CN105565102A

CN105565102A - Debugging and guiding method fast to operate and special for elevator

Info

Publication number: CN105565102A
Application number: CN201610134605.9A
Authority: CN
Inventors: 顾锡淼; 张海波; 唐盼盼; 王国玺; 杨明慧; 燕方方
Original assignee: Upper Sea Cowry Si Te Control Technology Co Ltd
Current assignee: Upper Sea Cowry Si Te Control Technology Co Ltd
Priority date: 2016-03-09
Filing date: 2016-03-09
Publication date: 2016-05-11
Anticipated expiration: 2036-03-09
Also published as: CN105565102B

Abstract

The invention provides a debugging and guiding method fast to operate and special for an elevator. The debugging and guiding method fast to operate and special for the elevator comprises a parameter setting guiding method and a low-speed debugging guiding method.T he debugging and guiding method fully reflect field debugging experience, and the smallest number of optimal parameters required by low-speed debugging are integrated; the parameter initialization step, the parameter storing step and other steps which are likely to be forgotten are highlighted, elevator debugging by field personnel is facilitated, and the probability of parameter setting errors can be greatly lowered. According to the debugging and guiding method, a questioning-responding way with all the steps being executed sequentially is adopted, the field personnel can complete debugging without browsing the specification, and the debugging efficiency is high.

Description

A kind of elevator Special debugging guide method swift to operate

Technical field

The present invention relates to elevator Installation and Debugging field, particularly a kind of elevator Special debugging guide method swift to operate.

Background technology

In elevator debugging process, slow train debugging is the first step crucial in elevator debugging process.After slow train commissioning test is normal, just can carry out express debugging for client.Apparatus for controlling elevator in the market, slow train debugging is divided into multiple step, respectively in different menus, commissioning staff must contrast specification sheets and arrange one by one, concerning the commissioning staff just contacting this system, thumbs menu and bothers consuming time, and be easy to leakage establish certain parameter, make troubles to debugging.Traditional elevator debugging device adopts LED charactron, and display is too simple, and must contrast specification sheets could understand, and is unfavorable for that field staff operates and uses.

Summary of the invention

The object of the invention is to problem that is long for the field adjustable personnel burn in period of prior art existence, that easily go out Wrong, missing operation, provide a kind of elevator Special debugging guide method swift to operate, to solve the problem.

Technical matters solved by the invention can realize by the following technical solutions:

An elevator Special debugging guide method swift to operate, comprises optimum configurations guide method and slow train debugging guide method, it is characterized in that,

Described optimum configurations guide method comprises the steps:

1) Common Parameters key is made in conjunction with field experience,

2) key information reads analysis module and read an information from parameter search table, and extracts the entry address of parameter and send it to menu parameter processing module,

3) menu parameter processing module according to by menu communication module from frequency converter read parameter numerical value, scope and data display format are set, and send it to display message processing module,

4) show message processing module and parameter and other information be sent to the display of LCD liquid crystal display,

5), when key information processing module receives the key information of keyboard transmission, press key message is sent to described menu data processing module,

6) described menu data processing module makes different process according to different key informations,

7) when in described parameter search table, all information reads complete, the complete information of prompting optimum configurations;

Described slow train debugging guide method following steps:

1), when described key information processing module receives the key information of keyboard transmission, press key message is sent to slow train debugging module,

2) state of elevator read module reads a state of elevator every 100ms by described menu communication module,

3) described slow train debugging module receives the state of elevator that described state of elevator read module sends, and the information after process is sent to the display of display message processing module,

4) parameter and other information are sent to the display of described LCD liquid crystal display by described display message processing module,

5), after entering slow train debugging guide, enter parameter of electric machine Self-tuning System step, concrete steps are as follows:

1.1) after described slow train debugging module receives the confirmation key, send parameter self-tuning order by described menu communication module to frequency converter, and send information to described display message processing module, prompting commissioning staff inspection travel elevator,

1.2) described reception state of elevator read module sends state of elevator, detects the progress of parameter of electric machine Self-tuning System,

1.3) after detection parameter of electric machine Self-tuning System completes, send information to described display message processing module, prompting parameter self-tuning completes;

1.4), after described slow train debugging module receives the second function key, enter elevator service direction detecting step, concrete steps are as follows:

2.1) information is sent to described display message processing module, prompting commissioning staff inspection travel elevator,

2.2) described reception state of elevator read module sends state of elevator, extracts elevator service direction and hoistway count value,

2.3) according to the change of elevator service direction and hoistway count value, judge that whether hoistway counting direction optimum configurations is correct, mal then sends order by described menu communication module, change settings,

2.4) after having judged, send information to described display message processing module, prompting commissioning staff elevator out of service, and inquire whether elevator real-world operation direction is identical with maintenance,

2.5), when now receiving the first function key, turn back to described parameter of electric machine Self-tuning System step and perform; When receiving operated key, revise elevator service direction parameter by described menu communication module and complete slow train debugging, when receiving the second function key, directly completing slow train debugging.

In a preferred embodiment of the invention, described menu communication module is connected with master control board by RS232 bus interface.

In a preferred embodiment of the invention, described first function key sends message and reads analysis module to described key information, reads a upper information in described parameter search table, sends to described menu parameter processing module after process; Described second function key sends message and reads analysis module to described key information, reads next information in described parameter search table, sends to described menu parameter processing module after process.

In a preferred embodiment of the invention, described operated key comprises the first operated key, the second operated key, the first shifting bond(s) and the second shifting bond(s), described first operated key for increasing parameter values, and revises corresponding menu parameter in frequency converter by described menu communication module; Described second operated key for reducing parameter values, and revises corresponding menu parameter in frequency converter by described menu communication module; Described first shifting bond(s) is for being moved to the left the position of the cursor in described LCD liquid crystal display; Described second shifting bond(s) is for the position of the cursor in described LCD liquid crystal display that moves right.

In a preferred embodiment of the invention, OK button and ESC Escape is also comprised.

Owing to have employed technical scheme as above, beneficial effect of the present invention is:

The invention provides a kind of simple and practical debugging guide, fully demonstrate spot debugging experience, the parameter that optimum needed for the debugging of integration slow train is minimum, outstanding step such as appearance forgettable " parameter initialization ", " preservation parameter " etc., not only be easy to the elevator debugging of field staff, and the situation that optimum configurations makes mistakes can be greatly reduced.The present invention is according to the interrogation reply system of order execution step by step, and field staff is without the need to browsing specification sheets, and can complete, debugging efficiency is high.In addition, the present invention preserves parameter and adopts RS232 communication modes, is kept in the ferroelectric memory of mainboard, without the need to resetting after power-off again.Operation interface of the present invention adopts Chinese liquid crystal interface, alternately well.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of the optimum configurations guide method of an embodiment of the present invention.

Fig. 2 is the structural representation of the slow train debugging guide method of an embodiment of the present invention.

Fig. 3 is the roughly block diagram of the optimum configurations guide method of an embodiment of the present invention.

Fig. 4 is the roughly block diagram of the slow train debugging guide method of an embodiment of the present invention.

Fig. 5 is the detailed diagram of the optimum configurations guide method of an embodiment of the present invention.

Fig. 6 is the detailed diagram of the slow train debugging guide method of an embodiment of the present invention.

Fig. 7 is the fast debugging surface chart of an embodiment of the present invention.

Fig. 8 is the debugger initialization surface chart of an embodiment of the present invention.

Detailed description of the invention

The technological means realized to make the present invention, creation characteristic, reaching object and effect is easy to understand, setting forth the present invention further below.

See shown in Fig. 1 to Fig. 8, a kind of elevator Special debugging guide method swift to operate comprises optimum configurations guide method and slow train debugging guide method.

Optimum configurations guide method comprises the steps:

1) Common Parameters key is made in conjunction with field experience,

5), when key information processing module receives the key information of keyboard transmission, press key message is sent to menu data processing module,

6) menu data processing module makes different process according to different key informations,

7) when in parameter search table, all information reads complete, the complete information of prompting optimum configurations.

Slow train debugging guide method following steps:

1), when key information processing module receives the key information of keyboard transmission, press key message is sent to slow train debugging module,

2) state of elevator read module reads a state of elevator every 100ms by menu communication module,

3) slow train debugging module receives the state of elevator that state of elevator read module sends, and the information after process is sent to the display of display message processing module,

1.3) after detection parameter of electric machine Self-tuning System completes, send information to display message processing module, prompting parameter self-tuning completes;

1.4), after slow train debugging module receives the second function key 20, enter elevator service direction detecting step, concrete steps are as follows:

2.1) information is sent to display message processing module, prompting commissioning staff inspection travel elevator,

2.2) receive state of elevator read module and send state of elevator, extract elevator service direction and hoistway count value,

2.4) after having judged, send information to display message processing module, prompting commissioning staff elevator out of service, and inquire whether elevator real-world operation direction is identical with maintenance,

2.5), when now receiving the first function key 10, turn back to parameter of electric machine Self-tuning System step and perform; When receiving operated key, revise elevator service direction parameter by menu communication module and complete slow train debugging, when receiving the second function key 20, directly completing slow train debugging.

Menu communication module in the present embodiment is connected with master control board by RS232 bus interface, is kept in the ferroelectric memory of mainboard, without the need to resetting after power-off again.

The first function key 10 (also may be defined as F1 function key) in the present embodiment sends message and reads analysis module to key information, reads a upper information in parameter search table, sends to menu parameter processing module after process; Second function key 20 (also may be defined as F2 function key) sends message and reads analysis module to key information, reads next information in parameter search table, sends to menu parameter processing module after process.

Operated key in the present embodiment comprises the first operated key 30 (also may be defined as upwards operated key), the second operated key 40 (also may be defined as downward operation key), the first shifting bond(s) 50 (also may be defined as operated key left) and the second shifting bond(s) 60 (also may be defined as operated key to the right), first operated key 30 for increasing parameter values, and revises corresponding menu parameter in frequency converter by menu communication module; Second operated key 40 for reducing parameter values, and revises corresponding menu parameter in frequency converter by menu communication module; First shifting bond(s) 50 is for being moved to the left the position of the cursor in LCD liquid crystal display; Second shifting bond(s) 60 is for the position of the cursor in described LCD liquid crystal display that moves right.

Conveniently operate, in the present embodiment, also comprise OK button 70 (also may be defined as ENT key) and ESC Escape 80 (also may be defined as esc key).

Optimum configurations guide method in the present embodiment comprises parameter initialization, optimum configurations and preservation parameter.

Parameter initialization, the parameter of the whole elevator device of initialization, can select synchronous dynamo or asynchronous dynamo initialization according to the type of drive motor.Initialization can recover the parameter that whole system is normally run, especially first time power on or system cannot run time, can initialization be selected.Initialization is placed on the first step of setting by this guide, and object is just to the healthy working environment of system one.

According to spot debugging experience, after completing initialization, only the personalizing parameters of on-the-spot elevator need be inputted.These personalizing parameters comprise elevator parameter, coder parameters and the parameter of electric machine.The order of these parameters input of guide layout meets custom and the experience of field adjustable personnel, can not leak and establish and establish more.Need to preserve parameters, otherwise after power-off, parameters is invalid, and elevator can be caused to run.

After optimum configurations completes, guide prompting " preservation parameter ".According to the situation of scene feedback, often forget preservation parameter, after causing again powering on, elevator cannot run." preservation parameter " is placed on optimum configurations final step by this guide, can avoid the situation forgetting preservation.

Slow train debugging guide method comprises parameter of electric machine Self-tuning System, elevator service direction detects and parameter is preserved.

Parameter self-tuning is the committed step that elevator can run, and especially set resistor inductance not only wanted by synchronous dynamo, also will learn initial magnetic pole position.This guide is by two-in-one, and by step prompting, 10s can complete, and substantially increases debugging efficiency.Make mistakes if adjusted, only need change phase sequence Self-tuning System again, convenient and swift.

Whether elevator service direction detects mainly detection elevator service direction consistent with the up-downgoing of inspection button.This step can avoid call " up ", and the embarrassment that elevator is descending.

Preserve motor to adjust and service direction parameter, namely complete the slow train debugging of elevator.

The invention provides a kind of simple and practical debugging guide, fully demonstrate spot debugging experience, the parameter that optimum needed for the debugging of integration slow train is minimum, outstanding step such as appearance forgettable " parameter initialization ", " preservation parameter " etc., not only be easy to the elevator debugging of field staff, and the situation that optimum configurations makes mistakes can be greatly reduced.In addition, the present invention preserves parameter and adopts RS232 communication modes, is kept in the ferroelectric memory of mainboard, without the need to resetting after power-off again.Operation interface of the present invention adopts Chinese liquid crystal interface, alternately well.

More than show and describe groundwork of the present invention and principal character and advantage of the present invention.The technical personnel of the industry should be understood; the present invention is not restricted to the described embodiments; what describe in above-described embodiment and specification sheets just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the claimed scope of the invention.Application claims protection domain is defined by appending claims and equivalent thereof.

Claims

1. an elevator Special debugging guide method swift to operate, comprises optimum configurations guide method and slow train debugging guide method, it is characterized in that,

Described optimum configurations guide method comprises the steps:

1) Common Parameters key is made in conjunction with field experience,

Described slow train debugging guide method following steps:

2. a kind of elevator Special debugging guide method swift to operate as claimed in claim 1, is characterized in that, described menu communication module is connected with master control board by RS232 bus interface.

3. a kind of elevator Special debugging guide method swift to operate as claimed in claim 1, it is characterized in that, described first function key sends message and reads analysis module to described key information, read a upper information in described parameter search table, after process, send to described menu parameter processing module; Described second function key sends message and reads analysis module to described key information, reads next information in described parameter search table, sends to described menu parameter processing module after process.

4. a kind of elevator Special debugging guide method swift to operate as claimed in claim 1, it is characterized in that, described operated key comprises the first operated key, the second operated key, the first shifting bond(s) and the second shifting bond(s), described first operated key for increasing parameter values, and revises corresponding menu parameter in frequency converter by described menu communication module; Described second operated key for reducing parameter values, and revises corresponding menu parameter in frequency converter by described menu communication module; Described first shifting bond(s) is for being moved to the left the position of the cursor in described LCD liquid crystal display; Described second shifting bond(s) is for the position of the cursor in described LCD liquid crystal display that moves right.

5. a kind of elevator Special debugging guide method swift to operate as claimed in claim 1, is characterized in that, also comprise OK button and ESC Escape.