

The positioning component is equipped with second sliding slot in one of the embodiments, is fixedly connected on the act arm component There is the second sliding part being slidably matched with the second sliding slot, when the act arm component is rotated relative to the positioning component, band Second sliding part is moved to slide in the second sliding slot.

Description of the drawings

Fig. 1 is the structural exploded view of the machinery group of the vehicle dormer window of an embodiment.

Fig. 2 is the structural schematic diagram of the machinery group of the vehicle dormer window in Fig. 1 when vehicle dormer window is closed.

Fig. 3 is the structural representation when act arm component of the machinery group of the vehicle dormer window in Fig. 1 is tilted relative to slide block assembly Figure.

Fig. 4 is the schematic diagram when protrusion in Fig. 1 is located in the second groove of guide assembly.

Fig. 5 is the structural schematic diagram of the driving pull rod in Fig. 1.

Specific implementation mode

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, below in conjunction with the accompanying drawings to the present invention Specific implementation mode be described in detail.Many details are elaborated in the following description in order to fully understand this hair It is bright.But the invention can be embodied in many other ways as described herein, those skilled in the art can be not Similar improvement is done in the case of violating intension of the present invention, therefore the present invention is not limited by following public specific embodiment.

Incorporated by reference to Fig. 1~Fig. 4, the embodiment of the present application provides a kind of machinery group 100 of vehicle dormer window.The machine of the vehicle dormer window Tool group 100 is for driving vehicle dormer window (not shown) to open and close.The machinery group 100 of the vehicle dormer window includes guide assembly 110, slide block assembly 120, positioning component 130, act arm component 140 and drive component 150.The machinery group 100 of the vehicle dormer window When on automobile, guide assembly 110 is fixed on automobile.Slide block assembly 120 is slidably matched with guide assembly 110.Sliding block Component 120 can be moved along the predefined paths on guide assembly 110.Positioning component 130 is slidably matched with guide assembly 110.It lifts 140 one end of arm component is rotatably attached with positioning component 130.Arm component 140 is lifted for being fixedly connected with vehicle dormer window.Driving Component 150 drives slide block assembly 120 to move.

Wherein, which includes first segment and the second segment that is connected with first segment.Slide block assembly 120 is along predefined paths First segment movement, and towards close to second segment direction move when, slide block assembly 120 can drive lift arm component 140 relative to Positioning component 130 rotates and the other end of act arm component 140 is made to do the movement far from guide assembly 110.Slide block assembly 120 When second segment on the predefined paths, slide block assembly 120 and 130 phase of positioning component lock, and then slide block assembly 120 being capable of band Dynamic positioning component 130 and act arm component 140 synchronize and do translational motion.

Specifically, when the machinery group 100 of the vehicle dormer window is mounted on automobile, guide assembly 110 is fixedly mounted in vapour On the frame of roof.Predefined paths are formed on guide assembly 110, drive component 150 drives slide block assembly 120 along guide rail group When part 110 slides, slide block assembly 120 is slided along the predefined paths, and is driven and lifted the movement of arm component 140.Due to lifting arm component 140 It is fixedly connected with vehicle dormer window, is moved with electric automobile skylight to lift arm component 140, and then realize that vehicle dormer window beats on and off It closes.Further, which can be windowpane, such as the front glass of panoramic sunroof.

As depicted in figs. 1 and 2, drive component 150 may include motor (not shown) and mechanical flexible axle 151.Mechanical flexible axle 151 It can be connected in such a way that card slot is connect with slide block assembly 120.Mechanical flexible axle 151 be arranged on guide assembly 110 with machinery In 151 compatible sliding slot of flexible axle.It is slided along the sliding slot by motor drive machinery flexible axle 151, so as to band movable slider group Part 120 is moved along guide assembly 110.

Specifically, lifting one end of arm component 140 can be hinged with positioning component 130.As can be seen that originally from Fig. 2 and Fig. 3 In embodiment, positioning component 130 and the one end for lifting arm component 140 are housed in connecting bracket 160.In conjunction with Fig. 1, by pin 161 The connecting bracket 160, positioning component 130 and the one end for lifting arm component 140 are sequentially passed through, so that lifting the one of arm component 140 End is rotatably attached with the pin 161 for rotary shaft with positioning component 130.

When vehicle dormer window is in the completely closed state, slide block assembly 120 is located at starting point (the i.e. distance of first segment of first segment The farthest point of second segment).The terminal of first segment and the starting point of second segment abut.Slide block assembly 120 reaches the terminal of second segment (i.e. The point farthest apart from first segment of second segment) when, vehicle dormer window is in completely open state.Lower mask body introduces vehicle dormer window It is tilted from off state to vehicle dormer window, then arrives the completely open process of vehicle dormer window.

First segment of the slide block assembly 120 on the predefined paths moves and the direction of motion is towards close to the direction of second segment When, slide block assembly 120, which drives, to be lifted arm component 140 and is rotated relative to positioning component 130, and lifts the other end of arm component 140 towards remote Direction movement from guide assembly 110.The one end for lifting arm component 140 is rotatably attached with positioning component 130, due to lifting arm group The other end of part 140 is moved towards the direction far from guide assembly 110, then lifts arm component 140 and tilted relative to slide block assembly 120, See Fig. 3.Until when slide block assembly 120 moves to terminal (i.e. the point of first segment abutted with second segment) of first segment, arm group is lifted Part 140 is tilted relative to slide block assembly 120 to highest point (state for arm component 140 of passing the imperial examinations at the provincial level referring to Fig. 3).At this point, lifting arm component 140 tilt relative to the frame of automobile top to highest point with electric automobile skylight, to realize vehicle dormer window from off state to Tilting state.

Then, it lifts arm component 140 to continue to move with slide block assembly 120 with tilting state, at this point, slide block assembly 120 is from the One section enters second segment, and is moved to the direction away from first segment along second segment, in the motion process of second segment, slide block assembly 120 lock with 130 phase of positioning component, and slide block assembly 120 drives positioning component 130 and lifts arm component 140 and translates.Due to sliding block Component 120 is locked with 130 phase of positioning component, then the translation of doing that slide block assembly 120 drives positioning component 130 to synchronize along second segment is transported It is dynamic.Since slide block assembly 120 drives act arm component 140 to do translational motion, positioning component 130 connects with the one end for lifting arm component 140 Connect, to which positioning component 130 does synchronous translational motion with act arm component 140, i.e., slide block assembly 120, positioning component 130 and Act 140 three of arm component, which synchronizes, does translational motion.To which slide block assembly 120 lifts arm component during second segment moves 140 are not easy front and back play relative to slide block assembly 120.Until slide block assembly 120 moves to terminal (the i.e. second segment of second segment The point farthest apart from first segment), vehicle dormer window is opened completely.At this point, slide block assembly 120 and the still mutually locking of positioning component 130, Positioning component 130 is connect with the one end for lifting arm component 140, to after vehicle dormer window is opened, lift arm component 140 relative to sliding block Component 120 is not easy front and back play so that vehicle dormer window can be stablized in an open position.

Mechanical group of above-mentioned vehicle dormer window lifts arm component 140 under tilting state with slide block assembly 120, positioning component 130 move synchronously, until vehicle dormer window is opened completely.Due in the motion process and vehicle dormer window opening after, sliding block Component 120 and 130 mutually locking of positioning component, positioning component 130 is connect with the one end for lifting arm component 140, to avoid or subtract Lacked act arm component 140 relative to play before and after slide block assembly 120 so that vehicle dormer window can stablize be in open position It sets.

Specifically, incorporated by reference to Fig. 1~Fig. 3, slide block assembly 120 includes the first sliding block 120a and the second sliding block 120b, and first Sliding block 120a and the second sliding block 120b can be to be closed to inserting, lift arm component 140 and be located at the first sliding block 120a and the second sliding block Between 120b, the is limited in so as to which arm component 140 will be lifted from the both sides for lifting arm component 140 when lifting arm component 140 and rotating Between one sliding block 120a and the second sliding block 120b, be conducive to lift act arm component when arm component 140 is moved with slide block assembly 120 Stablize 140 position.

Further, slide block assembly 120 is equipped with the first linkage portion, lifts arm component 140 and is equipped with the first fit structure.It is sliding When block assembly 120 is moved along the first segment of predefined paths, the first linkage portion matches drive with the first fit structure and lifts arm component 140 rotate.

Specifically, the first linkage portion may include sliding block, and the first fit structure may include crank.First linkage portion and One fit structure can form slider-crank mechanism, driven when to realize that slide block assembly 120 is moved along first segment and lift arm component 140 rotations are easy to implement vehicle dormer window tilting.

Incorporated by reference to Fig. 1~Fig. 3, in one embodiment, the first linkage portion includes the first sliding part 121, the first cooperation knot Structure be and the matched the first sliding groove 141 of the first sliding part, when slide block assembly 120 is moved along the first segment of predefined paths, first The movement in the first sliding groove 141 of sliding part 121 rotates so that driving and lifting arm component 140.

Specifically, the first sliding part 121 can be the pin being fixed on slide block assembly 120.First sliding part 121 is distinguished It is fixedly connected with the first sliding block 120a and the second sliding block 120b.As shown in FIG. 1 to 3, the first sliding groove 141 is generally shaped like arc Shape.And it looks from right to left, the first sliding groove 141 is bent gradually downward.Slide block assembly 120 is in first segment motion process, and One sliding part 121 slides from right to left, then the first sliding part 121 forms active force obliquely to the inner wall of the first sliding groove 141. It is rotatably connected with positioning component 130 due to lifting 140 one end of arm component, and positioning component 130 is motionless at this time, to the first sliding groove 141 rotate up, and then lift arm component 140 and be upturned relative to slide block assembly 120.By the way that 121 He of the first sliding part is arranged The first sliding groove 141, convenient for the driving act tilting of arm component 140 when slide block assembly 120 is moved along first segment.

Further, the first sticking department is provided on positioning component 130, slide block assembly 120 is equipped with and the first sticking department Matched second fit structure.When slide block assembly 120 is located at second segment, the first sticking department is matched with the second fit structure, So that slide block assembly 120 is locked with 130 phase of positioning component, and because positioning component 130 is connect with 140 one end of arm component is lifted, from And it lifts during arm component 140 is moved synchronously with tilting state with slide block assembly 120, positioning component 130 and in automobile day After window is opened, the place that arm component 140 is not easy front and back play relative to slide block assembly 120, and vehicle dormer window is stablized is lifted In open position.Illustratively, the first sticking department can be locating piece, and the second fit structure can be can be with the locating piece phase The Elastic buckle clasped.

Incorporated by reference to Fig. 1~Fig. 3, in one embodiment, the second fit structure is the first groove 122, the first sticking department packet Compatible with the first groove 122 raised 131, when slide block assembly 120 is located at second segment are included, protrusion 131 is located at the first groove 122 Interior and raised 131 both sides are connected with the side wall of the first groove 122 respectively, so that slide block assembly 120 and positioning component 130 phases lock.

Specifically, the first groove 122 is opened up on slide block assembly 120.Protrusion 131 is provided on positioning component 130.Protrusion 131 when being located in the first groove 122, and protrusion 131 and the side wall of the first groove 122 connect, and the side wall of the first groove 122 limits Direction where having made protrusion 131 to the side wall of the first groove 122 moves, i.e., protrusion 131 is stuck in the first groove 122, is convenient for Realize that slide block assembly 120 is locked with 130 phase of positioning component.

Further, with reference to figure 4, guide assembly 110 be equipped with raised 131 compatible second grooves 111, second is recessed Slot 111 is located at the top of the first groove 122, and when slide block assembly 120 is moved along the first segment of predefined paths, protrusion 131 is located at the In two grooves 111.It is convex when slide block assembly 120 moves to the first groove 122 by the second groove 111 from first segment to second segment Playing 131 can fall into the first groove 122 out of second groove 111.

Specifically, in conjunction with Fig. 1 and Fig. 4, for slide block assembly 120 when first segment moves, positioning component 130 is motionless, protrusion 131 In the second groove 111 on guide assembly 110.Since one end of positioning component 130 passes through with the one end for lifting arm component 140 Connecting bracket 160 is rotatably connected, and one end for being equipped with protrusion 131 of positioning component 130 can be rotated up and down.Slide block assembly 120 to the second segment from first segment when moving to the first groove 122 by the second groove 111, and protrusion 131 is from the second groove It is fallen in 111 in first groove 122, to which protrusion 131 is stuck in the first groove 122, i.e. positioning component 130 and slide block assembly 120 phases lock.Then, protrusion 131 does translational motion with slide block assembly 120 in the second segment sync, so that positioning component 130 It is moved with 120 synchronous translational of slide block assembly.

Further, driving pull rod 123 is formed with reference to figure 1 and Fig. 3, on slide block assembly 120, the first groove 122 is opened in It drives on pull rod 123, the height of driving pull rod 123 is less than the second groove 111.To which slide block assembly 120 is from first segment to second When Duan Yundong, the first groove 122 on pull rod 123 is driven to move closer to the second groove 111, until the first groove 122 is by the When two grooves 111, protrusion 131 falls into the first groove 122, to drive pull rod 123 to continue to move, and protrusion 131 is pulled to synchronize Movement.Pull rod 123 is driven by setting, is locked convenient for slide block assembly 120 and 130 phase of positioning component.

Further, as shown in figure 5, the first groove 122 has the first side wall 122a and opposite with the first side wall 122a Second sidewall 122b, second sidewall 122b are hook, so that when protrusion 131 is located in the first groove 122, second sidewall 122b is hooked Firmly protrusion 131 is shown in Fig. 3 to provide the resistance for hindering protrusion 131 to be moved to first segment.Slide block assembly 120 is entering second segment to remote When direction from first segment moves, second sidewall 122b catches on the direction one that the direction of protrusion 131 is moved with slide block assembly 120 Cause, to which second sidewall 122b can hinder protrusion 131 move to first segment, and effectively drive raised 131 along second segment to Direction far from first segment moves, and then can more reliably make positioning component 130 and 120 phase of slide block assembly locking and synchronous Movement.

In one embodiment, as shown in figure 5, the first side wall 122a is inclined relative to vertical direction.In conjunction with Fig. 3 And Fig. 4, when slide block assembly 120 moves to the first groove 122 by the second groove 111 from second segment to first segment, guide assembly 110 can limit 130 movement in the horizontal direction of positioning component, so that the first side wall 122a is by protrusion 131, to push into second recessed In slot 111.

Specifically, during be opened to closing, slide block assembly 120 moves vehicle dormer window from second segment to first segment, Until when the first groove 122 is by the second groove 111, the first side wall 122a is inclined, to can apply to protrusion 131 oblique On power.At this point, since guide assembly 110 limits the horizontal forward movement of positioning component 130, to which protrusion 131 is horizontal forward Movement be restricted so that protrusion 131 is moved upwards into the second groove 111, so as to be detached from first recessed for protrusion 131 Slot 122, positioning component 130 are mutually discharged with slide block assembly 120.

Specifically, since one end of positioning component 130 and act arm component 140 can by connecting bracket 160 and pin 161 Rotation connection.When first groove 122 is by the second groove 111, connecting bracket 160 withstands guide assembly 110 in the horizontal direction, from And guide assembly 110 limits the movement of the horizontal direction of positioning component 130.

Further, it such as Fig. 1 and Fig. 3, lifts arm component 140 and is equipped with third groove 142, be provided on slide block assembly 120 Limiting section 124, for the opening of third groove 142 towards first segment close to the direction of second segment, slide block assembly 120 is located at first segment When one end of separate second segment, limiting section 124 is located in third groove 142 and is abutted with the inner wall of third groove 142.

Specifically, limiting section 124 can be pin.When slide block assembly 120 is located at one end of the separate second segment of first segment When, i.e., slide block assembly 120 is located at the starting point to first segment, and vehicle dormer window completely closes at this time.Limiting section 124 is located at third groove It is abutted in 142 and with the inner wall of third groove 142.Specifically, limiting section 124 can be abutted with the bottom wall of third groove 142, then Limiting section 124 can stop that lift arm component 140 moves to the direction of the wall surface pair of third groove 142.Limiting section 124 can be with The two side walls up and down of third groove 142 abut, then limiting section 124 can stop that lifting arm component 140 vertically shakes.Into And limiting section 124, when being abutted with the inner wall of third groove 142 so that vehicle dormer window completely closes, vehicle dormer window is highly stable can It leans on.

Further ,~Fig. 3 is please referred to Fig.1, the both ends of limiting section 124 are separately connected the first sliding block 120a and the second sliding block 120b.To which limiting section 124 is clipped between the first sliding block 120a and the second sliding block 120b, convenient for the position of setting limiting section 124. And due to lifting arm component 140 between the first sliding block 120a and the second sliding block 120b, slide block assembly 120 is located at first segment When starting point, the third groove 142 on arm component 140 is lifted convenient for being matched with limiting section 124.

Further, positioning component 130 is equipped with second sliding slot 132, lifts to be fixedly connected on arm component 140 and be slided with second The second sliding part 143 that slot 132 is slidably matched when act arm component 140 is rotated relative to positioning component 130, drives the second sliding The sliding in second sliding slot 132 of part 143.

Specifically, as shown in FIG. 1 to 3, the second sliding part 143 can be pin.Arm component 140 is lifted relative to positioning group When part 130 rotates, the sliding in second sliding slot 132 of the second sliding part 143 is driven.Second sliding slot 132 and the second sliding part 143 It is slidably matched so that positioning component 130 is closely located to arm component 140 is lifted, is lifting arm component 140 relative to positioning component 130 When rotation, the position for being conducive to lift arm component 140 is stablized.

Lower mask body introduces vehicle dormer window and sinks from completely open state to arm component is lifted, until vehicle dormer window closes completely The process closed.

When slide block assembly 120 is located at the terminal of second segment, vehicle dormer window is in completely open state.Slide block assembly 120 Second segment on the predefined paths moves and the direction of motion is moved towards the direction close to first segment, at this point, lifting arm component 140 Tilting state, protrusion 131 is kept to be stuck in the first groove 122, i.e., slide block assembly 120 is locked with 130 phase of positioning component.Sliding block group Part 120, positioning component 130 and act 140 three's synchronous translational of arm component movement.Until the first groove 122 passes through the second groove When 111, the first side wall 122a is inclined-plane, since the movement of the horizontal direction of positioning component 130 is restricted, the first side wall 122a Protrusion 131 is supported into the second groove 111 of top, so that protrusion 131 is detached from the first groove 122, positioning component 130 and sliding block Component 120 mutually discharges.Then, slide block assembly 120 enters first segment from second segment, and is moved to the direction far from second segment. At this point, slide block assembly 120, which drives, lifts arm component 140 relative to the rotation of positioning component 130, and arm component 140 is lifted towards close to sliding block The direction of component 120 rotates, that is, lifts arm component 140 and sink close to slide block assembly 120.Until slide block assembly 120 moves to first When the starting point of section, lifts arm component 140 and sink to lowest point with electric automobile skylight, to realize that vehicle dormer window completely closes.

Each technical characteristic of above example can be combined arbitrarily, to keep description succinct, not to above-described embodiment In each technical characteristic it is all possible combination be all described, as long as however, the combination of these technical characteristics be not present lance Shield is all considered to be the range of this specification record.

Only several embodiments of the present invention are expressed for above example, the description thereof is more specific and detailed, but can not Therefore it is construed as limiting the scope of the patent.It should be pointed out that for those of ordinary skill in the art, Under the premise of not departing from present inventive concept, various modifications and improvements can be made, these are all within the scope of protection of the present invention. Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (10)

1. mechanical group of a kind of vehicle dormer window, for driving vehicle dormer window to open and close, which is characterized in that including：

Guide assembly, for being fixed on the automobile；

The slide block assembly being slidably matched with the guide assembly, the slide block assembly can be along the predetermined roads on the guide assembly Diameter moves；

The positioning component being slidably matched with the guide assembly；

Arm component is lifted, one end is rotatably attached with the positioning component, and the act arm component is used for solid with the vehicle dormer window Fixed connection；And

Drive the drive component of the slide block assembly movement；

Wherein, the predefined paths include first segment and the second segment that is connected with first segment, and the slide block assembly is along described predetermined First segment on path moves and towards when being moved close to the direction of the second segment, the slide block assembly can drive the act arm Component rotates relative to the positioning component, so that the other end for lifting arm component is done far from the guide assembly Movement；When the slide block assembly is located at the second segment on the predefined paths, the slide block assembly is mutually locked with the positioning component It is fixed, and the slide block assembly can drive the positioning component and the act arm component to synchronize and do translational motion.

2. according to mechanical group of the vehicle dormer window described in claim 1, which is characterized in that the slide block assembly is equipped with first Linkage portion, the act arm component are equipped with the first fit structure, and the slide block assembly is moved along the first segment of the predefined paths When, first linkage portion is matched with first fit structure drives the act arm component to rotate.

3. according to mechanical group of the vehicle dormer window described in claim 2, which is characterized in that first linkage portion includes first Sliding part, first fit structure be with the matched the first sliding groove of the first sliding part, the slide block assembly is described in When the first segment movement of predefined paths, the first sliding part moves in the first sliding groove, so that the act arm component is driven to do Rotary motion.

4. according to mechanical group of the vehicle dormer window described in claim 1, which is characterized in that be provided on the positioning component One sticking department, the slide block assembly are equipped with and matched second fit structure of first sticking department, the slide block assembly When positioned at the second segment, first sticking department is matched with second fit structure, so that the slide block assembly and institute Positioning component is stated mutually to lock.

5. mechanical group of vehicle dormer window according to claim 4, which is characterized in that second fit structure is first recessed Slot, first sticking department includes protrusion compatible with first groove, when the slide block assembly is located at the second segment, The protrusion is located in first groove and the both sides of the protrusion are connected with the side wall of first groove respectively, So that the slide block assembly is mutually locked with the positioning component.

6. mechanical group of vehicle dormer window according to claim 5, which is characterized in that the guide assembly be equipped with it is described Compatible second groove of protrusion, second groove are located at the top of first groove, and the slide block assembly is along described pre- When determining the first segment movement in path, the protrusion is located in second groove；The slide block assembly is from the first segment to institute State second segment move to first groove by second groove when, the protrusion can be fallen into out of described second groove In first groove.

7. mechanical group of vehicle dormer window according to claim 6, which is characterized in that first groove has the first side wall The second sidewall opposite with the first side wall, the second sidewall are hook, so that the protrusion is recessed positioned at described first When in slot, the second sidewall catches on the protrusion to provide the resistance for hindering the protrusion close to first segment.

8. mechanical group of vehicle dormer window described according to claim 6 or 7, which is characterized in that first groove has first Side wall and the second sidewall opposite with the first side wall, the first side wall are inclined relative to vertical direction；It is described When slide block assembly moves to first groove by second groove from the second segment to the first segment, the guide rail Component can limit positioning component movement in the horizontal direction, so that the first side wall pushes into the protrusion upwards In second groove.

9. mechanical group of vehicle dormer window according to claim 1, which is characterized in that it is recessed that the act arm component is equipped with third Slot, is provided with limiting section on the slide block assembly, and the opening of the third groove is towards the first segment close to the second segment Direction, the slide block assembly move to the second segment far from the first segment one end when, the limiting section is located at institute It states in third groove.

10. mechanical group of vehicle dormer window according to claim 1, which is characterized in that the positioning component is equipped with second Sliding slot is fixedly connected with the second sliding part being slidably matched with the second sliding slot, the act arm component on the act arm component When being rotated relative to the positioning component, second sliding part is driven to be slided in the second sliding slot.