CN205527227U

CN205527227U - A external rotor gearless machine for elevator

Info

Publication number: CN205527227U
Application number: CN201620087970.4U
Authority: CN
Inventors: 黄立成
Original assignee: Individual
Current assignee: Suzhou Gerowabel Mechanical And Electrical Technology Co Ltd
Priority date: 2016-01-25
Filing date: 2016-01-25
Publication date: 2016-08-31
Anticipated expiration: 2026-01-25

Abstract

The utility model provides an external rotor gearless machine for elevator, it is including lieing in coaxial line and the arrestment mechanism who connects gradually, towing mechanism and actuating mechanism, still including towing the frame, it is supporting tow mechanism and actuating mechanism, simultaneously, arrestment mechanism also install in tow the frame, be equipped with in radially doing in towing the frame tow the bearing that sets up in pairs that the mechanism provided the support, it is equipped with in further and does to tow the frame actuating mechanism provides the driven external rotor asynchronous drive assembly. Utilize the utility model discloses an external rotor does not have gear elevator hauler, and it is applicable to the elevator of using like high -rise building, has great starting torque and stronger overload capacity, can be at a high speed when saving natural resources, high -efficiently just move reliably yet.

Description

Outer rotor gearless machine for elevator

Technical field

The utility model relates to a kind of gearless elevator drag machine for elevator, particularly to one It is applicable to the elevator of skyscraper, there is operation at a high speed and stronger overload capacity, in saving Also the gearless elevator drag machine that can efficiently and reliably run while natural resources.

Background technology

Elevator in the market uses permanent magnetic synchronous traction machine mostly, due to the permanent magnet that it is required Rare earth material consumption is also big, thus causes substantial amounts of energy resource consumption.Therefore, how to make to be applied to rise The traction machine of fall elevator can reach energy-saving run effect and reduce cost, becomes those skilled in the art One of problem demanding prompt solution.Synchro traction machine has the advantages that moment is big, so obtaining at elevator industry Extensively application.But, its rotating speed is relatively low, if improved by its rotating speed, due to from extraneous interference phase To more (include on-the-spot voltage disturbance, suddenly load increases, encoder and motor generation displacement, Magnet steel produces demagnetization etc.), so being very easy to produce magnetic collapse, and then produce sizable potential safety hazard. If selecting asynchronous traction machine, although the not potential safety hazard such as demagnetization, run the most relatively reliable, but because of Low for its power factor and efficiency, do not meet the industrial policy that national energy-saving reduces discharging.Therefore, how to make It is applied to the traction machine of elevator and can reach to save the effect of natural resources, it is also possible at high speed, can Run by ground, also become one of those skilled in the art's problem demanding prompt solution.

Utility model content

The purpose of this utility model is to provide a kind of outer rotor gearless machine for elevator, its It is applicable to the elevator such as skyscraper, there is operation at a high speed and stronger overload capacity, Yu Jie Also can efficiently and reliably run while saving natural resources.

For solving the problems referred to above, the utility model is for the outer rotor gearless machine of elevator, bag Include: be positioned at coaxial line and the arrestment mechanism being sequentially connected with, carrying means and drive mechanism；Also include: Machine bed, which support described carrying means and drive mechanism, and meanwhile, described arrestment mechanism is also It is installed on described machine bed；It is provided with in described machine bed in radially providing support for described carrying means The bearing being arranged in pairs；Described machine bed further in be provided with into described drive mechanism provide drive Outer rotor asynchronous driving assembly.

As a kind of preferred version of the present utility model, described drive mechanism includes threephase asynchronous.

As a kind of preferred version of the present utility model, described outer rotor asynchronous driving assembly includes and institute State machine bed be connected rotor rack, in be located at described rotor rack and coupled realize synchronous rotary turn Sub-iron core and be sheathed on interior stator core assemblies for described rotor rack and rotor, this stator core assemblies with Time be fixedly arranged on described machine bed.

As a kind of preferred version of the present utility model, described rotor core is cast aluminium or cast copper.

As a kind of preferred version of the present utility model, described drive mechanism connects further detection and control Make the encoder of described rotor core running status.

As a kind of preferred version of the present utility model, described arrestment mechanism is folding brake, and it is positioned at The periphery of described carrying means, and include intermeshing handwheel and jiggering gear, wherein, institute State jiggering gear to be connected with described carrying means further.

Of the present utility model have technical effect that, utilize outer rotor asynchronous driving assembly both had at a high speed Run and the advantage such as stronger overload capacity, there is again convenient and reliable excellent of Induction Motor-Driven Point.While realizing high-speed cruising, can avoid occur because of permanent magnet demagnetization lost efficacy cause safe, can By sex chromosome mosaicism, thus improve the security of elevator.

Technique effect of the present utility model lies also in, and has effectively evaded external rotor permanent magnet synchronous machine institute big Amount expends other metal materials needed for nature rare earth material and magnet steel.

Technique effect of the present utility model lies also in, and is meeting steel wire rope and is taking turns the footpath limit not less than 40 times Under system, substantially reduce the wheel footpath of traction sheave, make electric motor starting torque reduce, power reduction.

Technique effect of the present utility model lies also in, it is achieved that the row of each component in reasonable and compact inside Cloth.

Accompanying drawing explanation

With better embodiment, the utility model is described in further detail below in conjunction with the accompanying drawings.

Fig. 1 is the structural representation of the outer rotor gearless machine for elevator of the present utility model Figure.

1 handwheel 2 terminal box 3 rotor rack

4 cast rotor iron core 5 stator core assemblies 6 encoders

7 brake terminal box 8 support 9 brakes

10 traction sheave 11 jiggering gear 12 bearings

Detailed description of the invention

Refer to Fig. 1, the outer rotor for elevator of better embodiment of the present utility model is anodontia Wheel traction machine includes being positioned at coaxial line and the arrestment mechanism being sequentially connected with, carrying means and drive mechanism, also Include and support the support 8 of described carrying means and drive mechanism and arrestment mechanism is also installed on this machine On seat 8.

The preferential threephase asynchronous of drive mechanism.

It is provided with in support 8 in radially providing the bearing 12 being arranged in pairs supported for described carrying means.

It is provided with in support 8 is further and provides, into described drive mechanism, the outer rotor asynchronous driving assembly driven.

Outer rotor asynchronous driving assembly include be connected with support 8 rotor rack 3, in be located at rotor rack 3 And the coupled rotor core realizing synchronous rotary and be sheathed on interior determining for described rotor rack and rotor Sub-core assembly 5, this stator core assemblies 5 is fixedly arranged on support 3 simultaneously.Wherein, rotor core is excellent It it is first cast rotor iron core 4.

Drive mechanism connects further to be had detection and controls the coding of described cast rotor iron core 4 running status Device 9.

Carrying means includes traction sheave 10.

Arrestment mechanism is preferably disk brake 9, and it is positioned at the periphery of traction sheave 10, and includes mutually The handwheel 1 of engagement and jiggering gear 11, jiggering gear 11 is connected with traction sheave 10 further.System Motivation structure also includes brake terminal box 7, its be positioned at traction sheave 10 periphery and with disk brake 9 It is connected.

This outer rotor gearless machine also includes terminal box 2, and it is installed in support 8 top and with whole Individual traction machine forms monolithic construction.

Below preferred embodiment of the present utility model is illustrated, but the utility model is not Being limited to described embodiment, those of ordinary skill in the art are on the premise of the invention spirit Also can make modification or the replacement of all equivalents, modification or the replacement of these equivalents are all contained in the application In claim limited range.

Claims

1., for the outer rotor gearless machine of elevator, include: be positioned at coaxial line and connect successively Arrestment mechanism, carrying means and the drive mechanism connect；Also include: machine bed, which support described Carrying means and drive mechanism, meanwhile, described arrestment mechanism is also installed on described machine bed；Institute It is provided with in stating machine bed in radially providing the bearing being arranged in pairs supported for described carrying means；Described Machine bed further in be provided with into described drive mechanism provide drive outer rotor asynchronous driving assembly.

Outer rotor gearless machine for elevator the most according to claim 1, its feature It is: described drive mechanism includes threephase asynchronous.

Outer rotor gearless machine for elevator the most according to claim 1 and 2, its Be characterised by: described outer rotor asynchronous driving assembly include be connected with described machine bed rotor rack, Inside be located at described rotor rack and the coupled rotor core realizing synchronous rotary and for described rotor rack and Rotor is sheathed on interior stator core assemblies, and this stator core assemblies is fixedly arranged on described machine bed simultaneously.

Outer rotor gearless machine for elevator the most according to claim 3, its feature It is: described rotor core is cast aluminium or cast copper.

Outer rotor gearless machine for elevator the most according to claim 4, its feature It is: described drive mechanism connects further to be had detection and control the coding of described rotor core running status Device.

Outer rotor gearless machine for elevator the most according to claim 1, its feature Being: described arrestment mechanism is folding brake, it is positioned at the periphery of described carrying means, and includes Intermeshing handwheel and jiggering gear, wherein, described jiggering gear further with described traction machine Structure is connected.