Keel garage
Technical field
The present invention relates to a kind of keel garage, especially rotatable, floor space it is small but can park a large amount of cars,
The keel garage that the car parked in rotary course will not roll.
Background technology
Current vehicle has parked two ways, and one is that plane is parked, two is that fixing vertical multiple layer jiffy stand is parked.
The major defect that plane is parked is that the area on occupancy ground is big, and huge space above the ground does not obtain profit
With.Both sides have been fully parked with car on street, and three lanes become two tracks, and two tracks become bicycle road, and automobile passes through extremely difficult.
It is dizzy and confused just like labyrinth, left turn right is in that people come into underground large parking lot, it is seen that its area is big, it is seen that its cost
Height, and parked vehicle is limited.It is this to park mode, for the city of an inch of land is an inch of gold, needs can neither be met,
It is a kind of huge waste.
Fixing vertical multiple layer jiffy stand, although space availability ratio increases, but it is very slow to pick up the car.Guangzhou Daily 2014 12
The moon 22 A3 editions《Why not sky parking is fallen》There is following statement in one text:" Miss Xia then represents:' sky parking takes
Car is slow, if running into peak period on and off duty, light is picked up the car will one or two hour.... ' " this jiffy stand is due to depositing in lower floor
Car will rise to upper strata and can just vacate parking stall and allow later car to park, and depositing in the car on upper strata and being down to low layer to take out, this mistake
Need to translate and lift numerous vehicles repeatedly in journey, to configure many set electromechanical equipments, operation sequence complexity is cumbersome, the operating time
Long, energy resource consumption is big.Level is more, and disadvantages mentioned above is more serious.
Parking difficulty has turned into city especially metropolitan common fault, gives people trip and brings inconvenience, seriously constrains city
The development in city.How this common fault, the task of top priority are cured.
The content of the invention
The technical problem to be solved in the present invention is to provide that a kind of operation sequence is simple, the Transport Vehicle time is short, energy resource consumption is small,
Ground utilization rate keel garage high.Keel garage is rotated, just parking stall can be provided for car.Keel garage is rotated, can just be made
The car parked drops to outer platform.The car that keel garage is parked in rotation process will not roll.
In order to solve the above technical problems, the technical scheme is that:
A kind of keel garage, by jiffy stand, gear, gear shaft, gear shaft block, column, motor, outer platform composition;It is many
Individual jiffy stand is in turn connected into close ring.
Jiffy stand is made up of frame body and flat car.
Frame body contains preceding annulus, rear annulus, connecting rod, hyoplastron keel, fork plate keel, keel axle.
Preceding annulus, rear annulus on frame body are identical abundant annulus, and the internal diameter of the preceding annulus or the rear annulus is more than sedan-chair
The transverse width or vertical height of car, car pass in and out this body by the circular hole of the preceding annulus, the axis of the preceding annulus with should
The axis of annulus overlaps afterwards;More than the length of car, its two ends is respectively inserted in the preceding circle to the length of one of a plurality of axial connecting rod
Fasten in corresponding circular hole on ring and the rear circular annulus and therewith and connect, this plurality of connecting rod is distributed along same even circumferential.
Preceding annulus on frame body radially fastens one block length cube shape fork plate of connection on the external peripheral surface of rear annulus
Keel, the fork plate keel on fork plate keel and the rear annulus on the preceding annulus are located at this body homonymy and the axis of the two is flat
OK;The outer end of the fork plate keel is two pieces of fork plates, and the length of the fork plate is equal to or more than the half of the fork plate keel length, and this two
It is cavity between the interior lateral face of block fork plate, the width of the cavity is equal to or more than the thickness of the fork plate;One of this two pieces of fork plates
Center have fork plate axis hole, the diameter parallel of the axis of the fork plate axis hole and the preceding annulus;On fork plate keel on the preceding annulus
There is triangle fork plate projection, the fork plate projection is close to the preceding annulus, and the top of the horn thereon is towards closing that multiple jiffy stands are connected into
In cyclization;Have triangle fork plate projection on fork plate keel on the rear annulus, the fork plate projection close to the rear annulus, and thereon
In the close ring that the top of the horn is connected into towards multiple jiffy stands.
Preceding annulus on frame body radially fastens one block length cube shape hyoplastron of connection on the external peripheral surface of rear annulus
Keel, the length of the hyoplastron keel is equal to the length of fork plate keel, and its thickness is equal to the thickness of fork plate keel;Tongue on preceding annulus
The axis of board keel and fork plate keel overlaps;Hyoplastron keel and the axis of fork plate keel afterwards on annulus overlap;Hyoplastron keel
Outer end is hyoplastron, and the half of the length more than the hyoplastron keel length of the hyoplastron, its thickness is equal to or less than two on fork plate keel
The width of the cavity between block fork plate, its outer end corner is arc-shaped, there is hyoplastron axis hole thereon;Have on the hyoplastron keel of preceding annulus
Triangle hyoplastron projection, the hyoplastron projection is close to the preceding annulus, and the closure that the top of the horn thereon is connected into towards multiple jiffy stands
In ring;There is triangle hyoplastron projection on the hyoplastron keel of annulus afterwards, the hyoplastron projection is close to the rear annulus, and the top of the horn court thereon
To in the close ring that multiple jiffy stands are connected into.
The hyoplastron of the hyoplastron keel on the preceding annulus and rear annulus of frame body, inserts another adjacent sheet respectively
In cavity on fork plate keel on the corresponding preceding annulus of body and rear annulus between two fork plates, the axle of the hyoplastron axis hole on the hyoplastron
Line overlaps with the axis of the fork plate axis hole in this two fork plate;Keel axle is inserted in the fork plate axis hole and the hyoplastron axis hole, the keel
Axle fastens with the fork plate and is connected and is fixedly connected with the hyoplastron, and the hyoplastron keel can be around the axis of the keel axle with respect to fork plate dragon
Bone is rotated;Multiple jiffy stands have been assembled into close ring like this.
Flat car contains roller, roller shaft, cambered plate, flat board, the steady in-out apparatus of car.
The upper and lower surface of flat board be equal length rectangle, but lower surface transverse width less than upper surface transverse width;
The flat board is located in the inner chamber of frame body, and the transverse width of its upper surface is gone forward the interior of annulus or rear annulus less than this body
Footpath, thereafter end face flushed with the rear anchor ring of the rear annulus, its front end face beyond the preceding annulus preceding anchor ring;Cambered plate it is smooth on
The transverse width on surface more than the flat board lower surface transverse width, two pieces of upper surfaces of cambered plate respectively with relevant position should
The neighbouring lower surface in one of flat board two ends laterally fastens connection, the outer surface of the cambered plate near the flat board front end with it is corresponding
The rear anchor ring movable contact of the preceding annulus of position, outer surface and the relevant position of the cambered plate near the flat back
The preceding anchor ring movable contact of the rear annulus, but this two pieces of cambered surfaces of cambered plate contact all without the connecting rod with relevant position;Two
Fasten in the corresponding circular hole that one of roller shaft inserts on this two pieces of cambered plates respectively vertically and therewith connection, its two ends respectively from
Be fixedly connected with one of two rollers respectively after outwardly the stretching out of one of this two pieces of cambered plates, between this two roller shaft away from
From the transverse width less than the flat board lower surface, this two roller shaft is equidistant with the flat board;Installed in the roller of the roller shaft front end
It is shelved on the inner circumferential surface of the preceding annulus, the inner circle weekly form of the rear annulus is shelved on installed in the roller of the roller shaft rear end
On face, this two pieces of cambered plates prevent the flat board from being axially moveable.
The flat car is not rocked when the steady in-out apparatus of car make car be passed in and out from the flat board of flat car.
Gear includes toothed disc, denticle, anti-flake, the part of increment four.
Toothed disc is located at the center of gear, and it is abundant disk, and n denticle, the n are uniformly distributed on its external peripheral surface
It is the positive integer more than 2, the width closer to the toothed disc denticle is bigger;The outer end of the denticle is increment and anti-flake, is somebody's turn to do
The axial end of increment is cambered surface, and, more than the thickness of fork plate keel on frame body, the anti-flake is positioned at the increment for its axial width
Outside, the radius of the radius of the anti-flake outer end more than the increment;The distance between increment of adjacent two denticle is equal to this
Body is gone forward the distance between hyoplastron axis hole of hyoplastron keel and the fork plate axis hole of fork plate keel on annulus or rear annulus.
The length of gear shaft is gone forward the distance between the preceding anchor ring of annulus and the rear anchor ring of rear annulus more than frame body;Two teeth
One of wheel shaft is upper to fasten the distance between two gears of connection, the two gear speculars, and the two top circle faces greatly
The distance between rear anchor ring in preceding anchor ring and the rear annulus of the preceding annulus.
Two gear shafts are located in the close ring that multiple jiffy stands are connected into together with gear thereon, one of gear shaft
Positioned at the top of another gear shaft, the axis horizontal of the two gear shafts and on same perpendicular, a gear shaft
The axis of the denticle of gear is located at when on the perpendicular, the tooth nearest from the perpendicular on another gear shaft gear
The axis of body and the angle of the perpendicular are π/n;The tooth of the denticle on the gear top near gear shaft front end above
The seaming engagement between hyoplastron projection and fork plate projection before the two frame body adjacent with relevant position of end between annulus, the increment
The anti-flake in outside prevents the fork plate keel before this two framves body between annulus from being slipped forward from the increment vertically;It is above
Gear shaft rear end near gear top denticle increment two frame body adjacent with relevant position after tongue between annulus
Seaming engagement between plate projection and fork plate projection, the anti-flake on the outside of the increment prevents the fork between annulus after this two framves body
Board keel is vertically from the increment to retrolisthesis;The increment of the denticle of the gear bottom near underlying gear shaft front end with
Seaming engagement between hyoplastron projection and fork plate projection before the adjacent two framves body of relevant position between annulus, increment outside
Anti- flake prevent the fork plate keel before this two framves body between annulus from being slipped forward from the increment vertically;Underlying tooth
Hyoplastron after the increment two frame body adjacent with relevant position of the denticle of the gear bottom near wheel shaft rear end between annulus is convex
Seaming engagement between block and fork plate projection, the anti-flake on the outside of the increment prevents the fork plate dragon between annulus after this two framves body
Bone is vertically from the increment to retrolisthesis.
The two ends of one of two gear shafts are after the periphery of one of two gears is protruding from it respectively, respectively with two
One of gear shaft block is fixedly connected, and the two gear shaft blocks erect the fastening of one of column and are connected to one with the two of relevant position respectively
Rise;The lower end of one of this two column fastens the ground for being connected to relevant position respectively.
Motor-driven gear shaft above, makes the gear shaft rotate along clockwise direction or in the counterclockwise direction,
Rotating for the gear shaft drives pinion rotation thereon again, and the rotation of the gear drives the close ring that multiple jiffy stands are assembled into again
Gear shaft with lower section is rotated, so as to realize that frame body is lifted.
Car passes in and out frame body by outer platform, and the outer platform is towards before the side of this body and this body upper flat plate
End end face movable contact;The upper surface level of the outer platform, its relative altitude so determines:
The upper surface of the flat board in the close ring that multiple jiffy stands are assembled on any two frame body of both sides is located at same
On one horizontal plane, and car from the two frame bodies flat board turnover do not hindered by column, the upper surface of the outer platform with should
Horizontal plane overlaps;If middle part of the outer platform between two gear shafts, the invalid rotation of top cog axle when parking or pick-up
Few rotational time in other words is short, and this is the optimal relative altitude scheme of outer platform, but cost is higher.
The flat car is not rocked when the steady in-out apparatus of car make car be passed in and out from the flat board of flat car, the sedan-chair
The structure of the steady in-out apparatus of car has two preferred schemes.
First preferred scheme of the structure of the steady in-out apparatus of car is such:Being installed on the flat board of flat car to stop
The known parking plate by driven by power of car is put, car is drawn from the flat board by the parking plate and passed in and out.
Second preferred scheme of the structure of the steady in-out apparatus of car is such:The two of the flat board upper surface of flat car
One of side fastens two stop pole sockets of connection, and an arresting lever seat is located at the front end of the flat board, and another arresting lever seat is located at should
The middle part of flat board axial direction;Stop pole length is more than the distance between the two stop pole sockets but less than the axial length of the flat board;
Two arresting levers are respectively in axial direction through the hole on two stop pole sockets of one of both sides on the flat board;This two arresting lever is vertically
Extract out forward and set aside on outer platform, between the flat board and the outer platform during transition, this two arresting lever prevents the flat board to car
Car is rocked.
In order to allow parking car owner to grasp parked car on which jiffy stand, in order to allow the convenient operation of staff and
Save energy, indicates numbering on jiffy stand, the numbering is eye-catching to be written on the outer surface of jiffy stand restocking body cambered plate;Institute
State numbering be respectively 01,02,03,04 ...;An arbitrarily selected frame body 1 from the close ring that multiple jiffy stands are assembled into
Start, sign is numbered successively along clockwise direction or in the counterclockwise direction.
After using such structure, when the car being parked on jiffy stand flat board turns over top cog axle, due to gravity power
The effect of square, makes the flat board remain horizontality, and the car will not roll.
After such structure, the gear shaft above rotation keel garage, the relative altitude of each jiffy stand changes
Become, when the upper surface of flat board is zero with the relative altitude of the upper surface of outer platform in certain jiffy stand, car just can be flat from this
Transition between plate and the outer platform.Therefore, this invention can be higher than public fixing vertical multiple layer jiffy stand, the car parked
More, ground utilization rate is increased substantially.
After using such structure, the close ring of multiple jiffy stand compositions can both be rotated in the clockwise direction, again can be along inverse
Clockwise is rotated, and deposits, withdraws car quickly, and rotation is once possible to while parking or taking out two cars.Therefore, this invention
Simpler than public fixing vertical multiple layer jiffy stand operation sequence, vehicle is deposited, withdrawed fast.
After using such structure, because the jiffy stand and the car parked of keel garage both sides are to the weight of top cog axle
Force square is cancelled out each other, and the torque for rotating the power that the close ring of multiple jiffy stand compositions needs is smaller, thus save energy.
Brief description of the drawings
Specific embodiment of the invention is described in further detail below in conjunction with the accompanying drawings.
Fig. 1 is the schematic front view in keel garage.
Fig. 2 is the schematic diagram after Fig. 1 central posts depart from from keel garage.
Fig. 3 is that jiffy stand is gone forward the enlarged front view of annulus or rear annulus.
Fig. 4 is the longitudinal sectional drawing of line A-A in Fig. 3.
Fig. 5 is that the longitudinal direction that the fork plate keel on the jiffy stand of top are connected with the hyoplastron keel on adjacent lower section jiffy stand is cutd open
Face schematic diagram.
Fig. 6 is the schematic top plan view of jiffy stand upper flat plate.
Fig. 7 is the seaming on fork plate projection and hyoplastron between hyoplastron projection in the fork plate of increment on gear and relevant position
Mesh schematic representation.
Specific embodiment
As shown in Figure 1 and Figure 2, a kind of keel garage, by jiffy stand, gear 2, gear shaft 3, gear shaft block, column 17, electricity
Motivation, outer platform composition.Multiple jiffy stands are in turn connected into close ring.
As shown in Figure 3, Figure 4, jiffy stand is made up of frame body 1 and flat car 6.
As shown in Figure 3, Figure 4, frame body 1 containing preceding annulus 4, rear annulus 5, connecting rod 7, hyoplastron keel 12, fork plate keel 13,
Keel axle 14.
As shown in Figure 3, Figure 4, on frame body 1 preceding annulus 4, rear annulus 5 are identical abundant annulus, the preceding annulus 4 or should
The internal diameter of annulus 5 is more than the transverse width or vertical height of car afterwards, and car passes in and out this body by the circular hole of the preceding annulus 4
1, the axis of the preceding annulus 4 overlaps with the axis of the rear annulus 5.Length of the length of one of a plurality of axial connecting rod 7 more than car
Degree, its two ends are respectively inserted in the corresponding circular hole on the preceding annulus 4 and the anchor ring of rear annulus 5 and fasten connection therewith, and this is a plurality of
Connecting rod 7 is distributed along same even circumferential.
As shown in Fig. 2, Fig. 3, Fig. 5, radially fastened on the external peripheral surface of preceding annulus 4 on frame body 1 or rear annulus 5
A block length cube shape fork plate keel 13 are connected, the fork plate keel 13 on the fork plate keel 13 on the preceding annulus 4 and the rear annulus 5
In the homonymy of this body 1 and the diameter parallel of the two.The outer end of the fork plate keel 13 is two pieces of fork plate 13a, the length of fork plate 13a
Degree, equal to or more than the half of the length of fork plate keel 13, is cavity between the interior lateral face of this two pieces of fork plate 13a, the cavity
Width is equal to or more than the thickness of fork plate 13a.There is fork plate axis hole 13b in the center of one of this two pieces of fork plate 13a, the fork plate axis hole
The diameter parallel of the axis of 13b and the preceding annulus 4.There is triangle fork plate projection 13c on fork plate keel 13 on the preceding annulus 4,
The fork plate projection 13c close to the preceding annulus 4, and in the close ring that is connected into towards multiple jiffy stands of the top of the horn thereon.The rear circle
There are triangle fork plate projection 13c, the fork plate projection 13c close to the rear annulus 5, and angle thereon on fork plate keel 13 on ring 5
In the close ring that point is connected into towards multiple jiffy stands.
As shown in Fig. 2, Fig. 3, Fig. 5, radially fastened on the external peripheral surface of preceding annulus 4 on frame body 1 or rear annulus 5
A block length cube shape hyoplastron keel 12 are connected, the length of the hyoplastron keel 12 is equal to the length of fork plate keel 13, and its thickness is equal to
The thickness of fork plate keel 13.The axis of hyoplastron keel 12 and fork plate keel 13 on preceding annulus 4 overlaps.Hyoplastron on annulus 5 afterwards
The axis of keel 12 and fork plate keel 13 overlaps.The outer end of hyoplastron keel 12 is hyoplastron 12a, and the length of hyoplastron 12a is more than should
The half of the length of hyoplastron keel 12, its thickness is equal to or less than the width of the cavity between two pieces of fork plate 13a on fork plate keel 13,
Its outer end corner is arc-shaped, there is hyoplastron axis hole 12b thereon.There is triangle hyoplastron projection on the hyoplastron keel 12 of preceding annulus 4
12c, the hyoplastron projection 12c close to the preceding annulus 4, and in the close ring that is connected into towards multiple jiffy stands of the top of the horn thereon.Afterwards
There are triangle hyoplastron projection 12c, the hyoplastron projection 12c close to the rear annulus 5, and angle thereon on the hyoplastron keel 12 of annulus 5
In the close ring that point is connected into towards multiple jiffy stands.
As shown in figure 5, the hyoplastron 12a of the hyoplastron keel 12 on the preceding annulus 4 and rear annulus 5 of frame body 1, inserts respectively
Enter the sky between two fork plate 13a on the fork plate keel 13 on the adjacent corresponding preceding annulus 4 of another body 1 and rear annulus 5
In chamber, the axis of the hyoplastron axis hole 12b on hyoplastron 12a overlaps with the axis of the fork plate axis hole 13b on this two fork plate 13a.Dragon
Axis of bone 14 is inserted in the fork plate axis hole 13b and hyoplastron axis hole 12b, the keel axle 14 be connected with fork plate 13a fastenings and with this
Hyoplastron 12a is fixedly connected, and the hyoplastron keel 12 can be rotated around the axis of the keel axle 14 relative to the fork plate keel 13.Multiple parking
Frame has been assembled into close ring like this.
As shown in Figure 3, Figure 4, flat car 6 steadily passes in and out dress containing roller 8, roller shaft 9, cambered plate 10, flat board 11, car
Put.
As shown in Figure 3, Figure 4, the upper and lower surface of flat board 11 is equal length rectangle, but the transverse width of lower surface is less than
The transverse width of upper surface.The flat board 11 is located in the inner chamber of frame body 1, and the transverse width of its upper surface is less than this body 1
Go forward the internal diameter of annulus 4 or rear annulus 5, end face is flushed with the rear anchor ring of the rear annulus 5 thereafter, and its front end face is beyond the preceding annulus
4 preceding anchor ring.The transverse width of the flat upper surface of cambered plate 10 is more than the transverse width of the lower surface of flat board 11, two pieces of arch
The upper surface of plate 10 lower surface neighbouring with one of the two ends of flat board 11 of relevant position respectively is laterally fastened and is connected, flat positioned at this
The outer surface of the cambered plate 10 near the front end of plate 11 and the rear anchor ring movable contact of the preceding annulus 4 of relevant position, put down positioned at this
The outer surface of the cambered plate 10 near the rear end of plate 11 and the preceding anchor ring movable contact of the rear annulus 5 of relevant position, but this two pieces
The cambered surface of cambered plate 10 is contacted all without the connecting rod 7 with relevant position.One of two roller shafts 9 insert this two pieces respectively vertically
Fasten in corresponding circular hole on cambered plate 10 and therewith connection, its two ends respectively from the appearance of one of this two pieces of cambered plates 10 towards
It is fixedly connected with one of two rollers 8 respectively after overhanging, horizontal stroke of the distance between this two roller shaft 9 less than the lower surface of flat board 11
To width, this two roller shaft 9 is equidistant with the flat board 11.Roller 8 installed in the front end of roller shaft 9 is shelved on the preceding annulus 4
On inner circumferential surface, the roller 8 installed in the rear end of roller shaft 9 is shelved on the inner circumferential surface of the rear annulus 5, this two pieces bows
Shape plate 10 prevents the flat board 11 from being axially moveable.
The flat car 6 is not rocked when the steady in-out apparatus of car make car be passed in and out from the flat board 11 of flat car 6.
As shown in Fig. 2 gear 2 includes toothed disc 2a, denticle 2b, anti-flake 2c, the parts of increment 2d tetra-.
As shown in Fig. 2 toothed disc 2a is located at the center of gear 2, it is abundant disk, is uniformly distributed on its external peripheral surface
N denticle 2b, the n are the positive integer more than 2, and the width closer to toothed disc 2a denticles 2b is bigger.Denticle 2b's
Outer end is increment 2d and anti-flake 2c, and the axial end of increment 2d is cambered surface, and its axial width is more than fork plate dragon on frame body 1
The thickness of bone 13, the anti-flake 2c is located at the outside of increment 2d, half of radius more than increment 2d of the anti-flake 2c outer ends
Footpath.The distance between increment 2d of adjacent two denticles 2b goes forward hyoplastron keel 12 on annulus 4 or rear annulus 5 equal to this body 1
The distance between the fork plate axis hole 13b of hyoplastron axis hole 12b and fork plate keel 13.
As shown in Fig. 2 the length of gear shaft 3 is gone forward the preceding anchor ring of annulus 4 and the rear anchor ring of rear annulus 5 more than frame body 1
The distance between.One of two gear shafts 3 are upper to fasten two gears 2 of connection, the two speculars of gear 2, and the two gears 2
Rear anchor ring the distance between of the distance between the periphery more than preceding anchor ring and the rear annulus 5 of the preceding annulus 4.
As shown in Fig. 2, Fig. 7, two gear shafts 3 are located at the close ring that multiple jiffy stands are connected into together with gear 2 thereon
Interior, one of gear shaft 3 is positioned at the top of another gear shaft 3, the axis horizontal of the two gear shafts 3 and positioned at same perpendicular
In straight plane, an axis of the denticle 2b of the gear 2 of gear shaft 3 is located at when on the perpendicular, tooth on another gear shaft 3
The axis of denticle 2b nearest from the perpendicular and the angle of the perpendicular are π/n on wheel 2.Gear shaft 3 above
Hyoplastron before the increment 2d two frame bodies 1 adjacent with relevant position of the denticle 2b on the top of gear 2 near front end between annulus 4
Seaming engagement between projection 12c and fork plate projection 13c, the anti-flake 2c on the outside of increment 2d prevents circle before this two framves body 1
Fork plate keel 13 between ring 4 are slipped forward from increment 2d vertically.Gear 2 near the rear end of gear shaft 3 above
Hyoplastron projection 12c and fork plate after the increment 2d two frame bodies 1 adjacent with relevant position of the denticle 2b on top between annulus 5 is convex
Seaming engagement between block 13c, the anti-flake 2c on the outside of increment 2d prevents the fork plate dragon between annulus 5 after this two framves body 1
Bone 13 is vertically from increment 2d to retrolisthesis.The tooth of the denticle 2b of the bottom of gear 2 near the front end of underlying gear shaft 3
The seaming between hyoplastron projection 12c and fork plate projection 13c before end 2d two frame bodies 1 adjacent with relevant position between annulus 4
Engagement, the anti-flake 2c on the outside of increment 2d prevents the fork plate keel 13 before this two framves body 1 between annulus 4 vertically from the tooth
End 2d is slipped forward.The increment 2d of the denticle 2b of the bottom of gear 2 near the rear end of underlying gear shaft 3 and relevant position
Seaming engagement between hyoplastron projection 12c and fork plate projection 13c after adjacent two framves body 1 between annulus 5, increment 2d outsides
Anti- flake 2c prevent the fork plate keel 13 after this two framves body 1 between annulus 5 vertically from increment 2d to retrolisthesis.
As shown in figure 1, the periphery of one of two gears 2 is protruding from it respectively at the two ends of one of two gear shafts 3
Afterwards, it is fixedly connected with one of two gear shaft blocks respectively, the two gear shaft blocks two erect columns 17 respectively with relevant position
One of fasten link together.The lower end of one of this two column 17 fastens the ground for being connected to relevant position respectively.
As shown in Fig. 2 motor-driven gear shaft 3 above, makes the gear shaft 3 along clockwise direction or along the inverse time
Pin direction is rotated, and the drive gear 2 thereon again that rotates of the gear shaft 3 is rotated, and the rotation of the gear 2 drives multiple jiffy stands again
The close ring and the gear shaft 3 of lower section being assembled into are rotated, so as to realize that frame body 1 is lifted.
Car passes in and out frame body 1 by outer platform, and the outer platform is flat with this body 1 towards the side of this body 1
The front end surface movable contact of plate 11.The upper surface level of the outer platform, its relative altitude so determines:
As shown in Fig. 2 flat board 11 in the close ring that is assembled into of multiple jiffy stands on any two frame body 1 of both sides
Upper surface is located in same level, and flat board 11 of the car from the two frame bodies 1 is passed in and out and do not hindered by column 17, and this is outer
The upper surface of platform overlaps with the horizontal plane.If middle part of the outer platform between two gear shafts 3, top when parking or pick-up
Rotational time is short in other words less for the invalid rotation of gear shaft 3, and this is the optimal relative altitude scheme of outer platform, but cost is higher.
The flat car 6 is not rocked when the steady in-out apparatus of car make car be passed in and out from the flat board 11 of flat car 6, institute
Stating the structure of the steady in-out apparatus of car has two preferred schemes.
First preferred scheme of the structure of the steady in-out apparatus of car is such:Installed on the flat board 11 of flat car 6
The known parking plate by driven by power of car can be parked, car is drawn from the flat board 11 by the parking plate and passed in and out.
Explanation:First preferred scheme of the structure of the steady in-out apparatus of car, during parking stand it is accurate, to driver
Driving technology it is less demanding, stop picking up the car quick, but cost is higher, the consumption energy.The program can be first-selected.
As shown in fig. 6, second preferred scheme of the structure of the steady in-out apparatus of car is such:Flat car 6 it is flat
One of both sides of the upper surface of plate 11 fasten two stop pole sockets 15 of connection, and a stop pole socket 15 is located at the front end of the flat board 11,
Another stop pole socket 15 is located at the middle part of the axial direction of flat board 11.The length of arresting lever 16 is more than between the two stop pole sockets 15
Distance but less than the axial length of the flat board 11.Two arresting levers 16 are respectively in axial direction through two of one of both sides on the flat board 11
Hole on stop pole socket 15.This two arresting lever 16 is extracted out set aside on outer platform axially forward, car the flat board 11 with
Between the outer platform during transition, this two arresting lever 16 prevents the flat car 6 from rocking.
Explanation:Second preferred scheme of the structure of the steady in-out apparatus of car, driving technology during parking to driver will
Ask high, stop picking up the car relatively slow, but low cost, do not consume the energy.The program refers to select.
In order to allow parking car owner to grasp parked car on which jiffy stand, in order to allow the convenient operation of staff and
Save energy, indicates numbering, the eye-catching outer surface for being written on the cambered plate 10 of jiffy stand restocking body 1 of numbering on jiffy stand
On.It is described numbering be respectively 01,02,03,04 ....An arbitrarily selected frame from the close ring that multiple jiffy stands are assembled into
Body 1 starts, and sign is numbered successively along clockwise direction or in the counterclockwise direction.
Explanation:
" two axis horizontals of gear shaft 3 and on same perpendicular, a gear 2 of gear shaft 3 mentioned above
Denticle 2b axis be located at the perpendicular on when, the denticle nearest from the perpendicular on another gear 2 of gear shaft 3
The axis of 2b and the angle of the perpendicular are π/n." why will be using such structure
As shown in Fig. 2 during the frame body 1 of jiffy stand turns over π/n from peak, the closure of multiple jiffy stand compositions
Ring will extend downwards, if taken no action to, the gear 2 of lower section will depart from the close ring and the close ring can not be played about
Beam and positioning action.After using said structure, the upper and lower gear 2 in the close ring produces complementary effect.That is,
When the rotation of top cog 2 extends the close ring, the rotation of bottom cog 2 shortens the close ring;The rotation of top cog 2
When shortening the close ring, the rotation of bottom cog 2 extends the close ring.Upper and lower gear 2 is cooperated, cooperateed with, lower section
Gear 2 just will not depart from the close ring, and constraint and positioning action can be remained to the close ring.
As shown in Fig. 2 being uniformly distributed n denticle 2b, " institute on the external peripheral surface of the gear disk 2a of gear mentioned above 2
It is the positive integer more than 2 to state n ".How much suitable n values are
N values are big, the uniform force of gear 2, and this is the big benefit of n values.The external diameter of jiffy stand is constant, and n values are bigger,
Keel garage it is highly constant in the case of, jiffy stand thereon is more, but gear 2 is also bigger, to make keel garage not damage,
The intensity of each structure needs fully guarantee.
Embodiments of the present invention are explained in detail above in conjunction with accompanying drawing.The present invention is not limited to above-mentioned embodiment party
Formula, in the ken that art those of ordinary skill possesses, can also be before present inventive concept not be departed from
Put that various changes can be made.The various change made on the premise of present inventive concept is not departed from, still falls within the scope of the present invention.