CN1209403A - Light vehicle having telescopic roof - Google Patents
Light vehicle having telescopic roof Download PDFInfo
- Publication number
- CN1209403A CN1209403A CN98117556A CN98117556A CN1209403A CN 1209403 A CN1209403 A CN 1209403A CN 98117556 A CN98117556 A CN 98117556A CN 98117556 A CN98117556 A CN 98117556A CN 1209403 A CN1209403 A CN 1209403A
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- CN
- China
- Prior art keywords
- roof
- vehicle
- saddle
- supporting column
- pipe
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62J—CYCLE SADDLES OR SEATS; AUXILIARY DEVICES OR ACCESSORIES SPECIALLY ADAPTED TO CYCLES AND NOT OTHERWISE PROVIDED FOR, e.g. ARTICLE CARRIERS OR CYCLE PROTECTORS
- B62J17/00—Weather guards for riders; Fairings or stream-lining parts not otherwise provided for
- B62J17/08—Hoods protecting the rider
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60J—WINDOWS, WINDSCREENS, NON-FIXED ROOFS, DOORS, OR SIMILAR DEVICES FOR VEHICLES; REMOVABLE EXTERNAL PROTECTIVE COVERINGS SPECIALLY ADAPTED FOR VEHICLES
- B60J7/00—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs
- B60J7/02—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs of sliding type, e.g. comprising guide shoes
- B60J7/06—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs of sliding type, e.g. comprising guide shoes with non-rigid element or elements
- B60J7/061—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs of sliding type, e.g. comprising guide shoes with non-rigid element or elements sliding and folding
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62J—CYCLE SADDLES OR SEATS; AUXILIARY DEVICES OR ACCESSORIES SPECIALLY ADAPTED TO CYCLES AND NOT OTHERWISE PROVIDED FOR, e.g. ARTICLE CARRIERS OR CYCLE PROTECTORS
- B62J17/00—Weather guards for riders; Fairings or stream-lining parts not otherwise provided for
- B62J17/02—Weather guards for riders; Fairings or stream-lining parts not otherwise provided for shielding only the rider's front
- B62J17/04—Windscreens
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62J—CYCLE SADDLES OR SEATS; AUXILIARY DEVICES OR ACCESSORIES SPECIALLY ADAPTED TO CYCLES AND NOT OTHERWISE PROVIDED FOR, e.g. ARTICLE CARRIERS OR CYCLE PROTECTORS
- B62J17/00—Weather guards for riders; Fairings or stream-lining parts not otherwise provided for
- B62J17/08—Hoods protecting the rider
- B62J17/086—Frame mounted hoods specially adapted for motorcycles or the like
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62K—CYCLES; CYCLE FRAMES; CYCLE STEERING DEVICES; RIDER-OPERATED TERMINAL CONTROLS SPECIALLY ADAPTED FOR CYCLES; CYCLE AXLE SUSPENSIONS; CYCLE SIDE-CARS, FORECARS, OR THE LIKE
- B62K2202/00—Motorised scooters
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Body Structure For Vehicles (AREA)
- Tents Or Canopies (AREA)
- Lighting Device Outwards From Vehicle And Optical Signal (AREA)
- Vehicle Interior And Exterior Ornaments, Soundproofing, And Insulation (AREA)
- Fittings On The Vehicle Exterior For Carrying Loads, And Devices For Holding Or Mounting Articles (AREA)
Abstract
A light vehicle with an extension collapsible roof is provided. The roof is accomodated a case under the seat. It is easy to be folded and easy to be unfolded whenever. In a light vehicle provided with an extension roof 20 between a front window screen 13 provided in a front part of the vehicle and a rear pillar 40 provided in a rear part of the vehicle, a rear pillar 41 is formed by a hollow member. A guide bracket passed through the collapsible roof. When the collapsible roof is folded, the guide bracket can be stored in the rear pillar.
Description
The present invention relates to have the light-duty vehicle of a scalable roof.
The invention particularly relates to the scalable roof of light-duty vehicle, wherein this scalable roof can easily be folded into a compact condition, the pillar of supporting roof also can be folded into a compact condition, and folding roof and pillar all can be housed in the receiving space of vehicle.
In order to guarantee driving comfort, proposed to have the light-duty vehicle such as motor bike of roof, and dropped into actual use in the rainy day.
Most of traditional roof of light-duty vehicle is fixed.
Usually, regardless of weather, roof always is connected on the light-duty vehicle.Therefore, even when weather improves behind the rain, in case connected roof, it just is difficult for unloading from vehicle.
For described roof is unloaded from vehicle, various suggestions have been proposed.The example that flat 3-S2396 can learn this roof that is used for light-duty vehicle is disclosed by Japanese Patent.In the disclosure text, the back plate that roof is included in the top board that rider top extends, extend downwards from the top board rear end and be arranged on the back plate down one after subplate.In order to support the back plate, being provided with a cross-sectional plane in rear vehicle end is an inverted U-shaped pin, and it can be positioned at the position of rising or the position of decline.
Described all plates are by rigid resin material or similar material manufacturing, and adopt such structure, and promptly the front edge of top board is attached on the top edge of Windshield.The rear end of top board is by upright pin supporting, and then plate covers the rear surface of pin.
Disclose the described light-duty vehicle of flat 3-52396 for Japanese Patent, its roof unloads from vehicle by following order.At first, unload the top board of rigidity, then dismounting back plate from Windshield.The plate that unloads is shelved on vehicle rear, and is covered by back subplate or like.
In aforementioned light-duty vehicle, the rigidity of top board, back plate and back subplate is extraordinary.
In order to unload roof, essential these plates of dismounting.After this, use annex they to be collected and are shelved on vehicle rear.
Therefore, such problem occurred, promptly dismantling aforementioned all plates and the plate that unloads is shelved on vehicle rear is trouble, can not finish effectively.
Top board and other roof element are by rigid material, so they can not fold.In a little light-duty vehicle, be difficult to be preserved for a space that the plate that unloads is accommodated.Therefore, have to these plates are shelved on vehicle rear.
The element that unloads is huger and stretch out from vehicle rear, so vehicle is elongated inevitably.In addition, these elements that are positioned at vehicle rear will reduce the specious of vehicle.
When being connected on the vehicle, will be tending towards making the vehicle weightening finish to the roof that constitutes by rigid plate.In addition, have such problem, promptly be equipped with the aspect ratio that these plates can damage vehicle, and seem heavy.This is undesirable for light-duty vehicle, because the characteristic of light-duty vehicle just is noticeable and light and handy outward appearance.
The present invention is intended to overcome above-mentioned prior art problems.
The purpose of this invention is to provide a kind of light-duty vehicle that has a scalable roof, just can be easily that roof is compactly folding by single stepping, and be housed in the accepting box below the rider seat together with its pillar.
Another object of the present invention is to improve its operability by the structure of simplifying scalable roof, thereby can be easily and folding apace scalable roof.In addition, scalable roof can remain on the state of stretching out and folded state reliably.When folding, this this roof can be done as much as possible for a short time, thus its can be easily and be housed in reliably in the receiving space, this receiving space is used to preserve the helmet or similar articles basically.
Have, the invention is intended to provide the light-duty vehicle that has a scalable roof, it comprises Light gauge elements and is in when stretching out state when roof, can guarantee the outward appearance that vehicle is noticeable and soft.In addition, after roof folded and preserves, vehicle also can keep noticeable and good surface appearance.
The present invention also aims to provide a kind of light-duty vehicle that has a scalable roof and a kind of being used for telescopic roof effectively with the structure of compact condition storage.Particularly, folding roof narrows down and shortens, and the front edge of promptly scalable roof has variable and compact shape, thereby can easily fold, and is housed in the receiving space effectively.
According to the present invention, can be fast and the back prop of easily folding supporting roof rear portion.Specifically, back prop remains on one with roof and stretches out state, and is divided into the upper and lower, thereby they can compact condition be housed in the accepting box.Back prop can easily fold, and is locked at upright or folded state, and can discharges from lockup state.
In order to finish aforementioned purpose of the present invention, according to claim 1, provide a kind of light-duty vehicle, it has and is arranged on a Windshield and the telescopic roof between a back prop of vehicle rear.This back prop is by a hollow material manufacturing, and this scalable roof is by the fabric manufacturing, and can stretch between the saddle of the left and right sides of thread, and this saddle is collapsible in the said back prop.
According to claim 1, scalable fabric roof on saddle slidably, thereby it can stretch at longitudinal direction of car, perhaps can be changed into folded state.Slip into saddle in the back prop then and preserve in it.
According to the scalable fabric roof that is limited in the claim 2 that is subordinated to claim 1, its front edge is fixed in described saddle, and lagging dege can be connected with described back prop with pulling down, and the supporting remainder with on described saddle slidably.
According to claim 2, the lagging dege and the back prop of the flexible roof of fabric are thrown off to fold into the front edge of saddle.When the flexible roof of fabric folded into the saddle front edge, the remainder of saddle was exposing and can slip in the back prop smoothly.Under this state, the flexible roof of fabric is positioned at the front edge of back prop, thereby makes saddle and the flexible roof of fabric become very compact.
According to the back prop that is limited in the claim 3 that is subordinated to claim 1 or 2, the lower supporting rod pipe that it comprises the upper supporting column pipe and is used to support this upper supporting column pipe.And described lower supporting rod pipe has lockable mechanism, is used to keep described upper supporting column pipe to be erectility.
According to claim 3, when scalable roof was in extended configuration, the upper supporting column pipe can be remained on the lower supporting rod pipe with erectility reliably by lockable mechanism.When scalable roof was folding, back prop shrank and shortens.The back prop that has a folding roof can be housed in the receiving space under the seat.
Folding with respect to the lower supporting rod pipe according to the upper supporting column pipe that the claim 4 that is subordinated to claim 3 limits, the described lower supporting rod pipe that has a folded roof can be housed in the receiving space under the seat.
According to claim 4, the folded roof that is compact condition is in the relatively limited receiving space that is housed under the light-duty vehicle seat.
In the claim 5 that is subordinated to claim 1 or 2, its fabric roof is by crossing the hold assembly supporting that front edge is provided with.This hold assembly can stretch along lateral direction of car.
According to claim 5, because hold assembly can freely stretch at lateral direction of car, therefore when not using the fabric roof, it can narrow down, fold and remain on compact condition.
According to the hold assembly that is limited in the claim 6 that is subordinated to claim 5, it comprises the Windshield connecting device, and this device is hinged on the saddle, with the front edge of clamping fabric roof.
Hold assembly in the claim 6 can be swung at the saddle front end.When folding roof was housed in the described receiving space, it is parallel with the bottom of receiving space that hold assembly can keep.
According to the claim 7 that is subordinated to claim 3, the lower supporting rod pipe comprises the arm with end, and described end is supported and supported movably the pedestal of upper supporting column pipe movably by the vehicle frame of vehicle.Length along arm is provided with a locking rod, this locking rod can freely be thrown off with the upper supporting column pipe, and it is connected to one movably on the lock piece, this lock piece is supported by described arm movably through a movable axie, and have locking element, this locking element can be fixed on one on the vehicle frame not removable lock piece locking element engagement or throw off.And the movable axle of removable lock piece is to be swung by a control lever.
According to claim 7, the operation of control lever makes movably lock piece and the disengagement of immovable lock piece.The swing of removable lock piece makes the upper supporting column pipe throw off from locking rod.Therefore can make upper supporting column pipe and the release of lower supporting rod pipe.The operation of control lever can be carried out aforementioned unlocking operation simultaneously.
In the claim 8 that is subordinated to claim 7, the locking element of removable lock piece is two pawls, the locking element of removable lock piece is not two otch, and when the operation lock piece and when making the upper supporting column pipe upright or folding, a locking element of removable lock piece selectively with the not locking element engagement of removable lock piece.
By the engagement of described pawl and otch, the upper supporting column pipe in the claim 8 can be locked at upright and folding position reliably.
(therefore, roof can stretch, remain on extended configuration reliably, and folding and storage.Pawl is removable and otch is not removable, thereby just can carry out locking and unlocking operation reliably by a simple structure.)
Fig. 1 is the lateral plan with light-duty vehicle of scalable roof of the present invention;
Fig. 2 is the top view of the amplification of scalable roof;
Fig. 3 is the cutaway view of the amplification of roof;
Fig. 4 is the cutaway view of the amplification cut open along the 4-4 line of Fig. 3;
Fig. 5 is the cutaway view of the amplification cut open along the 5-5 line of Fig. 3;
Fig. 6 is the front elevation that is positioned at the holding member of roof front edge;
Fig. 7 is the front cross sectional view of amplification of the main portion of holding member;
Fig. 8 is the cutaway view of cutting open along the 8-8 line of Fig. 7;
Fig. 9 is the cutaway view of cutting open along the 9-9 line of Fig. 7;
Figure 10 is the cutaway view of cutting open along the 10-10 line of Fig. 7;
Figure 11 is the exploded drawings of holding member;
Figure 12 is the cutaway view of amplification of main portion that is used to link the mechanism of roof lagging dege and back prop;
Figure 13 is similar to Figure 12, is the longitudinal sectional view that expression has removed the antemarginal back prop of roof;
Figure 14 is the front elevation of lower supporting rod pipe that has removed the back prop of protecgulum;
Figure 15 is the longitudinal sectional view that is locked at the lower supporting rod pipe of a upright state;
Figure 16 is the cutaway view of cutting open along the 16-16 line of Figure 15;
Figure 17 is the cutaway view of cutting open along the 17-17 line of Figure 15;
Figure 18-the 21st represents to push how backward the scheme drawing of lower supporting rod pipe;
Figure 18 is a scheme drawing of representing how to come by the operating operation bar release lower supporting rod pipe;
Figure 19 represents to push backward the operation of lower supporting rod pipe;
Figure 20 represents to remain on the lower supporting rod pipe of pushing state backward;
Figure 21 represents the lockup state of lower supporting rod pipe;
Figure 22 is the longitudinal sectional view of the lockup state of expression lower supporting rod pipe, is similar to Figure 15;
Figure 23 represents to fold how forward scalable roof;
Figure 24 represents to move folding roof how backward and how saddle is withdrawn in the upper supporting column pipe;
Figure 25 represents the roof that folds;
Figure 26 represents the lower supporting rod pipe that pushes backward and the forward and downward upper supporting column pipe of pushing;
Figure 27 represents to be placed on the state of the folding roof in the accepting box;
Figure 28 is the lateral plan that the folding roof of expression is stored in the accepting box and accepting box is closed;
Figure 29 is the transparent view that is used for the mechanism of upper and lower mobile Windshield.
Below in conjunction with the embodiment shown in the accompanying drawing the present invention is described.These accompanying drawings will be watched along the orientation of reference marker.
Fig. 1 is the lateral plan that has the light-duty vehicle of a scalable roof of the present invention.Fig. 2 is the top view of the amplification of scalable roof.Fig. 3 is the cutaway view of the amplification of roof.Fig. 4 is the cutaway view of the amplification cut open along the 4-4 line of Fig. 3.Fig. 5 is the cutaway view of the amplification cut open along the 5-5 line of Fig. 3.Fig. 6 is the front elevation of the holding member of supporting roof front edge.Fig. 7 is the front elevation of the main portion of holding member.Fig. 8 is the cutaway view of cutting open along the 8-8 line of Fig. 7.Fig. 9 is the cutaway view of cutting open along the 9-9 line of Fig. 7.Figure 10 is the cutaway view of cutting open along the 10-10 line of Fig. 7.Figure 11 is the decomposition diagram of holding member.Figure 12 be used to link scalable roof rear end and back prop structure the longitudinal sectional view of amplification.Figure 13 is similar to Figure 12, the scalable roof lagging dege after expression is unloaded from back prop.
The figure and the order of operation of back prop lockable mechanism will be described in the back.
With reference to Fig. 1, a light-duty vehicle 1 (back claims " vehicle 1 ") is a motor bike in the present embodiment.Vehicle 1 comprises: a body gate 3 of protection vehicle frame 2 and definite its outward appearance; One front-wheel 4 that can freely turn to by steering handle 5; Be positioned at an oscillating power device 7 of rear vehicle end; Be arranged on engine installation 7 back and as a trailing wheel 6 of drive wheel.
In addition, a protecgulum 8 is arranged on the front-wheel 4, and side view mirror 9 is connected the opposed upper end of protecgulum 8.
One rider seat 10 is positioned at the central authorities of vehicle 1.Space under the seat 10 is surrounded by bonnet 11.Accepting box 12 with an open top is installed in the space that is limited by bonnet 11.
One Windshield 13 stretches out from protecgulum 8 in the front portion of vehicle 1, and so at a slant: its top edge is towards the rear portion of vehicle 1.
One roof 20 extends between the back prop 40 at the top edge of Windshield 13 and vehicle 1 rear portion.
The shape of roof 20 is shown in Fig. 2-6.The roof 20 that is in the state of stretching out is described below.
Many short tubes 22 are sewn on the opposed side 21a of fabric roof 21, keep predetermined interval between these short tubes 22.Left and right saddle 25 is slidably mounted in the short tube 22, and fabric roof 21 is across left and right saddle 25 like this.
A reinforced wire 26 of being made by piano steel wire etc., and is arranged on the lower surface of fabric roof 21 left and right node 23 across each, to keep the good shape of fabric roof 21.As shown in Figure 2, vertically be provided with three reinforced wires 26 at the fabric roof.
With reference to Fig. 4 and Fig. 5, hung strengthening wing 24 from the side 21a of fabric roof 21, cover saddle 25, short tube 22 and node 23 thus.
This scalable roof 20, be so-called soft top, between the top edge of Windshield 13 and back prop 40, extend, so that the outward appearance of tilting vehicle is soft and noticeable.
One parts 30 of the front edge that is used for the scalable roof 20 of clamping are described below in conjunction with accompanying drawing 6-11.In order to help understanding its structure, Figure 11 adopts the form of decomposition diagram, has wherein removed fabric roof 21.
Hold assembly 30 comprises a rectangular substrate 31 and a pair of side plates 32, and wherein the cross-sectional plane of substrate 31 is roughly letter C shape, shown in Fig. 9-11.
Upper and lower sweep by substrate 31 limits a pair of upper and lower groove 31a.31a is opposite each other for these grooves.The central rear surface lining of substrate 31 has a pair of brace panel 31b.
Left and right side plate 32 is symmetrical.Each side plate 32 has the short 32b of portion of a rectangular anterior 32a and a bending, and it is L shaped that promptly each side plate 32 is roughly letter.
A pair of upper and lower rectangular recess 32d is formed on the place, the inner near each anterior 32a, maintains one therebetween at interval.Each groove 32d has a kerf 32c at the one end.Between groove 32d, be provided with a rectangular breach 32e.At the lower part of each anterior 32a with near folding place, end, be formed with the circular hole 32f and the 32g that separate, and on circular hole 32f and 32g, be formed with an oblong breach 32h.Groove, otch, oblong breach and circular hole are to be formed on symmetrically on two side plates 32.
After side plate 32 is arranged on substrate 31, its upper and lower edge and upper and lower groove 31a engagement.Therefore, side plate 32 can laterally slide on the rear surface of substrate 31.
A pair of tensioning and force application part, for example annulus rubber cincture 33 extend between the otch 32c that is formed at symmetrically on the side plate 32.Annulus rubber cincture 33 will flexibly draw each other with the rear surface ingear side plate 32 of substrate 31.
Insert in the oblong breach 32h of side plate 32 in hole on the brace panel 31b of a pair of Screw 34 on being connected substrate 31, and side plate 32 is slided on substrate 31 reliably.
Each aforementioned saddle 25 has the rectangular part 25a of a general curved, and it is connected on the joint 27 movably.
Each joint 27 forms the part of a hinge, and it has pair of cylinders part 27a, 27a, and the sweep 25a of these cylindrical portions may and saddle 25 meshes movably.On a planar section 27b of each joint 27, be formed with a hole 27d, and a rivet 27c is stretching out near its left side edge place near its right side edge place.
The planar section 27b of joint 27 contacts with the rear surface of grip block 32, and wherein rivet 27c passes hole 32g, and all these parts are installed together as illustrated in fig. 9.
With reference to Fig. 8, when joint 27 was connected to holding part plate 32s and goes up, cylinder part 27a was contained in the oblong breach 32h, prevents they and grip block 32 interference thus.
Particularly, the rear end of each nut 36 is made into fork-shaped, to clamp a 37a, by the axle 37a as a pivot hook 37 is freely swung thus.
Be formed with relatively large opening 14 in opposed position near the top edge of Windshield 13.Hook 37 is configured to meet at right angles with Windshield 13.These hooks 37 insert opening 14, and are bent downwardly and rotate, so that grip block 32 and Windshield 13 engagements.Like this, grip block 32 meshes and is fixed thereon with Windshield 13.
Fig. 8 represents that grip block 32 is fixed on the Windshield 13.Under this state, hold assembly 30, comprise the upper limb engagement of grip block 32, substrate 31 and saddle 25 and Windshield 13 and be fixed thereon.
When hook 37 was shifted onto solid line position shown in Figure 8 down, its rear surface with close opening 14 places of Windshield 13 contacted, to be unlikely to deviate from from opening 14.
On the contrary, when by shown in arrow (1) on when pushing away hook 37, it flushes with opening 14, shown in dotted line 37A.
Therefore, in Fig. 8 by with hold assembly 30, comprise that grip block 32 moves to left, can take off hook 37 from opening 14, promptly hold assembly 30 can be pulled down from Windshield 13.
With reference to Figure 10, the head 34a that passes the Screw 34 of the brace panel 31b on the rear surface of substrate 31 is accommodated in the 13a of hole, and this hole 13a is arranged between the opening 14.Like this, grip block 32 can with the front surface closed contact of Windshield 13.
The front edge 21b of fabric roof 21 is stuck on the front surface of grip block 32 and substrate 31, and these front surfaces constitute the front surface of hold assemblies 30.In addition, the front edge of left and right strengthening wing 24 is stapled on the curve 32b of grip block 32.
By on push away hook 37 (shown in the dotted line 37A of Fig. 8) and can pull down hold assembly 30 from Windshield 13, and they are separated with opening 14.
In hold assembly 20, with near the grip block 32 of substrate 31 sliding engaged of Windshield 13 central authorities by annulus rubber cincture 33 application of force flexibly, so that draw close each other.
Therefore, when grip block 32 is thrown off with Windshield 13, by the tensioning and the elastic force of rubber tape 33 grip block 32 that contacts with substrate 31 is drawn close each other, thereby hold assembly 30 narrow down as a whole.
Under this state, flexible fabric roof 21 is folding along horizontal (Width).
The reinforced wire 26 that crosses saddle 25 extensions is flexible and elastomeric, as piano steel wire, so when fabric roof 21 folds, these reinforced wire deformables, but can return to its virgin state.
Therefore, the hold assembly 30 of throwing off with Windshield 13 narrows down from dynamic deformation and with fabric roof 21, saddle 25 and reinforced wire 26, and can be housed in the accepting box 12.
Hold assembly 30 uses joint 27 and supporting movably by the front end of saddle 25 through grip block 32.Therefore, when hold assembly 30 when Windshield 13 is thrown off, by using end 25a, reinforcement 30 is moved as the saddle 25 of pivot.
As a result, hold assembly 30 can freely change its posture, and for example it can be arranged to the right angle with respect to the extendible portion of saddle 25.
Therefore, scalable roof 20 can be housed in the accepting box 12, and wherein hold assembly 30 is parallel with the end 12a of accepting box 12, shown in Figure 27 and 28.This will describe in the back.
The support pattern of the rear end of scalable roof 20 as described later.
With reference to Fig. 1, a pedestal 15 of back prop 40 is connected to the rear portion 2a of vehicle frame 2, makes progress and recedes in upright mode thereon.One bearing support 16 stretches out from pedestal 15, and the lower supporting rod pipe 46 of back prop 40 is connected on the bearing support 16 through a lockable mechanism.Therefore, lower supporting rod pipe 46 can freely be positioned at bearing position or folding position, and can remain on aforesaid relevant position by this lockable mechanism.
One back plate 28 is similar to the lagging dege that crosses scalable roof 20 on hold assembly 30 ground of the front portion of roof 20 and extends, as shown in figure 12.Specifically, back plate 28 has a stratiform lining 28a of lateral arrangement, and it is by the lagging dege 21c clamping of fabric roof 21.
As shown in figure 12, U-shaped hook 29 is fixed on the inside face of back plate 28 (in the face of the front portion of vehicle 1) by Screw 29a.U-shaped hook 29 is arranged near the left and right sides edge of back plate 28.
Back prop 40 comprises the upper supporting column pipe 41 of a pair of symmetry, and it is L shaped that it is shaped as letter.
The bottom 41a of back prop pipe 41 be the symmetry and curve inwardly.Upper supporting column pipe 41 extends upward from bottom 41a, has a predetermined altitude, and forward and K/UP, as shown in figs. 1 and 3.
With reference to Figure 13, when back plate 28 during by post-tensioning, the U-shaped hook 29 of back plate 28 is from pawl 42 disengagements of upper supporting column pipe 41.
Then, the lagging dege of scalable roof 20 and upper supporting column pipe 41 are thrown off, as shown in figure 13.
Under this state, so that during scalable roof 20 reach, flexible fabric roof 21 is just folding to slide on saddle 25 and pipe 22 simultaneously glibly when postponing plate 28 forward.
Reinforced wire 26 across saddle 25 moves with fabric roof 21, wherein when pipe 23 when saddle 25 slides, fabric roof 21 is folded, and this means that reinforced wire 26 and fabric roof 21 are folded together.
Folding fabric roof 21 is folding and compact condition, being installed on the hold assembly 30, and collects in the front end of saddle 25, as shown in figure 23.Folding roof 20 is along laterally narrowing down.
Under this state, big many parts of saddle 25 are exposing, except the position that is provided with folding fabric roof 21, as shown in figure 23.Then by catching hold assembly 30 pusher saddles 25.
Figure 24 represents that the roof 20 that folds is arranged between the top of upper supporting column pipe 41.
Being connected between the structure of the structure that lower supporting rod pipe 46 is described below and operation, locking and release mechanism and operation, the upper and lower support tube 41,46.
Figure 14 is the front view of the details of expression lower supporting rod pipe 46, has wherein unloaded protecgulum.Figure 16 is the cutaway view along the 16-16 line of Figure 15.Figure 17 is the cutaway view along the 17-17 line of Figure 15.How Figure 18 to 21 expression back prop pipe 46 folds.Particularly, Figure 18 represents unlocking operation.How Figure 19 represents pusher lower supporting rod pipe 46.Figure 20 represents how the lower supporting rod pipe is locked at down the position that pushes away.Figure 21 represents to be locked in down the lower supporting rod pipe of the position that pushes away.Figure 22 is the longitudinal sectional view that is in the lower supporting rod pipe of lockup state.
With reference to Figure 14, vehicle body 47 comprises lower supporting rod pipe 46, and it is a tray shape, and narrower in front and back edge.
The vehicle body 47 that comprises arm 50 can be swung on a fulcrum 54, and this fulcrum will be arranged on as a pivot on the vehicle frame of vehicle (back will be described).
The top 50a that one support tube 51 crosses arm 50 extends.
One 52 of supporting upper supporting column pipe 41 is passed support tube 51 and is being rotatably mounted.
Lower supporting rod pipe 41 and axle 52 can move with respect to support tube 51 as a global facility.
Be clearly shown that as Figure 15 fulcrum 52 has a groove 52b, it forms on the outer surface with a predetermined angular, also has a radial opening 52c, and it is positioned at the end of groove 52b.
(it is bearing in the rear portion 2a of vehicle frame 2, and the front end of bearing support 16 as shown in Figure 1) is provided with pair of posts 16a, and this is to maintaining one at interval between the pillar at pedestal 15.Referring to Figure 15 and 16.
A pair of vertical side edge part 53a with carriage 53 of E shape channel shape contacts with the outside face of support column 17.The lower end 50b of arm 50 contacts with the outside face of vertical side edge part 53a.Like this, arm 50 is swung as a global facility with carriage 53.
A pair of left and right sides lock piece 55 is fixed on the outside face of fulcrum 54 of arm 50 inboards, and stretches perpendicular to this fulcrum 54.
One fulcrum 56 is under the arm 50, on the fulcrum 54 and rear extension.With reference to Figure 15, the center fixation of locking pawl 57 that is roughly letter C shape is on fulcrum 56.Locking pawl 57 is used as movably lock piece, so that lower supporting rod pipe 46 is remained on stand up position.
End at each locking pawl 57 has a bluff piece 57a, and it is that inverted letter is L shaped.When support tube 46 kept as shown in figure 15 erectility instantly, bluff piece 57a just meshed with the first otch 55a of immovable lock piece 55.Therefore, lower supporting rod pipe 46 is maintained at stand up position.
A pair of left and right locking rod 58 is also put in arm 50 inboards, keeps one between the two at interval.On the lower surface of support tube 51, be formed with shrinkage pool 51a, maintain one between them at interval.Locking rod 58 inserted in the shrinkage pool 51a through the end of support tube 51.Be provided with guiding part 51b in the bottom of shrinkage pool 51a.
The top 58a of locking rod 58 arrives hole 52c through the groove 52b of shrinkage pool 51a and axle 52.
The top 58a of locking rod 58 meshes with hole 52c and separates, with the lockable mechanism as upper supporting column pipe 41.
In addition, according to the engagement of top 58a in the 52c of hole, the retainer that locking rod 58 rotates as restrictive axes 53.Because fulcrum 52 can not rotate, the upper supporting column pipe 41 of opposed end that is connected to fulcrum 52 is by locking and can not rotate.Therefore, upper supporting column pipe 41 is locked in it and stands on state on the lower supporting rod pipe 46, as shown in Figure 1.
Therefore, scalable roof 20 can remain on extension state.
On the pedestal 57b of locking pawl 57, be provided with rotary branching holder 57c, and the bottom of supporting locking rod 58, make locking rod 58 can endwisely slip (in the vertical direction of Figure 15).
One end of fulcrum 56, promptly Figure 14 and 16 right-hand member are connected on the pedestal of control lever 60.
The pedestal 60b of control lever 60 is connected with a cylindrical shape unitor 56a who is positioned at fulcrum 56 1 ends.The swing of control lever 60 is rotated fulcrum 56.
An end 61a and near 57 engagements of the locking pawl the rotary branching holder 57c such as a helical spring pull back spring 61.One pin, 62 engagements of the other end 61b of each pull back spring 61 and arm 50 central authorities.
In Figure 14 and 15, reference marker 63 is illustrated in a stirrup that extends between the arm 50.
The folding process that is used to preserve lower supporting rod pipe 46 is described below.
In Figure 14 and 15, lower supporting rod 46 and upper supporting column guarantee hold upright.In other words, scalable roof 20 maintenances extended configuration as shown in Figure 1.
Before downward pushing lower supporting rod pipe 46, unload the back plate 28 of scalable roof 20 from upper supporting column pipe 41, fabric roof 21 is folded in forward on the saddle 25, shown in the arrow (2) of Figure 23.
Unload hold assembly 30 and, saddle 25 is inserted in the upper supporting column pipe 41, shown in the arrow (3) of Figure 24 from Windshield 13 to pusher.Therefore, Zhe Die roof 20 and hold assembly 30 just are presented between the upper supporting column pipe 41.
In aforesaid state, seat 10 not locking and adopt its front edge as a hinge and on move, thereby open accepting box 12 to hold folding roof 20.
At first, make control lever 60 along the direction of arrow (4) (promptly to Figure 18 the left side or vehicle front) swing.
Therefore, fulcrum 56 rotates, and makes locking pawl 57 along anticlockwise motion among Figure 18 thus, is the axle center with fulcrum 56.Drive control lever 60 and overcome spring 61 swings.
When locking pawl 57 rotates, throw off at the bluff piece 57a on its top and the first otch 55a of lock piece 51.The pedestal 57b of locking pawl 57 moves down, and makes locking rod 58 overcome spring 59 thus and by drop-down.
As a result, the top 58b of locking rod 58 and the hole 52c of fulcrum 52 throw off, thereby allow fulcrum 52 to rotate in the support tube 51 of lower supporting rod pipe 46 upper ends.
When locking rod 58 moved down, fulcrum 52 all was unlocked with upper supporting column pipe 41.Specifically, upper supporting column pipe 41 (its end 41a is connected on the opposed end of fulcrum 52) release from the lower supporting rod pipe 46 makes upper supporting column pipe 41 rotate along the direction of the arrow (5) of Figure 19 and 25 thus.
In this state, the subsidiary upper supporting column pipe 41 that folded roof 20 arranged of its front edge can be easily by under shift onto in the accepting box 12.
When bluff piece 57a when (immovable lock piece 55) first otch 55a throws off, lower supporting rod pipe 46 is just discharged by a self-locking state and becomes free state.Therefore, lower supporting rod pipe 46 can be on fulcrum 54 anticlockwise motion, promptly rotate along the direction of the arrow in Figure 19 and 25 (6).
After this, back prop pipe 46 is by pusher, and upper supporting column pipe 41 also by under push away, shown in Figure 20 and 26.Particularly, from the upper supporting column pipe 41 of lower supporting rod pipe 46 releases can by under push away.
With reference to Figure 26, upper supporting column pipe 41 can be shifted onto a position that is lower than back prop parts 46 down, and wherein these back prop parts have been shifted onto the position of an approximate horizontal down, and Zhe Die roof 20 can be placed in the accepting box 12 like this.
Figure 21 represents back prop parts 46 by pusher, and upper supporting column pipe 41 is forward with downward-sloping.In this state, the bluff piece 57a of locking pawl 57 is below the second otch 55b of lock piece 55.
The bluff piece 57a and second otch 55b engagement then, as shown in figure 21.In this state, lower supporting rod pipe 46 is locked in down push mode.
Shown in arrow among Figure 21 (8), when making control lever 60 when upwards swing the position of approximate horizontal, locking pawl 57 rotates, and makes bluff piece 57a and second otch 55b disengagement thus.After this, lower supporting rod 46 discharges from lockup state, and is set at stand up position.Upper supporting column pipe 41 is also upright, thereby folding roof 20 is extensible.
Lower supporting rod pipe 46 and upper supporting column pipe 41 are upright and by locking, and folding roof 21 launches with the opposite order of the order folding with making collapsible roof.This operation can be understood easily.Figure 22 represents that lower supporting rod pipe 46 is by the state of pusher.
With reference to Figure 26, be provided with a recess 12a in the bottom of accepting box 12, to hold the folding roof 20 that links to each other with upper supporting column pipe 41.
In Figure 26, folding roof 20 on recess 12a, then by under push away with contact with it.In this state, the saddle 25 that is positioned at upper supporting column pipe 41 can easily be pushed.
Folding roof 20 is contained in the recess 12a, as shown in figure 27 fully.
Hold assembly 30 movably is connected on the saddle 25 by articulation piece 27, allows folding roof 20 parallel with recess 12a thus.Therefore,, can prevent that also the roof 20 that folds from erecting at recess 12a place, and can in recess 12a, keep compact reliably even hold assembly 30 is a rigid pipe.
After this, promote rib 12b in forward and downwards, to close the accepting box 12 that has folding roof 21, shown in the arrow among Figure 27 (9).
At last, promote seat 10 downwards, shown in the arrow of Figure 27, to close accepting box 12.
Though not shown, on the rear surface of seat back 10a, be formed with two recesses, to hold upper supporting column pipe 41.Therefore, upper supporting column pipe 41 and helmet H can be housed in the rear portion of accepting box 12, as shown in figure 28.
In this embodiment, Windshield 13 is designed to be moved down into a desired location according to the folding of collapsible roof 20 with storage.
This be because the top edge of Windshield 13 preferably a little more than the head of rider, so that when using collapsible roof 20, protect it to avoid drenching with rain.
But when not using collapsible roof 20, the top edge of Windshield 13 is preferably lower than the eyes of rider, as shown in figure 28.
Figure 29 represents to be used to regulate a mechanism 70 of Windshield 13 height.This mechanism 70 comprises a pair of supporting member 13b that is arranged on Windshield 13 lower edges.One substrate 71 is fixed on the protecgulum 8 of vehicle 1.A pair of guide member 72 is provided with along the opposed lateral edges 13c of Windshield 13, and can slide thereon.A pair of feed screw 73 is arranged near the opposed lateral edges of substrate 71.A pair of nut 74 is screwed on the feed screw 73, and is fixed on the supporting member 13b.
One electrical motor 75 is fixed on the bottom of substrate 71, and has the driven wheel 76 that is secured on the left and right output shaft.Driven wheel 76 and a pair of driven gear 77 engagements that are positioned at feed screw 73 bottoms.
The operation of electrical motor 75 makes driven wheel 76 through feed screw 73 forward and reverse rotations.As a result, move up and down, make the Windshield 13 that is connected on the nut 74 rise or descend thus with feed screw 73 ingear nuts 74.
As shown in figure 15, a starting switch 78, for example a microswitch be fixed on an arm 50 near, promptly this switch is arranged on the upper supporting column pipe 41 regularly.In Figure 15, an element 78a of switch 78 stays open.
When upper supporting column pipe 41 during by pusher as mentioned above, switch 78 moves after with arm 50, thereby element 78a contacts with a cam 79 on being connected to fulcrum 56.
Therefore, element 78a is pushed to open switch 78, allows electrical motor 75 to rotate thus and operation feed screw 73.As a result, Windshield 13 is lowered to a predetermined altitude.
Figure 26 and 27 also illustrate instantly support tube 46 by under when pushing away, Windshield 13 is lowered to described predetermined altitude.
The present invention is favourable aspect following.According to claim 1, scalable roof is arranged between Windshield and the back prop.Scalable roof is made by a folding fabric and many saddles.When the fabric roof slided on saddle, it can be folded or can stretch at longitudinal direction of car.After the fabric roof was folded, saddle was retracted in the back prop pipe.
For light-duty vehicle, when not using roof, it can be folded and preserves with scalable roof.In addition, because saddle is retracted in the back prop pipe, the fabric roof can remain on the back prop rear end by folded state, and is housed in the accepting box with compact condition.
Therefore, the present invention can provide the light-duty vehicle that has scalable roof, and its roof is collapsible and be housed in the accepting box of vehicle.
Scalable roof comprise the saddle that can be retracted in the back prop and on saddle slidable flexible fabric and this fabric can fold easily.In addition, scalable roof can easily launch with the order opposite with folding order.
Scalable roof comprise saddle and on saddle fabric roof slidably, wherein saddle makes roof keep good shape, it can be retracted in the back prop and by the material manufacture of piano steel wire and so on.Therefore, roof can make in light weight, and is suitable for a light-duty vehicle.
In addition, roof has simple structure, and cheap.
Roof is a retractable type, and the time spent can not preserve when it.Roof is included in the fabric that extends between Windshield and the back prop, serves as the roof of a softness thus.Roof in light weight and can improve the outward appearance and the function thereof of light-duty vehicle.
According to the claim 2 that is subordinated to claim 1, the fabric roof is fixed on the saddle front end, kept slidably by saddle, and its rear end is detachably connected on the back prop.When back prop is pulled down, the fabric roof can be folded on the saddle forward.
When the fabric roof was folded in the saddle front end, the remainder of saddle exposed, and made its slip and be retracted in the back prop.
Therefore, by pulling down the lagging dege of roof from back prop, collapsible roof, and can easily shift to the saddle front end, and need not any necessary in the prior art loaded down with trivial details steps such as top board that remove.
In the time of in saddle is retracted to back prop, only Zhe Die fabric roof remains on the front edge of back prop.Under this state, folding roof is very compact, and promptly it becomes short especially, and it can be without any being housed in the accepting box troublesomely.
According to the claim 3 that is subordinated to claim 1 or 2, back prop comprises the lower supporting rod pipe 46 of the upper supporting column pipe that a pair of upper supporting column pipe and clamping are shunk.The lower supporting rod pipe has lockable mechanism, is used for upper supporting column guaranteed being held in erectility.
When scalable roof stretched on light-duty vehicle, back prop can remain on erectility reliably.On the contrary, when scalable roof was folding, the upper supporting column pipe was retracted in the lower supporting rod pipe, shortens the total length of back prop thus.
Folding roof and back prop can easily be housed in accepting box or the allied equipment.
In the claim 4 that is subordinated to claim 3, its upper supporting column pipe can be folding with respect to the lower supporting rod pipe.The lower supporting rod pipe that has a folded roof can be housed in the limited little accepting box under the seat compactly.
The upper supporting column pipe is designed to folding with respect to the lower supporting rod pipe.Even when folding, the length the when length of upper supporting column pipe also stretches with roof is the same.When pushing away under the quilt, upper supporting column Guan Buhui stretches out behind car, also can not increase vehicle length, and can be housed in the receiving space.
Hold assembly defined in the claim 5 that is subordinated to claim 1 or 2 is along the overall width setting, with the front edge of clamping fabric roof and deployable.When not using scalable roof, can reduce the width of roof front edge.
Scalable roof is to be made of fabric and symmetrical saddle, and can be folded in front edge with narrow state.Therefore, scalable roof can narrow down and shorten on the whole, can become compact.
Therefore folding roof can easily be housed in the accepting box under the vehicle seat.
According to the claim 6 that is subordinated to claim 5, hold assembly is provided with connecting device, is used for the front edge of scalable roof is connected to Windshield.This connecting device is a pivotally attached with respect to the saddle of fabric roof, thereby hold assembly is swung at the saddle front end.Therefore, when preserving folding roof, hold assembly can be parallel with the bottom of accepting box.
The height of hold assembly is reduced, and can be housed in the accepting box with compact condition with folded roof, this hold assembly is parallel with the bottom of accepting box simultaneously.Therefore, Zhe Die roof can be housed in the accepting box with helmet etc.Accepting box still can be served the initial purpose of its storage article.
According to the claim 7 that is subordinated to claim 3, the lower supporting rod pipe comprises the arm with pedestal, wherein pedestal is supported movably by the vehicle frame of vehicle and is the top that is bearing in upper supporting column pipe lower end, length along arm is provided with a locking rod, this locking rod can freely be thrown off with the upper supporting column pipe, and it is connected to movably on the lock piece, this lock piece is supported by arm movably through movable axie, and have a locking element, this locking element can and be thrown off with the locking element engagement that is fixed on the immovable lock piece on the vehicle frame; And the movable axle of removable lock piece makes its swing by a control lever.The operation of control lever makes movably lock piece and the disengagement of immovable lock piece.The swing of removable lock piece is thrown off the handle of locking rod and upper supporting column pipe, and upper supporting column pipe and lower supporting rod pipe are thrown off.
Control lever discharges lower supporting rod pipe and upper supporting column Guan Congqi lockup state simultaneously.In other words, the upper supporting column pipe of the roof that control lever can be folding with supporting effectively is retracted in the lower supporting rod pipe, and with coordinated mode pusher lower supporting rod pipe.
One control lever is guaranteed by adjusting mechanism pusher lower supporting rod pipe reliably.
The locking element of the removable lock piece that limits in the claim 8 that is subordinated to claim 7 is two pawls, the locking element of removable lock piece is not two otch, and when making the upper supporting column pipe upright according to the operation of removable lock piece, the locking element of removable lock piece selectively with the not locking element engagement of removable lock piece.Removable lock piece meshes by pawl and otch with not removable lock piece, thereby the upper supporting column pipe can remain on stand up position or folding position reliably.
Therefore, even vehicle in wind, the back prop that is standing also can support the roof of stretching, extension reliably.In addition, after roof had been folded and has preserved, back prop can remain on folded state.
Movably pawl and immovable otch can be guaranteed failure-free locking and unlocking operation.
Claims (8)
1. light-duty vehicle has and is arranged on a front windshield and the telescopic roof between a back prop of vehicle rear, it is characterized in that:
This back prop is by a hollow material manufacturing;
This scalable roof is by the fabric manufacturing, and is collapsible, and can stretch between the left and right sides saddle of wire; And
This saddle is collapsible in the said back prop.
2. light-duty vehicle as claimed in claim 1 is characterized in that:
Described scalable fabric roof comprises a front edge that is fixed to described saddle; Can pull down ingear one rear end, ground with described back prop; And the remainder that can on described saddle, slide.
3. light-duty vehicle as claimed in claim 1 or 2 is characterized in that:
Described back prop comprises the upper supporting column pipe and is used for support tube once with the supporting of described upper supporting column Guan Yiyi folded state, and described lower supporting rod pipe has a lockable mechanism, is used to keep described upper supporting column pipe to be erectility.
4. light-duty vehicle as claimed in claim 3 is characterized in that:
Described upper supporting column pipe is folding forwards, backwards with respect to described lower supporting rod pipe, and the subsidiary folding described scalable roof thereon of described lower supporting rod pipe is housed in the accepting box under the vehicle seat.
5. light-duty vehicle as claimed in claim 1 or 2 is characterized in that:
The front edge of cross-web roof is provided with a hold assembly, and described hold assembly can trail along the overall width direction.
6. light-duty vehicle as claimed in claim 5 is characterized in that:
Described hold assembly has the Windshield connecting device that is hinged on the described saddle.
7. light-duty vehicle as claimed in claim 3 is characterized in that:
Described lower supporting rod pipe comprises the arm with pedestal, and described pedestal is supported movably by the vehicle frame of vehicle; And described arm is the top that is bearing in upper supporting column pipe lower end; Length along arm is provided with a locking rod, this locking rod can freely be thrown off with the handle of upper supporting column pipe, and it is connected to movably on the lock piece, this lock piece is supported by this arm movably through movable axie, and have locking element, this locking element can and be thrown off with the locking element engagement that is fixed on the immovable lock piece on the vehicle frame; And the axle of removable lock piece is to be swung by a control lever.
8. light-duty vehicle as claimed in claim 7 is characterized in that:
The locking element of described removable lock piece is two pawls; The locking element of removable lock piece is not two otch; And when the swing of removable lock piece, described upper supporting column pipe selectively with described two otch engagement of the described not removable lock piece that is in upright or folding position.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP20813697A JP3961631B2 (en) | 1997-08-01 | 1997-08-01 | Covered light vehicle |
JP208136/97 | 1997-08-01 |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1209403A true CN1209403A (en) | 1999-03-03 |
CN1091708C CN1091708C (en) | 2002-10-02 |
Family
ID=16551238
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN98117556A Expired - Fee Related CN1091708C (en) | 1997-08-01 | 1998-07-31 | Light vehicle having telescopic roof |
Country Status (6)
Country | Link |
---|---|
JP (1) | JP3961631B2 (en) |
KR (1) | KR100287440B1 (en) |
CN (1) | CN1091708C (en) |
DE (1) | DE19834186C2 (en) |
IT (1) | IT1303099B1 (en) |
TW (1) | TW450909B (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110155223A (en) * | 2019-05-08 | 2019-08-23 | 山东华宇工学院 | A kind of warming protective device of electric vehicle |
WO2020152721A1 (en) * | 2019-01-25 | 2020-07-30 | Todmal Rahul Suresh | Roof assembly for a two-wheeler |
CN113165713A (en) * | 2018-09-13 | 2021-07-23 | 智能移动解决方案有限公司 | Device for covering vehicle position and implementation method |
Families Citing this family (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CO5121081A1 (en) * | 2001-10-11 | 2002-01-30 | Garcia Ricardo Flery | PROTECTOR AGAINST RAIN OR SUN, COMPLETELY RETRACTABLE AND ADAPTABLE TO ANY VEHICLE |
DE10337575A1 (en) * | 2003-08-14 | 2005-03-17 | Wilhelm Karmann Gmbh | Motor vehicle with a movable roof part |
DE102005059869B4 (en) * | 2005-12-15 | 2016-06-09 | Valmet Automotive Oy | Convertible car |
WO2007072134A1 (en) * | 2005-12-19 | 2007-06-28 | Johannes Hendrik Nel | Vehicle with protective structure |
ES2323625B1 (en) * | 2007-08-20 | 2010-04-30 | Manuel Muñoz Saiz | PROTECTIVE SYSTEM FOR BLOWS AND ATMOSPHERIC AGENTS FOR MOTORCYCLES AND TRICYCLES. |
KR101924399B1 (en) * | 2016-11-08 | 2018-12-03 | (주) 한호기술 | Walking supporter using electric power |
BE1027362B1 (en) | 2019-06-11 | 2021-01-21 | Intrater Hersch Mifien Ltd | Cover for open vehicles such as a bicycle |
DE102020114696A1 (en) * | 2020-05-05 | 2021-11-11 | Günter Rood | Vehicle, especially light vehicle |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2031376U (en) * | 1988-05-10 | 1989-01-25 | 湖南省津市市童具厂 | Seven-function children cycle |
CA1309370C (en) * | 1988-09-20 | 1992-10-27 | Edward C. Shurtleff | Apparatus and method for reclaiming waste oil |
CN2106782U (en) * | 1990-11-05 | 1992-06-10 | 胡月景 | Hood protecting the motorcycle-rider |
CN2178208Y (en) * | 1993-10-28 | 1994-09-28 | 刘天来 | Motorcycle sidecar |
-
1997
- 1997-08-01 JP JP20813697A patent/JP3961631B2/en not_active Expired - Fee Related
-
1998
- 1998-06-05 TW TW087108962A patent/TW450909B/en not_active IP Right Cessation
- 1998-07-15 KR KR1019980028759A patent/KR100287440B1/en not_active IP Right Cessation
- 1998-07-29 DE DE19834186A patent/DE19834186C2/en not_active Expired - Fee Related
- 1998-07-31 IT IT1998TO000667A patent/IT1303099B1/en active IP Right Grant
- 1998-07-31 CN CN98117556A patent/CN1091708C/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113165713A (en) * | 2018-09-13 | 2021-07-23 | 智能移动解决方案有限公司 | Device for covering vehicle position and implementation method |
WO2020152721A1 (en) * | 2019-01-25 | 2020-07-30 | Todmal Rahul Suresh | Roof assembly for a two-wheeler |
CN110155223A (en) * | 2019-05-08 | 2019-08-23 | 山东华宇工学院 | A kind of warming protective device of electric vehicle |
Also Published As
Publication number | Publication date |
---|---|
TW450909B (en) | 2001-08-21 |
JP3961631B2 (en) | 2007-08-22 |
ITTO980667A1 (en) | 2000-01-31 |
CN1091708C (en) | 2002-10-02 |
KR19990023210A (en) | 1999-03-25 |
JPH1149065A (en) | 1999-02-23 |
ITTO980667A0 (en) | 1998-07-31 |
IT1303099B1 (en) | 2000-10-30 |
DE19834186A1 (en) | 1999-02-18 |
DE19834186C2 (en) | 1999-10-28 |
KR100287440B1 (en) | 2001-04-16 |
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