CN211169413U - Double-deck energy-conserving elevator - Google Patents

Abstract

The utility model relates to an elevator, especially a double-deck energy-conserving elevator. The utility model discloses mainly by guide rail, axle box, traction sheave, towline, hauler, electric box, to heavy component characterized by: every bridge box is the setting on the guide rail of same elevartor shaft one on the other and is connected through the driving sheave at towline and bridge box space top, the driving sheave is driven work by the hauler, two bridge boxes are the stack connection one on the other in same derrick, on, be equipped with the stair passageway between two bridge boxes down, the elevartor shaft respectively expands again in top and bottom on original floor basis and prolongs one deck space, or bridge box more than two is connected through the chain rope between every bridge box about in same derrick, all be equipped with the electric box that steerable elevator was berthhed in every bridge box, take the time that this elevator can save the waiting greatly, the availability factor of elevator improves greatly, energy-conserving effect is obvious.

Description

Double-deck energy-conserving elevator

Technical Field

The utility model relates to an elevator, especially a double-deck energy-conserving elevator.

Background

The heights of the existing high buildings and houses are very high, most of the existing high buildings and houses are three or forty floors, and some of the existing high buildings and houses reach seven or eighty floors, so that a plurality of elevators are installed in all the buildings, each elevator needs to spend a long time for going up and down once, the power consumption of the elevators is very high, in order to save the power consumption, a part of elevators can be stopped by a plurality of owners in the valley time period, so that the residents need to wait for a plurality of times, and the use rate of the elevators is improved, and the owners adopt a single-floor stopping mode to evacuate people flow; for elevators which do not adopt a single-deck or double-deck stop mode, because each floor needs to stop, the running time is long, and frequent starting greatly increases the consumption of the total electric energy (the electric energy consumed during the starting of the elevators is the largest), the running of the elevators is time-consuming and electricity-consuming.

Disclosure of Invention

The utility model aims at providing a double-layer energy-saving elevator, which superposes and combines more than two elevators to operate, and can simultaneously drive more than two axle boxes to operate by only using one traction machine, thereby achieving the effect of saving electric energy; after adopting this structure, once operation can reach the requirement that a plurality of axle boxes number was taken, once berthhed simultaneously and can satisfy the demand of taking of a plurality of floor personnel, the increase of taking the number and the reduction of berthing the number of times will improve the operating efficiency of elevator greatly to reach fine energy-conserving effect.

The utility model discloses a realize with following mode:

the utility model discloses mainly by guide rail, axle box, traction sheave, towline, hauler, electric box, to heavy component characterized by: every bridge box is the setting on the guide rail of same elevartor shaft one on the other and is connected through the driving sheave of towline and bridge box space top, the driving sheave is driven by the hauler and is worked, two bridge boxes are the stack connection one on the other in same derrick, be equipped with the stair passageway between two bridge boxes on the upper and lower, the elevartor shaft respectively expands again at top and bottom on original floor space basis and prolongs one deck space, perhaps more than two bridge boxes are connected through the chain rope between every bridge box about in same derrick, all be equipped with the electric box that steerable elevator stopped in every bridge box.

Compared with the prior art, the utility model apparent characteristics that have:

1. the energy-saving effect is obvious, and the operating efficiency is improved by more than one time.

Drawings

FIG. 1 is a structural diagram of a first embodiment of the present invention

FIG. 2 is a structural diagram of a second embodiment of the present invention

Detailed description of the preferred embodiment (this embodiment is but one example of many possible embodiments, and is not intended to be exhaustive or to limit the claims)

The utility model discloses a concrete embodiment is as shown in figure 1, and this embodiment is fit for the floor not very high house, business building, hospital, the utility model discloses mainly by guide rail 1, axle box 2, traction sheave 3, towline 4, hauler 5, electric box 6, to constituting characterized by to heavy 7: every bridge box 2 is the setting on guide rail 1 of same elevartor shaft and is connected with the driving sheave 3 at 2 space tops of bridge box through towline 4 one on one, driving sheave 3 is driven by hauler 5 and is worked, two bridge boxes are the stack connection one on one in same derrick, be equipped with 8 passageways of stair between two upper and lower bridge boxes 2, the elevartor shaft respectively expands one deck space again at top and bottom on original floor space basis, perhaps bridge box 2 more than two is connected through chain 9 between every bridge box about in same derrick, all be equipped with the electric box 6 that steerable elevator stopped in every bridge box 2.

In the embodiment, two bridge boxes 2 are overlapped and connected one above the other in the same derrick, the distance of one floor is different between the upper and the lower bridge boxes, the elevator shaft respectively extends a layer of space at the top and the bottom on the basis of the original floor, the lower bridge box directly enters and exits from one floor, the upper bridge box layer descends one floor after the lower bridge box layer is closed (because the lower part is provided with one elevator space, the second bridge box layer also can descend one floor), the upper bridge box layer can also walk first through an external stair, the lower bridge box layer only stops at a single floor when the elevator is normally operated, the upper bridge box naturally stops at a double floor, if a few disabled users or other special users need to take the elevator, in order to meet the requirement of convenience in traveling of the part of people, manual operation can be arranged or a special card swiping device is arranged for the special people (the manual operation is not mentioned here), the special card swiping device is only used when a double-floor resident needs to stop at a single floor or a single-floor resident needs to stop at a double floor, the single-floor entrance to stop at the single floor and the double-floor entrance to stop at the double floor are normal running states, card swiping is not needed, the single-floor entrance to the elevator needs to stop at the double floor or the double-floor entrance to the elevator needs to stop at the single floor, and the people can stop at any floor only by swiping the card after entering the elevator. This kind of mode is fit for the not very high house of floor and is the place that the passenger flow is great, and two adjacent bridge boxes from top to bottom can satisfy the trip needs that two-layer floor took personnel from top to bottom simultaneously when once berthing, and the people in the position bridge box can take to the top floor equally below in order to satisfy, so upwards expand an elevator spatial position again at the top of elevartor shaft, and the bridge box above guaranteeing when the bridge box below berths at the top floor also can have a parking space like this, the utility model discloses half elevator berth time can be reduced, the time of waiting has significantly reduced, has reduced half elevator and has started, has also practiced thrift a lot of electric energy simultaneously.

The second concrete embodiment of the utility model is shown in fig. 2 in detail, this embodiment is designed for the special high-rise business building and the hospital and business building with a large number of floors, it adopts the mode that more than two bridge boxes 2 are connected through the chain rope 9 between the upper and lower of each bridge box 2 in the same derrick, now, three bridge boxes are arranged at equal intervals, one bridge box 2 is respectively arranged on the 1 st floor, the 20 th floor and the 39 th floor, the tractor only drives the bridge box on the 39 th floor, the other two bridge boxes are hung in series on the lower 20 th floor and the 1 st floor through the chain rope 9, thus, the three bridge boxes 2 at intervals up and down are connected through the chain rope 9, for example, for the business building with 58 floors, if the transportation volume of a common elevator is calculated, taking the limited quantity of 30 people for one time, every two floors can only stop once, every 20 seconds of operation, one person comes in and goes out every time, 30 people are taken up and down (30 people are taken up, the downstream is not counted), the time required for upstream is 30 times multiplied by 20 seconds and is equal to 600 seconds, if 300 guests exist, 10 times are required, and the total upstream time is 6000 seconds; the same situation is different after the use of the present invention, the first time of taking 30 people to 20 floors, the ascending time needs 10 times 20 seconds to be equal to 200 seconds, so that some people above 20 floors wait for the elevator on the upper floor in situ after going out of the elevator on 20 floors, the second time after the elevator returns (the elevator on the upper floor returns to 20 floors) is 30 people (the people on the upper floor and the like enter the elevator on the upper floor at the same time), the ascending 20 floors are 200 seconds (simultaneously the people in the elevator on the upper floor also reach 39 floors at the same time, and the people on the elevator on the upper floor continue waiting for the elevator on site after going out of the elevator), the elevator returns again (the elevator on the upper floor returns to 20 floors and the uppermost elevator returns to 39 floors), the third time is 30 people, the ascending 20 floors also is 200 seconds, the second elevator takes the people on 20 floors to 39 floors in the ascending process, and the uppermost elevator takes people at the floor 39 to the floor 58, the elevator needs to run for 300 guests 12 times, the total time consumption is 12 times and 200 seconds is equal to 2400 seconds, half less than 6000 seconds, the same elevator occupies the same space, but the efficiency is improved by one time. Although one tractor needs to drag 3 axle boxes, the power of the motor is increased, the working time is shortened, the whole tractor is energy-saving, the efficiency is greatly improved, and the tractor is particularly suitable for high floors.

For hospitals and business buildings with a few floors but a lot of floors, the passengers basically stop at every floor, and all floors are available, so that the time for waiting for the elevator can be saved by using the embodiment, and the utilization rate of the elevator can be greatly improved.

The utility model discloses convenient, simple, economy, practicality, efficiency is high very much.

The scope of the claims of the present invention is not limited to the above-mentioned embodiments, and other embodiments not described in the specification but having the same technical features as those of the claims are also fully encompassed by the scope of the claims.

Claims (1)

1. The utility model provides a double-deck energy-conserving elevator, mainly by guide rail (1), axle case (2), traction sheave (3), towline (4), hauler (5), electric box (6), to heavy (7) constitution, characterized by: every bridge box (2) are set up on guide rail (1) of same elevartor shaft one on top one and are connected through haulage rope (4) with traction sheave (3) at bridge box (2) space top, traction sheave (3) are driven work by hauler (5), two bridge boxes (2) are stack connection one on top one in same derrick, be equipped with stair (8) passageway between two upper and lower bridge boxes (2), the elevartor shaft is respectively at the top and bottom on the basis of original floor and expand a layer of space again, or more than two bridge boxes (2) are connected through chain rope (9) between every bridge box (2) are from top to bottom in same derrick, all be equipped with electric box (6) that steerable elevator stopped in every bridge box (2).

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