CN104129696A - Efficient energy-saving elevator and application thereof - Google Patents

Efficient energy-saving elevator and application thereof Download PDF

Info

Publication number
CN104129696A
CN104129696A CN201410382966.6A CN201410382966A CN104129696A CN 104129696 A CN104129696 A CN 104129696A CN 201410382966 A CN201410382966 A CN 201410382966A CN 104129696 A CN104129696 A CN 104129696A
Authority
CN
China
Prior art keywords
cab
wheel
sprocket
energy
elevator
Prior art date
Application number
CN201410382966.6A
Other languages
Chinese (zh)
Inventor
李丹
李先登
黄晓儒
陈艳红
黄能览
Original Assignee
李丹
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by 李丹 filed Critical 李丹
Priority to CN201410382966.6A priority Critical patent/CN104129696A/en
Publication of CN104129696A publication Critical patent/CN104129696A/en

Links

Abstract

The invention relates to an efficient energy-saving elevator and the application thereof and belongs to the technical field of elevators. According to the technical scheme, a traditional single-car elevator which works by running straightly up and down in a vertical line segment between floors is changed into the multi-car elevator which works by running in a circulating mode on a plane closed-loop combination line formed by combination of two vertical line segments and two arc lines between floors, conveying capacity is large, working efficiency is high, energy is saved, and the idea of low carbon and environment protection is achieved.

Description

Energy-efficient elevator and application thereof
Technical field
The present invention relates to elevator, specifically a kind of energy-efficient elevator and application thereof.
Background technology
Elevator is one of instrument of carrying out in high-rise building thing height direction transportation burden, in city crowd's life, occupy critical role, along with the significantly increase of modern city population, building woods group, number of floor levels and building bottom-to-top-height increase and become a kind of development tendency and trend.
The growth of the building number of plies, bottom-to-top-height is for elevator, be exactly that as ready task amount increases, transportation range increases, intermittence pause increased frequency in corresponding transport and transport come and go the growth of total time, particularly in some many public places of the masses, as hospital, integrated service office block etc., the problems such as the transportation mode that traditional single cab comes and goes operation type elevator has manifested its transport power deficiency, usefulness is low, wait time is long, are difficult to meet people's work and living needs.
Elevator belongs to special equipment, from the traveling comfort of hommization, the aspects such as safety are considered, elevator work running velocity is subject to strict regulations and restriction, like this, according to distance and time formula: T (second)=S (rice)/V (meter per second), along with the increase of number of floor levels and bottom-to-top-height, traditional elevator transport just appears suddenly out because used time increase causes the problem that usefulness declines further, for addressing these problems, current way, can only adopt elevator platform portion numeral summation, quantitatively solve from the erecting bed portion that increases elevator, but the increase that too much elevator arrangement of platform portion has been brought again cost of investment, take floor area resource many, elevator average utilization reduces, the problems such as power consumption is larger.
Summary of the invention
For resolving the problems referred to above, the invention provides a kind of energy-efficient elevator.
Energy-efficient elevator of the present invention, comprise cab, the intersegmental constraint tracks of the high vertical curve in building, it is compared with prior art elevator, innovation is: multiple cabs are serially connected on the constraint tracks of two vertical line segments between building height and closed loop assemble line that two camber lines are combined into, realize circular flow work.
Particularly, energy-efficient elevator of the present invention, it is compared with prior art elevator, innovation is: comprise two groups of by upper lower sprocket and its interlock that chain cable combination rope forms vertical and the plane being parallel to each other, within two planes, be two groups of identical vertical parallel constraint tracks planes, in each constraint tracks plane, there are four vertical equal in length and constraint tracks that termination is concordant, correspond respectively to four constraint tracks in another constraint tracks plane, form four vertical and parallel constraint cab planes, two chain wheel set planes and four constraint tracks planes form one " two is perpendicular ", and there is " order " word in space with the termination of " four horizontal strokes ", two sprocket wheel planes and the two vertically cab load-bearing axis plane of operation form " mouth " word,
Each cab in multiple cabs is connected and is suspended on a load-bearing axle by tightening up of load-bearing axle device for fastening between case cable, load-bearing axle is fixedly connected on by two cover locking junction button devices on two chain cable combination ropes of the same side of two chain wheel set, and can with these two chain cable combination ropes be synchronized with the movement and mobile; Multiple cabs are serially connected with respectively on closed whole piece chain cable combination rope;
The vertex of the upper sprocket wheel of chain wheel set is positioned on constraint tracks, and the nadir of lower sprocket is positioned under the bottom of constraint tracks, and the nadir of lower sprocket distance is overhead greater than the bottom-to-top-height of cab and accessory device thereof;
Elevator control gear connects motivation transfer motion part and each floor controller, and motivation transfer motion part connects two upper sprocket wheels and/or two lower sprockets of two chain wheel set.
The concrete mode that every cab in described many cabs is connected with load-bearing axle is: a load-bearing axle crosses bearing and the bearing seat ear on gravity line of centers both sides, cab casing top, and by axial limiting.Bearing can make cab do to rotate more flexibly with respect to load-bearing axle, and can realize more securely axial limiting.The load-bearing axle of multiple cabs is along a vertical operation of planar closed zygonema.
Described load-bearing axle is specially with the connection mode of two chain cable combination ropes of the same side of two chain wheel set: load-bearing axle crosses cab and stretches out the two ends of two bearing seat ear outsides and be fixedly connected with two chain cable combination ropes of the same side of two chain wheel set by two cover locking junction button devices.
For linear running (upper and lower) and arc-operation (in the time that load-bearing axle is walked around lower sprocket with chain cable combination rope) are connected better with steadily excessive, four sprocket wheel sizes of two chain wheel set in the present invention are identical, and diameter all equals 1/2 of two interior constraint tracks spacing and two outer constraint tracks spacing sums.
As embodiment, in chain wheel set, the bottom-to-top-height that the vertical distance at the core wheel of upper sprocket wheel and the top of constraint tracks equals cab and accessory device thereof adds 20cm, the core wheel of lower sprocket and the distance on ground equal 1/4 of two interior constraint tracks spacing and two outer constraint tracks spacing sums and add that the bottom-to-top-height of cab and accessory device thereof adds 20cm again, and the bottom of constraint tracks is concordant with the core wheel height of lower sprocket.
Motivation transfer motion part arrives sprocket wheel by a series of devices by power transmission, drives elevator running.Motivation transfer motion part can be taked various ways.As one embodiment of the present invention, the change speed pinion interlock gear big gear wheel of the power transmission-gear box of motivation transfer motion part, gear big gear wheel be positioned at two chain wheel set outside two gear miniature gearss of side be coaxially connected, two gear miniature gearss are distinguished interlock and transmission gear, and two transmission gears are distinguished coaxial connection with upper sprocket wheel or the lower sprocket of two chain wheel set.
During energy-efficient lift boy of the present invention does, elevator control gear is the instruction control motivation transfer motion part of passing to by people, finally make two groups of sprocket wheels rotate simultaneously or stop, two groups of sprocket wheels drive two chain cable combination ropes simultaneously towards a direction operation, the load-bearing axle that is fixedly connected on these two chain cable combination ropes moves with chain cable combination rope, make linear running up or down in constraint tracks interval, on the top of constraint tracks or bottom walk around the arc-operation of lower sprocket.And cab is suspended on the below of load-bearing axle all the time, along with load-bearing axle moves together.When arriving top with a cab from bottom to top along one side constraint tracks, finishes after linear running on a load-bearing axle, load-bearing axle is along with chain cable combination rope starts two cochain crop rotation movements in a curve around axle two ends, now cab due to the relatively rotating of load-bearing axle, keep being hung vertically in load-bearing axle below always, and do identical movement in a curve with load-bearing axle.When load-bearing axle is walked around after upper sprocket wheel, finish movement in a curve and be about to start carry out linear running from top to bottom along another side constraint tracks.Because two upper sprocket wheels belong to two different chain wheel set, symmetry is independently separated, empty spacious empty between two upper sprocket wheels, so being camber line swimmingly, cab moves in another side constraint tracks, in descending line segment entrance, then enter the interior beginning of constraint tracks downward operation in the high line segment in another side building of rectilinear direction, until constraint tracks bottom.When load-bearing axle finishes after linear running, load-bearing axle starts to do movement in a curve around two lower sprockets at axle two ends, and cab keeps being hung vertically in load-bearing axle below equally always and does identical movement in a curve with load-bearing axle.Because two lower sprockets belong to two different chain wheel set, symmetry is independently separated, empty spacious empty between two lower sprockets, and leave enough height apart from ground, move in the constraint tracks of original one side so cab is camber line swimmingly, enter the entrance of up constraint tracks, then enter up constraint tracks completely, vertically straight line safety is up, completes the operation work on the high up line segment in whole building.Then cab is repeatedly carried out circulation second round again again, running orbit in the whole cycle presents the closed loop tracks of " the high linear portion in move+building of camber line, high linear portion decline+bottom, move+building of camber line, high linear portion rising+top, building rises ", so goes round and begins again.
Energy-efficient elevator of the present invention is due on multiple cabs are serially connected with equally spacedly closed whole piece chain cable combination rope, so elevator both sides have almost reciprocity cab symmetrical all the time, when every empty cab is equal in weight, act on the almost equal and balance of the power of two upper sprocket wheels left and right of elevator both sides chain cable combination rope as the cab total weight of bearing carrier, obviously, this elevator power motor work in service institute work, the just weight of closing to required shipper and thing, be the right and left people and the thing part of total weight after subtracting each other separately, elevator institute work is likely the whole of carrier and thing total weight or a little portion wherein, or even approach zero, or the useful work of still less a part of weight of negative.Prior art relatively, energy-saving effect is huge!
For energy-conservation better, make elevator both sides have all the time the cab of complete equity symmetrical, in the present invention, the quantity of multiple cabs is N=2k, k is natural number.Choosing of k value is to consider and determine by multiple factors such as elevator working space situation, floor quantity, bottom-to-top-heights.
In multiple cabs, form the symmetrical group of k cab, every two cabs are a symmetrical group cab, between two casees of symmetrical group cab total line length apart from the high vertical curve segment length in Shi Yitiao building and a semi arch line length and value, K symmetrical organizes on cab is serially connected with outside two closed loop chain cable combination ropes.Like this, the position arrangement of multiple cabs just can be by pairs, equidistantly, symmetrical three principles consider, also referred to as virtual " diameter " two end points principles, be about to the virtual circle that is transformed to a girth such as grade of " high linear portion decline+bottom, move+building of camber line, high linear portion rising+top, building camber line moves " closed loop line, if arrange a cab at the A of circumference point, must arrange another cab in another circumference B diameter dot of crossing circumference A diameter dot, obviously, A, 2 of B meet in pairs, left and right each line total appearance etc. and 2 position symmetric condition, do like this, can ensure all the time the multiple cabs outer two sides of upper and lower sprocket wheel axial line cab quantity equity that is in operation, gravitational vector and be zero.
The scheme of so multiple cabs of employing even number, its transport power significantly improves, and is traditional many times.
One embodiment of the present of invention show, one side pass in and out unidirectional upstairs, the unidirectional elevator of type downstairs of another side turnover, have 6 cab configurations, in the work of its operation in next week on completing, there are 6 cabs to complete respectively up operation from ground floor to attic, had 6 cabs to complete respectively the descending operation work from attic to ground floor again, and traditional elevator up and down reciprocatingly in, only have a cab to complete up and down each operation work once, obviously, the transport power maximum of this 6 chamber elevators can reach 6 times of traditional elevator.
Elevator running orbit of the present invention is closed loop line, compared with the line segment of one of traditional elevator turnover driving surface rises and repels and decline, decline and repel and rise, it has two driving surfaces, and one side rises while transport, the another side transport that equally also can decline, its efficiency significantly improves especially.
The present invention also provides the application of above-mentioned energy-efficient elevator.
In numerous application modes, following mode is typical:
1), one side is unidirectional upstairs, another side is unidirectional downstairs;
2), two cab, two face open, way traffic;
3), four cabs, two face open, way traffic;
4), the combination of two elevators, one unidirectional upstairs, another portion is unidirectional downstairs;
5), the combination of two elevators, every portion is that one side is unidirectional upstairs, another side is unidirectional downstairs, wherein one is paused at odd number floor, another portion pauses at even number floor.
Brief description of the drawings
Fig. 1 is the structural representation of the energy-efficient elevator of a kind of six cab of the present invention.
Fig. 2 is the left view of Fig. 1.
Fig. 3 is cab connection diagram.
Fig. 4 is the left view of Fig. 3.
Fig. 5 is a kind of application mode schematic diagram of the energy-efficient elevator of the present invention.
Fig. 6 is the second application mode schematic diagram of the energy-efficient elevator of the present invention.
Fig. 7 is the third application mode schematic diagram of the energy-efficient elevator of the present invention.
Fig. 8 is the 4th kind of application mode schematic diagram of the energy-efficient elevator of the present invention.
Fig. 9 is the 5th kind of application mode schematic diagram of the energy-efficient elevator of the present invention.
Figure 10 is the schematic diagram that motivation transfer motion part connects two upper sprocket wheels of two chain wheel set.
Figure 11 is the schematic diagram that motivation transfer motion part connects two lower sprockets of two chain wheel set.
Detailed description of the invention
Embodiment 1
See Fig. 1 ~ Fig. 4.
In Fig. 1, have six cabs 1, be serially connected in equally spacedly on closed whole piece chain cable combination rope 5, closed whole piece chain cable combination rope 5 forms chain wheel set plane with two sprocket wheels 2 up and down of chain wheel set.This chain wheel set plane is vertical with the constraint tracks plane that in Fig. 2 two constraint tracks 3 in groups form.
Each cab 1 in multiple cabs is connected and is suspended on a load-bearing axle 12(and specifically sees Fig. 3 by tightening up of load-bearing axle device for fastening 4 between case cable) on, load-bearing axle 12 is fixedly connected on the same side of two chain wheel set two chain cable combination rope 5(by two cover locking junction button devices 13 are shown in Fig. 3) upper, and can with these two chain cable combination ropes 5 be synchronized with the movement and mobile.
Four sprocket wheels, 2 sizes of two chain wheel set are identical, and diameter all equals 1/2 of two interior constraint tracks spacing and two outer constraint tracks spacing sums.
In chain wheel set, the bottom-to-top-height that the vertical distance at the top of the core wheel of upper sprocket wheel 2 and constraint tracks 3 equals cab 1 and accessory device thereof adds 20cm, the core wheel of lower sprocket and the distance on ground equal 1/4 of two interior constraint tracks spacing and two outer constraint tracks spacing sums and add that the bottom-to-top-height of cab and accessory device thereof adds 20cm again, and the bottom of constraint tracks is concordant with the core wheel height of lower sprocket.
See Fig. 1,2,10.The change speed pinion 16 interlock gear big gear wheels 8 of the power transmission-gear box 7 of motivation transfer motion part, gear big gear wheel 8 be positioned at two chain wheel set outside two gear miniature gearss 17 of side be coaxially connected, two gear miniature gearss 17 respectively interlocks two transmission gears 6 of side outside 6, two chain wheel set of transmission gear and are distinguished coaxial connections with the upper sprocket wheel 2 of two chain wheel set separately.Control setup 9 connects motivation transfer motion part and each floor controller.
See Fig. 3.Each cab 1 in multiple cabs is suspended on a load-bearing axle 12, and the two ends of load-bearing axle 12 are fixedly connected with two chain cable combination ropes 5 of the same side of two chain wheel set by two cover locking junction button devices 13.These two chain cable combination ropes 5 belong to two chain wheel set.The bearing 15(that cab 1 gravity line of centers both sides, casing top are crossed at the two ends of load-bearing axle 12 is shown in Fig. 4) and bearing seat ear 14, and by axial limiting.
See Fig. 4.Bearing 15 be placed in and bearing seat ear 14 in.
Escalator lower and upper cross-member 10 and escalator left and right pillar 11 are to its supporting role of whole elevator.
In conjunction with Fig. 1,2 and Figure 10.The powerdriven process of elevator is, after control setup 9 starts, the change speed pinion 16 of power transmission-gear box 7 drives gear big gear wheel 8 to rotate, simultaneously, gear big gear wheel 8 is rotated with two coaxial with it gear miniature gearss 17, two gear miniature gearss 17 drive respectively two transmission gears 6 on both sides also synchronously to rotate, two transmission gears 6 drive respectively two upper sprocket wheels 2 of two chain wheel set synchronously to rotate, these two upper sprocket wheels 2 drive two chain cable combination ropes 5 to implement to be synchronized with the movement again, the final cab 1 hanging on these two chain cable combination ropes 5 that drives is moved.
Powerdriven another kind of form is shown in Figure 11.The connection for transmission situation of motivation transfer motion part and lower sprocket and the connection for transmission situation of motivation transfer motion part and lower sprocket are different.The change speed pinion 16 interlock gear big gear wheels 8 of the power transmission-gear box 7 of motivation transfer motion part, gear big gear wheel 8 be positioned at a chain wheel set of a side outside a gear miniature gears 17 of side be coaxially connected, a transmission gear 6 in these gear miniature gears 17 interlocks, and transmission gear 6 is coaxially connected with two lower sprockets 2 of two chain wheel set.Control setup 9 connects motivation transfer motion part and each floor controller.
Embodiment 2
See Fig. 5.
Elevator belong to one side pass in and out unidirectional upstairs, the unidirectional multiple chamber elevators of going downstairs of another side turnover.
Shown in figure, there are 6 cabs 1, in the work of its operation in next week on completing, there are 6 cabs to complete respectively up operation from ground floor to attic, had 6 cabs to complete respectively the descending operation work from attic to ground floor again, and traditional elevator up and down reciprocatingly in, only have a cab to complete up and down each operation work once, obviously, the transport power maximum of this 6 chamber elevators can reach 6 times of traditional elevator.
This elevator, occupies little space, and transport power is large, saves the energy, in the many hospitals of some masses, office sex service building, spill the place such as shop and school greatly and use, will be very suitable.
Embodiment 3
See Fig. 6.
Belong to the combination of two elevators, one unidirectional upstairs, the elevator of another not unidirectional conjugation combination of going downstairs.
The same as discussed above, in like manner, they also have the function that capacity is high, efficiency is high, energy-conservation, just no longer one have chatted for one here, the numerous floor of its energy-efficient except having, suitable crowd, to certain period peak value upstairs or the place of going downstairs more produce effect.
Embodiment 4
See Fig. 7.
Belong to the combination of two elevator conjugation, every portion is that one side is unidirectional upstairs, another side is unidirectional downstairs, and wherein one is paused at odd number floor, and another portion pauses at even number floor.
Adopt the sub-elevator in one, the left side to bear at N 1=2k+1 (k=0,1,2 ..., n) transport of floor gap, the sub-elevator in one, the right are born at N 2=2k (k=1,2 ... n,) transport of floor gap, this conjugation is used in combination, if and handrail elevator between additional one one again, second floor is used in combination, because two elevators floor of working has separately been become every two floors and paused once by one deck, its multi-transportation usefulness and transport power have had again and have increased and raising.
Embodiment 5
See Fig. 8.
Belong to the way traffic service lift that wait for two cab two face opens two places, suitablely in high-rise residential building, use, it except transport power is high, work efficiency is high, energy-conservation, in use, more flexible.
Embodiment 6
See Fig. 9.
Belong to four cabs and be evenly arranged two face open, two service lift of waiting for that turnover is upper and lower, it is suitable uses in high-rise residential building, with above-mentioned accompanying drawing four relatively, usefulness is higher!
The application of similar above-mentioned example is multiple in addition, enumerates no longer one by one here.Obviously, the operational version option of the energy-efficient elevator of this many cabs can have more kinds of, more flexible, can expand out more Suresh Kumar, very obvious in aspect advantages such as enhancing efficiencies by the use arrangement of function, and it will bring more convenience to people's life.

Claims (10)

1. energy-efficient elevator, comprises cab, the intersegmental constraint tracks of the high vertical curve in building, it is characterized in that: multiple cabs are serially connected on the constraint tracks of two vertical line segments between building height and closed loop assemble line that two camber lines are combined into, realize circular flow work.
2. energy-efficient elevator according to claim 1, it is characterized in that: comprise two groups of by upper lower sprocket and its interlock that chain cable combination rope forms vertical and the plane being parallel to each other, within two planes, be two groups of identical vertical parallel constraint tracks planes, in each constraint tracks plane, there are four vertical equal in length and constraint tracks that termination is concordant, correspond respectively to four constraint tracks in another constraint tracks plane, form four vertical and parallel constraint cab planes, two chain wheel set planes and four constraint tracks planes form one " two is perpendicular ", and there is " order " word in space with the termination of " four horizontal strokes ", two sprocket wheel planes and the two vertically cab load-bearing axis plane of operation form " mouth " word,
Each cab in multiple cabs is connected and is suspended on a load-bearing axle by tightening up of load-bearing axle device for fastening between case cable, load-bearing axle is fixedly connected on by two cover locking junction button devices on two chain cable combination ropes of the same side of two chain wheel set, and can with these two chain cable combination ropes be synchronized with the movement and mobile; Multiple cabs are serially connected with respectively on closed whole piece chain cable combination rope;
The vertex of the upper sprocket wheel of chain wheel set is positioned on constraint tracks, and the nadir of lower sprocket is positioned under the bottom of constraint tracks, and the nadir of lower sprocket distance is overhead greater than the bottom-to-top-height of cab and accessory device thereof;
Elevator control gear connects motivation transfer motion part and each floor controller, and motivation transfer motion part connects two upper sprocket wheels and/or two lower sprockets of two chain wheel set.
3. energy-efficient elevator according to claim 2, it is characterized in that: the concrete mode that every cab in described many cabs is connected with load-bearing axle is: a load-bearing axle crosses bearing and the bearing seat ear on gravity line of centers both sides, cab casing top, and by axial limiting.
4. energy-efficient elevator according to claim 2, is characterized in that: the load-bearing axle of multiple cabs is along a vertical operation of planar closed zygonema.
5. energy-efficient elevator according to claim 2, is characterized in that: described load-bearing axle is specially with the connection mode of two chain cable combination ropes of the same side of two chain wheel set: load-bearing axle crosses cab and stretches out the two ends of two bearing seat ear outsides and be fixedly connected with two chain cable combination ropes of the same side of two chain wheel set by two cover locking junction button devices.
6. energy-efficient elevator according to claim 2, is characterized in that: four sprocket wheel sizes of two chain wheel set are identical, and diameter all equals 1/2 of two interior constraint tracks spacing and two outer constraint tracks spacing sums.
7. energy-efficient elevator according to claim 2, it is characterized in that: in chain wheel set, the bottom-to-top-height that the vertical distance at the core wheel of upper sprocket wheel and the top of constraint tracks equals cab and accessory device thereof adds 20cm, the core wheel of lower sprocket and the distance on ground equal 1/4 of two interior constraint tracks spacing and two outer constraint tracks spacing sums and add that the bottom-to-top-height of cab and accessory device thereof adds 20cm again, and the bottom of constraint tracks is concordant with the core wheel height of lower sprocket.
8. energy-efficient elevator according to claim 2, it is characterized in that: the change speed pinion interlock gear big gear wheel of the power transmission-gear box of motivation transfer motion part, gear big gear wheel be positioned at two chain wheel set outside two gear miniature gearss of side be coaxially connected, two gear miniature gearss are distinguished interlock and transmission gear, and two transmission gears are distinguished coaxial connection with upper sprocket wheel or the lower sprocket of two chain wheel set.
9. energy-efficient elevator according to claim 1 and 2, is characterized in that: the quantity of multiple cabs is N=2k, and k is natural number.
10. the application of the energy-efficient elevator described in claim 1 ~ 9 any one, is characterized in that: comprise following mode:
1), one side is unidirectional upstairs, another side is unidirectional downstairs;
2), two cab, two face open, way traffic;
3), four cabs, two face open, way traffic;
4), the combination of two elevators, one unidirectional upstairs, another portion is unidirectional downstairs;
5), the combination of two elevators, every portion is that one side is unidirectional upstairs, another side is unidirectional downstairs, wherein one is paused at odd number floor, another portion pauses at even number floor.
CN201410382966.6A 2014-08-06 2014-08-06 Efficient energy-saving elevator and application thereof CN104129696A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201410382966.6A CN104129696A (en) 2014-08-06 2014-08-06 Efficient energy-saving elevator and application thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201410382966.6A CN104129696A (en) 2014-08-06 2014-08-06 Efficient energy-saving elevator and application thereof

Publications (1)

Publication Number Publication Date
CN104129696A true CN104129696A (en) 2014-11-05

Family

ID=51802618

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201410382966.6A CN104129696A (en) 2014-08-06 2014-08-06 Efficient energy-saving elevator and application thereof

Country Status (1)

Country Link
CN (1) CN104129696A (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104876098A (en) * 2015-04-24 2015-09-02 李先登 Power transmission method of high-efficiency energy-saving elevator
CN104986645A (en) * 2015-05-12 2015-10-21 李先登 Restraint apparatus for safety, high-efficiency, and energy-saving elevator
CN108894536A (en) * 2018-06-30 2018-11-27 张光裕 Double elevator arrangements of skyscraper
CN110054054A (en) * 2018-07-16 2019-07-26 李佳钰 High efficient and power-saving circulation elevator
CN110803598A (en) * 2019-05-23 2020-02-18 李先登 Efficient energy-saving elevator with even-number elevator cars

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB685263A (en) * 1950-09-23 1952-12-31 Max Moerck Improvements in lifts of the paternoster type
DE930111C (en) * 1951-04-20 1955-07-11 Asea Ab Safety arrangement for paternoster lifts
US3938649A (en) * 1974-11-29 1976-02-17 F. Jos. Lamb Company Workpiece elevator
JPS5134160U (en) * 1974-09-05 1976-03-13
CN201390577Y (en) * 2009-04-10 2010-01-27 西子奥的斯电梯有限公司 Elevator system with shared counterweight

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB685263A (en) * 1950-09-23 1952-12-31 Max Moerck Improvements in lifts of the paternoster type
DE930111C (en) * 1951-04-20 1955-07-11 Asea Ab Safety arrangement for paternoster lifts
JPS5134160U (en) * 1974-09-05 1976-03-13
US3938649A (en) * 1974-11-29 1976-02-17 F. Jos. Lamb Company Workpiece elevator
CN201390577Y (en) * 2009-04-10 2010-01-27 西子奥的斯电梯有限公司 Elevator system with shared counterweight

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104876098A (en) * 2015-04-24 2015-09-02 李先登 Power transmission method of high-efficiency energy-saving elevator
CN104986645A (en) * 2015-05-12 2015-10-21 李先登 Restraint apparatus for safety, high-efficiency, and energy-saving elevator
CN108894536A (en) * 2018-06-30 2018-11-27 张光裕 Double elevator arrangements of skyscraper
CN110054054A (en) * 2018-07-16 2019-07-26 李佳钰 High efficient and power-saving circulation elevator
CN110803598A (en) * 2019-05-23 2020-02-18 李先登 Efficient energy-saving elevator with even-number elevator cars

Similar Documents

Publication Publication Date Title
KR101827835B1 (en) Articulated funiculator
CN103987645B (en) System of vertical and horizontal movement of the transport cabin in an elevator translator plant for the overcoming of obstacles
CN205708586U (en) Mechanical system of serving is allocated, with aerial suspension, automatically by a kind of fast food restaurant
CN201049858Y (en) Water pressure gravity unbalance type energy-saving elevator
CN203602301U (en) Movable cantilever lifting device
CN107381287B (en) A kind of cabin elevator connected and moved horizontally
CN204980742U (en) Single balanced elevator of many cars of chain that revolves
CN204689556U (en) Bay-lift in a kind of harbour construction
CN201808976U (en) One-way movement circular elevator device with independent driver element
CN106430006B (en) Distribution line mobile insulation ascending operation apparatus and method
CN106121257A (en) Component Intelligent transport method and system for assembled architecture
CN104773516A (en) Piler with traction type lifting mechanism
CN203373022U (en) Self-lifting type cableway transportation device
CN203636994U (en) Energy-saving type lifting system based on concrete mixing
CN103130069A (en) Multi-car chain type circulation elevator-stair composite vertical transportation system
CN102913260A (en) Quick duct piece pouring and transporting mechanism for subway shield tunnel construction
CN104276484A (en) Lifting transmission device
CN204980946U (en) Take running gear's tower crane
CN105731287A (en) Simple elevator
CN204454326U (en) A kind of gate-type cargo crane of use for laboratory Small Scale Adjustable
CN201517006U (en) Improved lift device with linked cars
CN203921940U (en) A kind of draw gear
CN102556891A (en) Slide lifter
CN206126699U (en) Multi -functional portable lifting machine
CN206722494U (en) A kind of small-sized efficient side coil up-down cross sliding type multi-storied garage

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
RJ01 Rejection of invention patent application after publication
RJ01 Rejection of invention patent application after publication

Application publication date: 20141105