A kind of parking systems and the intelligent elevated toter of floor and mechanism
Technical field
The utility model relates to intelligence and establishes field, is specifically related to a kind of parking systems and the intelligent elevated toter of floor and mechanism.
Background technology
In the mechanical elevating equipment of existing parking systems and building, elevator is one the most common, studies carefully its operating principle, nothing more than being all have employed tractive driving mode.This " suspension craning cab series connection suspention counterweight " though driving method achieve the lifting of elevator freely, but " jump bust " the accident problem being but difficult to elevator to occur in traveling process controls to be zero from design source, result in the frequent generation of disaster.Meanwhile, also because this type of drive of elevator, create hugeization of its device structure, the installing space for elevator adds no small restriction.Range limited, safety is difficult to ensure, this stops getting to take with civic life to vehicle and brings no small trouble and worry.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of parking systems and the intelligent elevated toter of floor and mechanism.
For solving the problems of the technologies described above, the utility model provides following technical scheme: a kind of parking systems and the intelligent elevated toter of floor and mechanism, comprise integrated intelligent elevating mechanism carrying platform, combined type lifting mechanism control cabinet, combined type descending mechanism control cabinet, the up floor monitor control mechanism of carrying platform, carrying platform down-floor monitor control mechanism and carrier mechanism control centre.The left and right end face of described integrated intelligent elevating mechanism carrying platform is respectively provided with carrying platform upward signal receiving system and carrying platform downstream signal reception device, four angular length faces of integrated intelligent elevating mechanism carrying platform are provided with four hollow positioning and guiding slide rails, upper and lower hauling block group is provided with in hollow positioning and guiding slide rail, longitudinal balance positioning supports pulley, and lateral balance positioning supports pulley.
On such scheme basis preferably, be from left to right disposed with in described combined type lifting mechanism control cabinet and leftly rise fixed pulley group, leftly rise running block, leftly rise directive wheel, raising speed monitoring wheel, rightly rises fixed pulley group, rightly rises running block, rightly rise directive wheel, raising speed damping wheel, rising tractor.
On such scheme basis preferably, be from left to right disposed with a left side in described combined type descending mechanism control cabinet and fall fixed pulley group, running block falls in a left side, and directive wheel falls in a left side, reduction of speed monitoring wheel, fixed pulley group falls in the right side, and running block falls in the right side, directive wheel falls in the right side, reduction of speed damping wheel, decline tractor.
On such scheme basis preferably, described carrying platform up floor monitor control mechanism is disposed with up floor identification light from top to bottom, up primary speed-down lamp, up double reduction lamp, up positioning lamp.
On such scheme basis preferably, described carrying platform down-floor monitor control mechanism is disposed with down-floor identification light from top to bottom, descending primary speed-down lamp, descending double reduction lamp, descending positioning lamp.
On such scheme basis preferably, described carrier mechanism control centre is provided with carrier mechanism computerized control system and carrier mechanism manual control system.
The beneficial effect that the utility model compared with prior art has is:
1, this design scheme efficiently solves the up and down balance system safety protection problem of vehicle in parking period of sky parking (storehouse);
2, this design scheme efficiently solve stop in whole lifting process up and down or the horizontal equilibrium problem of left and right;
3, this design scheme efficiently solve stop in whole lifting process face jump and the safety protection problem of bust;
4, this design scheme efficiently solves the speed limit current limliting problem of all vehicles in parking period of sky parking (storehouse);
5, this design scheme efficiently solves sky parking (storehouse) and the laborsaving traction problems of elevator in elevating mechanism and the stay cord in distraction procedure and to relax tensioning problem;
6, this design scheme efficiently solves the intelligentized control method problem of speed Real-Time Monitoring in the elevating mechanism of sky parking (storehouse) and elevator and data extract real-time;
7, this design scheme efficiently solves the speed effective damping problem that there will be excessive velocities in the elevating mechanism of sky parking (storehouse) and elevator in rising and decline process;
8, this design scheme efficiently solve the at the uniform velocity problem of sky parking (storehouse) in elevating mechanism and calculate each the control problem of access real-time effective time of a floor parking stall, place of stopping.
Accompanying drawing explanation
Fig. 1 is the utility model overall structure schematic diagram.
Number in the figure is: 1, integrated intelligent elevating mechanism carrying platform; 2, combined type lifting mechanism control cabinet; 3, combined type descending mechanism control cabinet; 4, the up floor monitor control mechanism of carrying platform; 5, carrying platform down-floor monitor control mechanism; 6, carrier mechanism control centre; 7, carrying platform upward signal receiving system; 8, carrying platform downstream signal reception device; 9, hollow positioning and guiding slide rail; 10, upper and lower hauling block group; 11, longitudinal balance positioning supports pulley; 12, lateral balance positioning supports pulley; 13, leftly fixed pulley group is risen; 14, leftly running block is risen; 15, leftly directive wheel is risen; 16, raising speed monitoring wheel; 17, rightly fixed pulley group is risen; 18, rightly running block is risen; 19, rightly directive wheel is risen; 20, raising speed damping wheel; 21, rising tractor; 22, fixed pulley group falls in a left side; 23, running block falls in a left side; 24, directive wheel falls in a left side; 25, reduction of speed monitoring wheel; 26, fixed pulley group falls in the right side; 27, running block falls in the right side; 28, directive wheel falls in the right side; 29, reduction of speed damping wheel; 30, decline tractor; 31, up floor identification light; 32, up primary speed-down lamp; 33, up double reduction lamp; 34, up positioning lamp; 35, down-floor identification light; 36, descending primary speed-down lamp; 37, descending double reduction lamp; 38, descending positioning lamp; 39, carrier mechanism computerized control system; 40, carrier mechanism manual control system.
Detailed description of the invention
In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.
In description of the present utility model, it will be appreciated that, term " longitudinal direction ", " transverse direction ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", orientation or the position relationship of the instruction such as " outward " are based on orientation shown in the drawings or position relationship, it is only the utility model for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.
Known with reference to Fig. 1, a kind of parking systems and the intelligent elevated toter of floor and mechanism, comprise integrated intelligent elevating mechanism carrying platform 1, combined type lifting mechanism control cabinet 2, combined type descending mechanism control cabinet 3, the up floor monitor control mechanism 4 of carrying platform, carrying platform down-floor monitor control mechanism 5 and carrier mechanism control centre 6.The left and right end face of described integrated intelligent elevating mechanism carrying platform 1 is respectively provided with carrying platform upward signal receiving system 7 and carrying platform downstream signal reception device 8, four angular length faces of integrated intelligent elevating mechanism carrying platform 1 are provided with four hollow positioning and guiding slide rails 9, upper and lower hauling block group 10 is provided with in hollow positioning and guiding slide rail 9, longitudinal balance positioning supports pulley 11, and lateral balance positioning supports pulley 12.
On above-described embodiment preferably, from left to right be disposed with in described combined type lifting mechanism control cabinet 2 and leftly rise fixed pulley group 13, leftly rise running block 14, leftly rise directive wheel 15, raising speed monitoring wheel 16, rightly rise fixed pulley group 17, rightly rise running block 18, rightly rise directive wheel 19, raising speed damping wheel 20, rising tractor 21.
On above-described embodiment preferably, from left to right be disposed with a left side in described combined type descending mechanism control cabinet 3 and fall fixed pulley group 22, running block 23 falls in a left side, directive wheel 24 falls in a left side, reduction of speed monitoring wheel 25, and fixed pulley group 26 falls in the right side, running block 27 falls in the right side, directive wheel 28 falls in the right side, reduction of speed damping wheel 29, decline tractor 30.
On above-described embodiment preferably, described carrying platform up floor monitor control mechanism 4 is disposed with up floor identification light 31 from top to bottom, up primary speed-down lamp 32, up double reduction lamp 33, up positioning lamp 34.
On above-described embodiment preferably, described carrying platform down-floor monitor control mechanism 5 is disposed with down-floor identification light 35 from top to bottom, descending primary speed-down lamp 36, descending double reduction lamp 37, descending positioning lamp 38.
On above-described embodiment preferably, described carrier mechanism control centre 6 is provided with carrier mechanism computerized control system 39 and carrier mechanism manual control system 40.
Based on above-mentioned, this design scheme efficiently solves the up and down balance system safety protection problem of vehicle in parking period of sky parking (storehouse); This design scheme efficiently solve stop in whole lifting process up and down or the horizontal equilibrium problem of left and right; This design scheme efficiently solve stop in whole lifting process face jump and the safety protection problem of bust; This design scheme efficiently solves the speed limit current limliting problem of all vehicles in parking period of sky parking (storehouse); This design scheme efficiently solves the laborsaving traction problems of sky parking (storehouse) in elevating mechanism and the stay cord in distraction procedure and to relax tensioning problem; This design scheme efficiently solves the intelligentized control method problem of speed Real-Time Monitoring in the elevating mechanism in sky parking (storehouse) and data extract real-time; This design scheme efficiently solves the speed effective damping problem that there will be excessive velocities in the elevating mechanism of sky parking (storehouse) and elevator in rising and decline process; This design scheme efficiently solve the at the uniform velocity problem of sky parking (storehouse) in elevating mechanism and calculate each the control problem of access real-time effective time of a floor parking stall, place of stopping; The efficient security control measure of a genuine sky parking (storehouse) and the up and down balance system traction control mechanism of elevator in elevating mechanism; It is an optimum speed control technology design scheme breaking the traction of elevator routine.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.