CN208666829U - A kind of elevator traction sheave slippage detecting device - Google Patents
A kind of elevator traction sheave slippage detecting device Download PDFInfo
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- CN208666829U CN208666829U CN201821396741.6U CN201821396741U CN208666829U CN 208666829 U CN208666829 U CN 208666829U CN 201821396741 U CN201821396741 U CN 201821396741U CN 208666829 U CN208666829 U CN 208666829U
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- traction sheave
- limiter
- speed
- measuring device
- displacement measuring
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Abstract
The utility model discloses a kind of elevator traction sheave slippage detecting devices, including traction sheave angle displacement measuring device, limiter of speed angle displacement measuring device and signal processing system, the traction sheave angle displacement measuring device and the limiter of speed angle displacement measuring device are electrically connected with the signal processing system, the traction sheave angle displacement measuring device is fixedly connected in elevator framework, and the traction sheave angle displacement measuring device, the limiter of speed angle displacement measuring device and the signal processing system are all set on the iron plate at the top of elevator(lift) machine room.The utility model extrapolates the slippage between traction sheave and wirerope using traction sheave angle displacement measuring device and limiter of speed angle displacement measuring device, belong to non-contact measurement, the shortcomings that direct contact measurement can be overcome, it is easy to implement long-time, round-the-clock automatic detection slippage, determines whether traction sheave fails for science and scientific basis is provided.
Description
Technical field
The utility model relates to elevator detection technique fields, more particularly to a kind of elevator traction sheave slippage detecting device.
Background technique
Elevator traction motor drives traction sheave rotation, and driving wirerope dragging carriage and counterweight perform relative motion,
Carriage is set to execute the vertical lifting task of elevator along guide rail in hoistway.Since the fretting wear between traction sheave and wirerope is led
It causes to generate improper sliding between traction sheave and wirerope.The failure mode of traction sheave be mainly shown as traction sheave and wirerope it
Between sliding it is excessive.If elevator occurs sliding excessive phenomenon between wirerope and traction sheave in operating normally, elevator will affect
Transmission efficiency and safety may result in carriage and fall, and cause serious casualties and loss.And the country that China is existing
Standard and technical specification of security are not mentioned to slip state between elevator traction sheave wear condition, traction sheave and wirerope
Out specific quantitative detecting method and it is mandatory sentence abandoned tender standard, therefore how traction foot wheel abrasion is caused to slide in checkout procedure
The test and judge of science is made, to guarantee in a round of visits, elevator will not be because of the cunning between traction sheave and wirerope
Shifting causes traction capacity to decline and safety accident occurs to be a hang-up, and constitutes in the use cost of current lift product
In, the replacement for involving traction sheave and traction steel-cable is also a no small spending for using unit, with greater need for inspection
Personnel are double cautious to the analysis of corresponding component.How whether science judgment traction sheave fails, and is problem urgently to be resolved,
The quantitative sliding between traction sheave and wirerope is studied, is the effective solution for realizing the failure of science judgment traction sheave.
Rotary encoder is mounted directly the distance carrying out measuring steel wire rope on a steel cord and passing by by existing detection device,
Due to wirerope rough surface, abrasion loss is big, wire rope standard sliding is directly contacted using rotary encoder, when being unfavorable for long
Between, it is round-the-clock for detecting slippage.
Utility model content
The purpose of the utility model is to provide a kind of elevator traction sheave slippage detecting devices, are deposited with solving the above-mentioned prior art
The problem of, by way of measuring indirectly can quantitative detection go out elevator traction sheave slippage size, for science determine traction
Whether wheel, which fails, provides scientific basis.
To achieve the above object, the utility model provides following scheme:
The utility model provides a kind of elevator traction sheave slippage detecting device, including traction sheave angle displacement measuring device,
Limiter of speed angle displacement measuring device and signal processing system, the traction sheave angle displacement measuring device and the limiter of speed angular displacement
Measuring device is electrically connected with the signal processing system, the traction sheave angle displacement measuring device, the limiter of speed angular displacement
Measuring device and the signal processing system are all set on the iron plate at the top of elevator(lift) machine room.
Preferably, the traction sheave angle displacement measuring device includes rotary encoder, electromagnet, electromagnet connection frame and volume
Code device mounting rack, the encoder mounting rack are fixedly connected on traction wheel support, and one end of the rotary encoder is fixed to be connected
It is connected on the encoder mounting rack, the other end of the rotary encoder is connect with the electromagnet connection frame, the electromagnetism
The both ends of iron connection frame are connect with one end of an electromagnet respectively, and the other end of the electromagnet, which can be adsorbed on, to be set to
The surface of traction sheave on the traction wheel support.
Preferably, the rotary encoder includes matrix and rotary test head interconnected, and described matrix is fixedly connected
In on the encoder mounting rack, the rotary test head connects the electromagnet connection frame by shaft coupling.
Preferably, described matrix is set to the center of the encoder mounting rack, and the rotary test head is set to described
The center of electromagnet connection frame, the rotary encoder and the traction sheave are coaxially disposed.
Preferably, the limiter of speed angle displacement measuring device includes that support frame, limiter of speed testing cassete and limiter of speed measurement are surveyed
Head, one end of support frame as described above are fixedly connected on the iron plate at the top of the elevator(lift) machine room, and the limiter of speed testing cassete is fixed to be connected
It is connected to the other end of support frame as described above, the limiter of speed measurement gauge head is connected by a connecting rod and limiter of speed testing cassete rotation
It connects, the limiter of speed measurement gauge head and speed limit device wheel are touched and can be rotated synchronously with speed limit device wheel.
Preferably, the other side of support frame as described above is equipped with a card slot, the limiter of speed testing cassete and the fixed company of the card slot
It connects.
Preferably, the limiter of speed testing cassete is mutually perpendicular to support frame as described above.
Preferably, the signal processing system includes sliding detection controller and computer monitor, the sliding detection control
Device processed is electrically connected with the computer monitor.
Preferably, the traction sheave angle displacement measuring device and the limiter of speed angle displacement measuring device pass through signal wire
It is connect with sliding detection controller.
The utility model achieves following technical effect compared with the existing technology:
1, elevator traction sheave slippage detecting device is to be totally independent of elevator to have system by oneself, does not have shadow to elevator safety operation
It rings, does not generate interference to elevator, this is most important to guarantee elevator safety operation.
2, elevator traction sheave slippage detecting device utilizes traction sheave angle displacement measuring device using non-contact measurement
Go out elevator traction sheave slippage size with limiter of speed angle displacement measuring device energy quantitative detection, detection accuracy is high, determines for science
Whether traction sheave, which fails, provides scientific basis, to solve judge whether traction sheave is excessive with steel wire iope slippage, relies only at present
Subjective judgement, the problem for only making qualitative evaluation.
3, using the angular displacement of traction sheave slippage detecting device detection traction sheave, the distance that wirerope is passed by is obtained indirectly,
It avoids and traction sheave slippage detecting device is directly installed into the abrasion caused by traction sheave slippage detecting device on a steel cord, because
And traction sheave slippage detecting device can be accomplished for a long time, it is daytime measurement, durable.
4, fixed rotary encoder is installed to measure the angular displacement that traction sheave turns over using electromagnet, facilitates peace installation and dismantling
It unloads, it is easy to operate especially suitable for on-site test.
5, the angular displacement of speed limit device wheel is measured by limiter of speed angle displacement measuring device, obtains carriage displacement indirectly, significantly
Reduce the difficulty of directly measurement carriage displacement.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Needed in attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is only the utility model
Some embodiments for those of ordinary skill in the art without creative efforts, can also be according to this
A little attached drawings obtain other attached drawings.
Fig. 1 is the structural schematic diagram of the utility model elevator traction sheave slippage detecting device;
Fig. 2 is the structural schematic diagram of the utility model traction sheave angle displacement measuring device;
Fig. 3 is the structural schematic diagram of the utility model limiter of speed angle displacement measuring device;
Wherein: 1- fastening bolt, 2- traction wheel support, 3- encoder mounting rack, 4- rotary encoder, the connection of 5- electromagnet
Frame, 6- traction sheave, 7- wirerope, 8- computer monitor, 9- sliding detection controller, 10- limiter of speed, the measurement of 11- limiter of speed are surveyed
Head, 12- limiter of speed testing cassete, 13- support frame, 14- electromagnet, 15- shaft coupling, 16- speed limit device wheel, 17- bolt, 18- speed limit
Device wheel bracket, 19- protection board.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are in the premise not made the creative labor
Under every other embodiment obtained, fall within the protection scope of the utility model.
In the description of the utility model it is to be appreciated that term " on ", "lower", " left side " and " right side " instruction orientation or
Positional relationship is orientation and positional relationship based on the figure, it is only for facilitate the structurally and operationally mode of description, and
It is not to indicate or imply that signified part must have a particular orientation, with the operation of specific orientation, thus should not be understood as
Limitations of the present invention.
It is of the existing technology to solve the purpose of the utility model is to provide a kind of elevator traction sheave slippage detecting device
Problem, by way of measuring indirectly can quantitative detection go out elevator traction sheave slippage size, for science determine traction sheave be
No failure provides scientific basis.
To keep the above objects, features, and advantages of the utility model more obvious and easy to understand, with reference to the accompanying drawing and have
Body embodiment is described in further detail the utility model.
It is as shown in Figure 1-Figure 3: to present embodiments provide a kind of elevator traction sheave slippage detecting device, including traction sheave angle position
Measuring system, limiter of speed angle displacement measuring device and signal processing system, traction sheave angle displacement measuring device and limiter of speed angle
Displacement measuring device passes through signal wire and is electrically connected with signal processing system, traction sheave angle displacement measuring device, limiter of speed angle position
Measuring system and signal processing system are all set on the iron plate at the top of elevator(lift) machine room.Specifically, traction sheave angle displacement measurement
Device and limiter of speed angle displacement measuring device pass through bolt and are fixedly connected with the iron plate at the top of elevator(lift) machine room.Signal processing system
Including sliding detection controller 9 and computer monitor 8, sliding detection controller 9 is electrically connected with computer monitor 8 by signal wire
It connects.Traction sheave angle displacement measuring device and limiter of speed angle displacement measuring device pass through signal wire and sliding detection controller 9 connects
It connects, traction sheave angle displacement measuring device and limiter of speed angle displacement measuring device can also pass through wireless signal transmission equipment and sliding
Controller 9 is detected to connect.
Traction sheave angle displacement measuring device includes rotary encoder 4, electromagnet 14, electromagnet connection frame 5 and encoder peace
Shelve 3.Encoder mounting rack 3 is fixedly connected on traction wheel support 2 by fastening bolt 1, and one end of rotary encoder 4 is fixed
It is connected on encoder mounting rack 3, the other end of rotary encoder 4 is connect with electromagnet connection frame 5, and rotary encoder 4 is preferred
For circle magnetic grid encoder.Traction sheave 6 is set between traction wheel support 2 and encoder mounting rack 3, is wound with side by side on traction sheave 6
More wirerope 7, the both ends of wirerope 7 are separately connected lift car and counterweight.It is laid on traction sheave 6 multiple recessed
The quantity of slot, groove is equal with the quantity of wirerope 7, and wirerope 7 is arranged in the groove.Distinguish at the both ends of electromagnet connection frame 5
It is connect with one end of an electromagnet 14, the other end of electromagnet 14 can be adsorbed on the traction sheave 6 being set on traction wheel support 2
Surface.Specifically, rotary encoder 4 includes that matrix interconnected and rotary test head, matrix are fixedly connected by screw
In on encoder mounting rack 3, rotary test head connects electromagnet connection frame 5 by shaft coupling 15, and the matrix of rotary encoder 4 is set
It is placed in the center of encoder mounting rack 3,4 rotary test head of rotary encoder is set to the center of electromagnet connection frame 5, and rotation is compiled
Code device 4 and traction sheave 6 are coaxially disposed.When electromagnet 14 is powered, electromagnet 14 generates enough electromagnetic forces and connects electromagnet
Frame 5 is tightly fixed to the surface of traction sheave 6, so that the rotation speed of traction sheave 6 and the rotation speed of electromagnet connection frame 5 are complete
Unanimously.Since rotary encoder 4 is connected to electromagnet connection frame 5 and rotary encoder 4 by shaft coupling 15, so that traction sheave 6
The angular displacement of rotation is obtained by the measurement of rotary encoder 4.When electromagnet 14 is powered, the position of electromagnet connection frame 5 is adjusted,
Keep the center-pole of electromagnet connection frame 5 as concentric as possible with traction sheave 6.Using electromagnet 14 be fixedly mounted rotary encoder 4 come
The angular displacement that measurement traction sheave 6 turns over, is easy for installation and removal, easy to operate especially suitable for on-site test.Utilize traction sheave
Slippage detecting device measures the angular displacement of traction sheave 6, to obtain the distance that wirerope 7 is passed by indirectly, avoiding directly will rotation
Turn encoder 4 to be mounted on to abrasion caused by rotary encoder 4 on wirerope 7, thus traction sheave slippage detecting device can be done
It is daytime measurement, durable to for a long time.
Limiter of speed angle displacement measuring device includes support frame 13, limiter of speed testing cassete 12 and limiter of speed measurement gauge head 11.Branch
One end of support 13 is fixedly connected on the iron plate at the top of elevator(lift) machine room, and limiter of speed testing cassete 12 is fixedly connected on support frame 13
The other end, so that limiter of speed testing cassete 12 is fixed by the support of support frame 13.Specifically, the other side of support frame 13 is equipped with a card
Slot, limiter of speed testing cassete 12 are fixedly connected with card slot, and limiter of speed testing cassete 12 is mutually perpendicular to support frame 13.Limiter of speed measurement is surveyed
First 11 preferably circle magnetic grid encoder, limiter of speeds measure gauge head 11 and are rotatablely connected by a connecting rod and limiter of speed testing cassete 12, limit
Fast device measurement gauge head 11 and speed limit device wheel 16 are touched and can be rotated synchronously with speed limit device wheel 16, are obtained by limiter of speed testing cassete 12
Take the angular displacement of speed limited wheel 16.Speed limit device wheel 16 is supported on limiter of speed wheel support 18, and limiter of speed wheel support 18 is fixedly connected on
On lift car, wirerope is wound in speed limit device wheel 16, the side of speed limit device wheel 16 is equipped with a protection board 19, and protection board 19 passes through
Bolt 17 is fixed on limiter of speed wheel support 18.One is offered on iron plate on limiter of speed wheel support 18 and at the top of elevator(lift) machine room
The iron plate of through-hole, elevator(lift) machine room ground is equipped with a fixed pulley, and one end of the wirerope of limiter of speed angle displacement measuring device is successively
The iron plate on elevator(lift) machine room ground is disposed through after the through-hole on the iron plate at the top of limiter of speed wheel support 18 and elevator(lift) machine room
On fixed pulley, and with the other end of wirerope head and the tail connect, the wirerope and elevator car between speed limit device wheel 16 and fixed pulley
Compartment is fixedly connected, so that speed limit device wheel 16 rotates synchronously under the drive of the up and down motion of lift car, to pass through limiter of speed
The angular displacement that gauge head 11 measures speed limit device wheel 16 is measured, and then obtains the displacement of lift car indirectly, is greatly reduced directly
Measure the difficulty of carriage displacement.
Elevator traction sheave slippage refers to the distance to misplace between traction sheave 6 and wirerope 7, to detect traction sheave
Slippage size between 6 and wirerope 7 needs to measure the distance that traction sheave 6 is passed by and the distance that wirerope 7 is passed by simultaneously,
The difference for the distance that the distance passed by using traction sheave 6 and wirerope 7 are passed by obtains between elevator traction sheave 6 and wirerope 7
Slippage.
The testing principle of elevator traction sheave slippage detecting device in the present embodiment is as follows: the angle by measuring traction sheave 6
The angular displacement difference of displacement and speed limit device wheel 16 calculates the slippage between traction sheave 6 and wirerope 7, what wirerope 7 was passed by
Distance and the angle that speed limit device wheel 16 turns over are closely related because speed limit device wheel 16 is connected together with lift car, and with electricity
The servo-actuated synchronous operation of terraced carriage.The angle position that the measurement of gauge head 11 obtains speed limit device wheel 16 is measured by the limiter of speed in speed limit device wheel 16
Shifting amount carrys out the displacement of equivalent substitution lift car, and then substitutes the distance that wirerope 7 is passed by, and utilizes the wheel for being mounted on traction sheave 6
The measured value of the rotary encoder 4 of axis and the limiter of speed in speed limit device wheel 16 measure 11 measured value of gauge head to extrapolate traction sheave 6
With the slippage between wirerope 7.
The detection process of elevator traction sheave slippage detecting device in the present embodiment is as follows: being received using signal processing system
The measuring signal of traction sheave angle displacement measuring device and limiter of speed angle displacement measuring device, and to traction sheave angle displacement measuring device
It is handled with the measuring signal of limiter of speed angle displacement measuring device, is calculated and obtained between traction sheave and wirerope using following formula
Slippage size L,
L=θ1r1-θ2r2
Wherein, slippage of the L between traction sheave and wirerope, θ1For the angular displacement of traction sheave, r1For on the traction sheave
The bending radius of wirerope, θ2For the angular displacement of speed limit device wheel, r2For the bending radius of the wirerope in speed limit device wheel;
Become by computer monitor to the size of the slippage L between traction sheave and wirerope and the variation of slippage L
Gesture is shown.
Elevator traction sheave slippage detecting device in the present embodiment is to be totally independent of elevator to have system by oneself, to elevator safety
Operation does not influence, and does not generate interference to elevator, this is most important to guarantee elevator safety operation;The detection of elevator traction wheel slip
Device can be quantified using non-contact measurement using traction sheave angle displacement measuring device and limiter of speed angle displacement measuring device
Detecting elevator traction sheave slippage size, detection accuracy is high, and determine whether traction sheave fails for science and scientific basis is provided, from
And solve judge whether traction sheave and steel wire iope slippage are excessive at present, the problem for relying only on subjective judgement, only making qualitative evaluation.
It applies specific case in this specification to be expounded the principles of the present invention and embodiment, the above reality
The explanation for applying example is merely used to help understand the method and its core concept of the utility model;Meanwhile for the general of this field
Technical staff, based on the idea of the present invention, there will be changes in the specific implementation manner and application range.To sum up institute
It states, the content of the present specification should not be construed as a limitation of the present invention.
Claims (9)
1. a kind of elevator traction sheave slippage detecting device, it is characterised in that: including traction sheave angle displacement measuring device, limiter of speed angle
Displacement measuring device and signal processing system, the traction sheave angle displacement measuring device and the limiter of speed angle displacement measuring device
It is electrically connected with the signal processing system, the traction sheave angle displacement measuring device, the limiter of speed angle displacement measuring device
It is all set on the iron plate at the top of elevator(lift) machine room with the signal processing system.
2. elevator traction sheave slippage detecting device according to claim 1, it is characterised in that: the traction sheave angular displacement is surveyed
Amount device includes rotary encoder, electromagnet, electromagnet connection frame and encoder mounting rack, and the encoder mounting rack is fixed to be connected
It is connected on traction wheel support, one end of the rotary encoder is fixedly connected on the encoder mounting rack, and the rotation is compiled
Code device the other end connect with the electromagnet connection frame, the both ends of the electromagnet connection frame respectively with an electromagnet
One end connection, the other end of the electromagnet can be adsorbed on the surface for the traction sheave being set on the traction wheel support.
3. elevator traction sheave slippage detecting device according to claim 2, it is characterised in that: the rotary encoder includes
Matrix and rotary test head interconnected, described matrix are fixedly connected on the encoder mounting rack, the rotary test
Head connects the electromagnet connection frame by shaft coupling.
4. elevator traction sheave slippage detecting device according to claim 3, it is characterised in that: described matrix is set to described
The center of encoder mounting rack, the rotary test head are set to the center of the electromagnet connection frame, the rotary encoder
It is coaxially disposed with the traction sheave.
5. elevator traction sheave slippage detecting device according to claim 1, it is characterised in that: the limiter of speed angular displacement is surveyed
Amount device includes support frame, limiter of speed testing cassete and limiter of speed measurement gauge head, and one end of support frame as described above is fixedly connected on described
On iron plate at the top of elevator(lift) machine room, the limiter of speed testing cassete is fixedly connected on the other end of support frame as described above, the limiter of speed
It measures gauge head to be rotatablely connected by a connecting rod and the limiter of speed testing cassete, the limiter of speed measurement gauge head is touched with speed limit device wheel
And it can be rotated synchronously with speed limit device wheel.
6. elevator traction sheave slippage detecting device according to claim 5, it is characterised in that: the other side of support frame as described above
Equipped with a card slot, the limiter of speed testing cassete is fixedly connected with the card slot.
7. elevator traction sheave slippage detecting device according to claim 5, it is characterised in that: the limiter of speed testing cassete with
Support frame as described above is mutually perpendicular to.
8. elevator traction sheave slippage detecting device according to claim 1, it is characterised in that: the signal processing system packet
Sliding detection controller and computer monitor are included, the sliding detection controller is electrically connected with the computer monitor.
9. elevator traction sheave slippage detecting device according to claim 8, it is characterised in that: the traction sheave angular displacement is surveyed
Amount device and the limiter of speed angle displacement measuring device pass through signal wire and connect with sliding detection controller.
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CN201821396741.6U CN208666829U (en) | 2018-08-29 | 2018-08-29 | A kind of elevator traction sheave slippage detecting device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108840193A (en) * | 2018-08-29 | 2018-11-20 | 湖州市特种设备检测研究院 | A kind of elevator traction sheave slippage detecting device and its detection method |
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2018
- 2018-08-29 CN CN201821396741.6U patent/CN208666829U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108840193A (en) * | 2018-08-29 | 2018-11-20 | 湖州市特种设备检测研究院 | A kind of elevator traction sheave slippage detecting device and its detection method |
CN108840193B (en) * | 2018-08-29 | 2024-01-12 | 湖州市特种设备检测研究院 | Elevator traction sheave slippage detection device and detection method thereof |
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Granted publication date: 20190329 Termination date: 20200829 |