CN205114735U - Unloaded dynamic balance coefficient detector of elevator - Google Patents

Abstract

The utility model provides an unloaded dynamic balance coefficient detector of elevator by acceleration sensor (1) collection elevator car operating information, inputs data processor (6) through wireless transmission module I (2) with wireless transmission module II (8), by the power information of current collection device (3) with voltage acquisition device (4) collection hauler, power sensor (5) inputs after measuring data processor (6), based on towing formula elevator no load condition operating power, functioning speed, the mechanism's transmission loss function with drive load, the intellectual detection system software through data processor (6) calculates the equilibrium coefficient numerical value that obtains being tested the elevator, shows output through display (7), SD card (9) storage detects data, and is better with general PC compatibility. Instrument structure is exquisite, and detect operation is simple and convenient.

Description

Elevator no-load dynamical equilibrium coefficient detector

Technical field

The utility model relates to a kind of detecting instrument, more particularly, is a kind of special testing instrument testing traction elevator equilibrium factor.

Background technology

China is the maximum elevator producing country in the whole world and elevator country of consumption, and about have 800,000 new elevators to install and use every year, wherein, traction elevator accounts for more than 90%.According to existing elevator technology code requirement, these new clothes elevators all will carry out the testing and debugging of equilibrium factor, can place in operation after qualified.Therefore, equilibrium factor detect be elevator industry one amount large, wide, require high technical work.

The test method that existing elevator technology standard and elevator inspection rule adopt is: car loads nominal payload 30%, 40%, 45%, 50%, 60% respectively and makes upper and lower whole process and run, when car and counterweight run to same level position, the current value of record motor, draw electric current-load curve, with the intersection point determination equilibrium factor of upper and lower run curve.

Run above by elevator multistage loadings, record motor current value, draw the method for inspection of electric current-load chart determination equilibrium factor, advantage can use general detector device, technology maturation; Shortcoming compares to waste time and energy, and the field operation time more than 1 hour, will be about 1/3rd of whole terraced Test Detection Work amount usually.

Because existing balance coefficient of elevator Comparison between detecting methods is wasted time and energy, no-load equilibrium factor test technology is arisen at the historic moment in recent years, achieve some achievements in research, as the ADIASYSTEM elevator checking system etc. by detecting the detector of traction sheave both sides steel wire rope tension determination equilibrium factor, the method for measuring static state weight difference in two sides of Liaoming Petrochemical Univ's research and development and tester thereof, German TUV company of Anhui Special Equipment Test Inst's research and development.Owing to being no-load test, eliminate the link of repeatedly carrying counterweight, still Problems existing is at present, its test data is elevator static number, the dynamic test numerical value adopted with existing elevator inspection rule there are differences, and during examinations, the installation of its proving installation is convenient etc., limits and applies.

Utility model content

The purpose of this utility model overcomes the deficiencies in the prior art, provides a kind of and install elevator no-load dynamical equilibrium coefficient detection instrumentation convenient, simple to operate.

The utility model is achieved by following technical proposals: elevator no-load dynamical equilibrium coefficient detector comprises elevator speed measuring system, elevator runs power measuring system and Measurement data-processing system.The acceleration pick-up of described elevator speed measuring system is placed in lift car, gathers the acceleration information in elevator cage operation process; Its acceleration pick-up is connected with wireless transport module I, and the acceleration information of collection is sent to wireless transport module II with wireless communication mode; Described wireless transport module II is connected with data handler, and degree of will speed up information inputs to data handler.Current collecting device and the voltage collecting device of described elevator operation power measuring system are linked in the power circuit of elevator traction machine respectively, and its current collecting device is connected with power sensor respectively with voltage collecting device, measures the power information of towing machine; Described power sensor is connected with data handler, and power information is inputed to data handler.The data handler of described Measurement data-processing system, by the acceleration information of input and power information, draws the equilibrium factor test result of tested elevator by the computational analysis of Intelligent Measurement software; Its data handler is connected with telltale, by equilibrium factor test result by telltale display translation.

The Measurement data-processing system of elevator no-load dynamical equilibrium coefficient detector is provided with the SD card be connected with data handler, crosses data handler store detection data by SD cartoon; Described SD card takes out from this detector and is connected with universal PC, can download and the detection data managing this detector.

Described in the Measurement data-processing system of elevator no-load dynamical equilibrium coefficient detector, Intelligent Measurement software comprises:

A) degree of will speed up information is converted to velocity information, detects and records the operating car speed data of elevator in real time;

B) detected in real time by power sensor and record the operating towing machine power data of elevator;

C) based on traction elevator idle condition running power, running velocity, mechanism driving loss and the functional relation driving load, balance coefficient of elevator is calculated by (formula 1):

$q=\frac{N_x{V}_s+N_s{V}_x}{2{\mathrm{QgV}}_s{V}_x}$ (formula 1)

In formula:

Q---balance coefficient of elevator;

Q---elevator rated load, kg;

G---acceleration due to gravity, gets 9.8m/s ²;

N _s---the unloaded ascending power of car, unit W;

N _x---car empty down power, unit W;

V _s---the unloaded speed uplink of car, unit m/s;

V _x---car empty down speed, unit m/s.

The elevator of elevator no-load dynamical equilibrium coefficient detector runs current collecting device described in power measuring system, is preferably suitable for the interchange wideband current clamp that frequency limit meets 0.5Hz ~ 60Hz; The power sensor that described elevator runs in power measuring system is preferably suitable for the AC frequency conversion power sensor that frequency limit meets 0.5Hz ~ 60Hz.

Described in the elevator speed measuring system of elevator no-load dynamical equilibrium coefficient detector, acceleration pick-up is preferably 3 axis MEMS acceleration pick-up.

The Measurement data-processing system of elevator no-load dynamical equilibrium coefficient detector is preferably panel computer.

The utility model advantage is compared with prior art:

(1) adopt elevator no-load detection of dynamic scheme, detector in-site installation is convenient and swift, about 10 minutes usually its field operation time, time saving and energy saving.

(2) equilibrium factor test result is consistent with pressing the result that elevator inspection rule tests.

Accompanying drawing explanation

Fig. 1 is elevator no-load dynamical equilibrium coefficient detector example structure block diagram of the present utility model.

Fig. 2 is the load relationship schematic diagram of elevator no-load operating condition.

In figure: 1. acceleration pick-up, 2. wireless transport module I, 3. current collecting device, 4. voltage collecting device, 5. power sensor, 6. data handler, 7. telltale, 8. wireless transport module II, 9.SD card.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is further described:

As shown in Figure 1, elevator no-load dynamical equilibrium coefficient detector of the present utility model gathers elevator cage operation information by acceleration pick-up 1, is input to data handler 6 by wireless transport module I and wireless transport module II; Gathered the power information of towing machine by current collecting device 3 and voltage collecting device 4, after power sensor 5 is measured, be input to data handler 6.Based on traction elevator idle condition running power, running velocity, mechanism driving loss and the functional relation driving load, calculate balance coefficient of elevator by above-mentioned (formula 1).As follows to the derivation of (formula 1):

As shown in Figure 2, elevator is the weight difference of traction sheave both sides at the running load of no-load run operating mode towing machine drive motor; According to equilibrium factor definition, during elevator no-load, the numerical value of traction sheave weight difference in two sides is qQ.

A) elevator no-load descending operating mode drive motor power solves:

By motor drag load running when elevator no-load is descending, motor is in motoring condition, and motor running power is displacement power and the mechanism driving loss power sum of load:

N _x=KQgV _x+ μ KQgV _x(formula 2)

In formula: μ---mechanism driving coefficient of losses; Other symbol is the same.

B) elevator no-load up operating mode drive motor power solves:

When elevator no-load is up, because counterweight mass is greater than car mass, elevator load now relies on the running of gravity dragging motor, and motor is in dynamic brake state, and power of motor is that the displacement power of load deducts mechanism driving loss power:

N _s=KQgV _s-μ KQgV _s(formula 3)

In formula, symbol is the same.

C) equilibrium factor solves:

Linear equation in two unknowns group is set up by (formula 2) and (formula 3):

$\left\{\begin{array}{c}{N}_x={\mathrm{KQgV}}_X+{\mathrm{\μKQgV}}_X\\ N_s={\mathrm{KQgV}}_S-{\mathrm{\μKQgV}}_S\end{array}\right.$ (formula 4)

In (formula 4), q, μ binomial is known variables; Remaining Q, g, N _x, N _s, V _x, V _ssix is elevator parameter or test data, is known variables.Two equations, two unknown numberes, solve linear equation in two unknowns group (formula 4), can be balanced coefficient formulas (formula 1).

The AC variable frequency drive technology in view of current lift product widespread use, power measuring system of the present utility model selects wideband current clamp and variable-frequency power sensor.

Below carried out launching to describe to the utility model with embodiment by reference to the accompanying drawings, this description does not have restricted, and be also a kind of embodiment that the utility model instrument is formed shown in accompanying drawing, the technical solution of the utility model is not limited thereto.Those of ordinary skill in the art should be understood that; when not departing from the utility model design philosophy; enforcement of the present utility model also has change in some details or variation, these thus the change of amplifying out or variation include within protection domain of the present utility model.

Claims (7)

1. an elevator no-load dynamical equilibrium coefficient detector, comprises elevator speed measuring system, elevator runs power measuring system and Measurement data-processing system, it is characterized in that:

The acceleration pick-up of described elevator speed measuring system is placed in lift car, gathers the acceleration information in elevator cage operation process; Described acceleration pick-up is connected with wireless transport module I, and the acceleration information of collection is sent to wireless transport module II with wireless communication mode; Described wireless transport module II is connected with data handler, and degree of will speed up information inputs to data handler;

Current collecting device and the voltage collecting device of described elevator operation power measuring system are linked in the power circuit of elevator traction machine respectively, and described current collecting device is connected with power sensor respectively with voltage collecting device, measures the power information of towing machine; Described power sensor is connected with data handler, and power information is inputed to data handler;

The data handler of described Measurement data-processing system, by the acceleration information of input and power information, draws the equilibrium factor test result of tested elevator by the computational analysis of Intelligent Measurement software; Described data handler is connected with telltale, by equilibrium factor test result by telltale display translation.

2. a kind of elevator no-load dynamical equilibrium coefficient detector according to claim 1, it is characterized in that, described Measurement data-processing system is provided with the SD card be connected with data handler, crosses data handler store and detect data by SD cartoon; Described SD card can take out from this detector and be connected with universal PC, downloads the detection data with this detector of management.

3. a kind of elevator no-load dynamical equilibrium coefficient detector according to claim 1, it is characterized in that, the Intelligent Measurement software of described Measurement data-processing system comprises:

A) degree of will speed up information is converted to velocity information, detects and records the operating car speed data of elevator in real time;

B) detected in real time by power sensor and record elevator operating towing machine drive motor power data;

C) based on traction elevator idle condition running power, running velocity, mechanism driving loss and the functional relation driving load, be calculated as follows and obtain balance coefficient of elevator:

In formula:

Q---balance coefficient of elevator;

Q---nominal payload, unit is (kg);

G---acceleration due to gravity, gets 9.81m/s ²;

N _s---the unloaded ascending power of car, unit is (W);

N _x---car empty down power, unit is (W);

V _s---the unloaded speed uplink of car, unit is (m/s);

V _x---car empty down speed, unit is (m/s).

4. a kind of elevator no-load dynamical equilibrium coefficient detector according to claim 1, is characterized in that, the current collecting device that described elevator runs power measuring system is be applicable to the interchange wideband current clamp that frequency limit meets 0.5Hz ~ 60Hz.

5. a kind of elevator no-load dynamical equilibrium coefficient detector according to claim 1, is characterized in that, the power sensor that described elevator runs power measuring system is be applicable to the AC frequency conversion power sensor that frequency limit meets 0.5Hz ~ 60Hz.

6. a kind of elevator no-load dynamical equilibrium coefficient detector according to claim 1, it is characterized in that, the acceleration pick-up of described elevator speed measuring system is 3 axis MEMS acceleration pick-up.

7. a kind of elevator no-load dynamical equilibrium coefficient detector according to claim 1, it is characterized in that, described Measurement data-processing system is panel computer.