CN112488570B - Method, device, electronic equipment and storage medium for determining elevator special scheme - Google Patents

Abstract

The invention provides a method, a device, electronic equipment and a storage medium for determining a special scheme of an elevator, wherein the method comprises the steps of receiving a plurality of special requirement points input by a user; acquiring a plurality of parameter names and a plurality of component names associated with special demand points; and receiving parameter values of each parameter name input by a user; obtaining corresponding response information of each special demand point according to the special response rule, and marking the special demand point which is unable to be responded by the response information as a first special demand point; obtaining a plurality of final coping schemes according to the integration rule, and obtaining a total special price according to the plurality of final coping schemes; and displaying and outputting the plurality of final response schemes, the total added price, the first special demand point and response information corresponding to the first special demand point to the user. The invention can shorten the confirmation time of the special demand point scheme, improve the coping efficiency and reduce the economic loss caused by the delay of the field engineering.

Description

Method, device, electronic equipment and storage medium for determining elevator special scheme

Technical Field

The invention belongs to the technical field of elevators, and particularly relates to a method and device for determining a special scheme of an elevator, electronic equipment and a storage medium.

Background

In the elevator industry, each company is configured by a set of size, has functional characteristics, and is matched with corresponding price to serve as standard configuration of the company, so that the front-end response efficiency is improved. If the customer has special requirements on elevator functions, the current method is to summarize the special requirements of the customer by the field service, improve the technical confirmation of the company, improve the configuration of the corresponding scheme according to the summarized special requirements, convert the financial summary cost price to be quoted, and communicate with the customer by the field service, so that the scheme adjustment confirmation mode of the special requirements is too dependent on manual operation, and relates to engineering, technology, production, finance and the like and confirmation processing of a plurality of matched departments, and all the departments are mutually independent, and a completed system and a coherent information flow are not formed, thereby leading to overlong scheme confirmation period of the customer characteristic requirements, failing to meet the actual requirements of the customer and even leading to economic loss caused by field engineering delay.

Disclosure of Invention

The invention aims to provide a method, a device, electronic equipment and a storage medium for determining a special scheme of an elevator, which can shorten the confirmation time of the special requirement point scheme, improve the coping efficiency and reduce the economic loss caused by field engineering delay.

The invention is realized by the following technical scheme:

a method of determining a particular elevator solution comprising the steps of:

s1, receiving a plurality of special demand points input by a user;

s2, for each special demand point, acquiring a plurality of parameter names and a plurality of component names associated with the special demand point in a preset scheme database, marking the acquired plurality of parameter names as first parameter names, wherein the scheme database at least comprises a plurality of special demand points, a plurality of parameter names and a plurality of component names, and each special demand point is associated with a plurality of parameter names and a plurality of component names;

s3, displaying and outputting a plurality of first parameter names to a user, receiving input parameter values of each first parameter name, and combining the first parameter names and the parameter values corresponding to the first parameter names into parameter information to obtain a plurality of parameter information of each special demand point;

s4, for each special demand point, processing a plurality of component names and a plurality of parameter information corresponding to the special demand point according to a special coping rule to obtain coping information corresponding to each special demand point, marking the special demand point which is not coping with the coping information as a first special demand point, wherein the coping information comprises a plurality of coping schemes or is not coping with the coping schemes, and the coping schemes comprise component names and component parameters corresponding to the component names;

S5, integrating all the solutions according to an integration rule to obtain a plurality of final solutions, obtaining the price of each final solution in a preset price database, and summarizing the obtained price to obtain a total special price, wherein the price database at least comprises the price of different final solutions;

and S6, displaying and outputting a plurality of final response schemes, the total special price, the first special demand point and response information corresponding to the first special demand point to the user.

Further, an association relation among the parameter names is pre-established, the association relation among the parameter names is related or irrelevant, for each parameter name, the parameter name is correspondingly associated with a component name, the component parameter comprises at least one of a model parameter or a specification size, the specification size at least comprises a size parameter, the size parameter is associated with the parameter name, and the scheme database also comprises a plurality of model data corresponding to the component names and parameter ranges of a plurality of parameter names corresponding to the data of the various types;

the step of processing the component information and the parameter information corresponding to the special demand points according to the special demand point corresponding rules to obtain the corresponding response information of each special demand point comprises the following steps:

In a plurality of parameter information corresponding to the special demand points, judging whether the parameter value of each first parameter name is a default value or not;

if yes, the first parameter name is marked as a second parameter name, and if not, the first parameter name is marked as a third parameter name;

sequentially selecting a fourth parameter name from a plurality of third parameter names, recording the third parameter name which has an association relation with the fourth parameter name as a fifth parameter name, processing the fourth parameter name and the parameter value thereof according to a preset range rule to obtain a parameter range of the fifth parameter name, and judging whether the parameter value of the fifth parameter name is in a corresponding parameter range or not, wherein the range rule comprises setting the parameter range of the parameter name associated with the target parameter according to the parameter value of the target parameter name;

if not, setting the response information as the response information which cannot be processed, and obtaining the response information corresponding to the special demand point;

if so, judging whether a third parameter name which has a relation with the second parameter name exists in the plurality of third parameter names, and if so, modifying the parameter value of the second parameter name into a parameter range of the second parameter name according to the parameter value of the third parameter name which has the relation with the second parameter name, wherein the relation with the second parameter name exists;

For each component name associated with a particular demand point, performing step a and/or performing step b;

the step a specifically comprises the following steps: obtaining the conforming model data in the scheme database according to the first parameter name associated with the part name and the parameter value corresponding to the first parameter name, and modifying the model parameter in the response information into the obtained model data;

the step b specifically comprises the following steps: the size parameter in the reply information is set to the parameter value of its associated parameter name and its associated parameter name.

Further, the step of integrating all the solutions according to the integration rule to obtain a plurality of final solutions includes:

dividing the solutions with the same part names into one solution group to obtain a plurality of solution groups;

for a plurality of corresponding schemes in the same corresponding scheme group, dividing the size parameters containing the same parameter name into one size parameter group to obtain a plurality of size parameter groups;

and for a plurality of size parameters of the same size parameter group, carrying out set intersection operation on parameter values contained in the plurality of size parameters to obtain a final size parameter, and replacing the corresponding plurality of size parameters with the obtained final size parameter to obtain a plurality of final response schemes.

Further, the component names are associated with type information, the type information including a model type, a size type, and a common type, and the step of performing step a and/or step b includes, for each component name associated with a particular demand point:

for each part name associated with the special requirement point, acquiring type information associated with the part name and judging;

if the type information associated with the part name is a model type, executing the step a;

if the type information associated with the part name is a size type, executing the step b;

if the type information associated with the component name is a common type, executing the step a and the step b.

Further, after the step of displaying and outputting the plurality of final solutions, the total special price, the first special demand point, and the response information corresponding to the first special demand point to the user, the method further includes:

for each first special demand point, displaying and outputting the fourth parameter name and the fifth parameter name of the first special demand point to a user;

detecting whether a signal for modifying a parameter value corresponding to the fourth parameter name by a user is received or not, and/or detecting whether a signal for modifying a parameter value corresponding to the fifth parameter name by the user is received or not;

If yes, replacing the old parameter value corresponding to the fourth parameter name with the new parameter value of the fourth parameter name input by the user, and/or replacing the old parameter value corresponding to the fifth parameter name with the new parameter value of the fifth parameter name input by the user, and repeating the steps S4 to S6.

The invention also provides a device for determining the special scheme of the elevator, which comprises the following steps:

the receiving module is used for receiving a plurality of special demand points input by a user;

the system comprises an acquisition module, a processing module and a processing module, wherein the acquisition module is used for acquiring a plurality of parameter names and a plurality of component names associated with special demand points in a preset scheme database for each special demand point, marking the acquired plurality of parameter names as first parameter names, and the scheme database at least comprises a plurality of special demand points, a plurality of parameter names and a plurality of component names, wherein each special demand point is associated with a plurality of parameter names and a plurality of component names;

the first display module is used for displaying and outputting a plurality of first parameter names to a user, receiving input parameter values of each first parameter name, combining the first parameter names and the parameter values corresponding to the first parameter names into parameter information, and obtaining a plurality of parameter information of each special demand point;

The processing module is used for processing a plurality of component names and a plurality of parameter information corresponding to the special demand points according to special response rules for each special demand point to obtain response information corresponding to each special demand point, marking the special demand point which is not capable of being responded as a first special demand point, wherein the response information comprises a plurality of response schemes or not capable of being responded, and the response schemes comprise component names and component parameters corresponding to the component names;

the integrating module is used for integrating all the response schemes according to the integrating rule to obtain a plurality of final response schemes, obtaining the price adding price of each final response scheme in a preset price database, and summarizing the obtained price adding price to obtain a total special price, wherein the price database at least comprises the price adding prices of different final response schemes;

the output module is used for displaying and outputting a plurality of final response schemes, total special prices, first special demand points and response information corresponding to the first special demand points to a user.

The invention also discloses an electronic device comprising a memory and a processor, the memory storing a computer program, the processor implementing the steps of any of the methods described above when executing the computer program.

The invention also discloses a computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of the method of any of the above.

Compared with the prior art, the invention has the beneficial effects that: through receiving a plurality of special demand points input by a user, after determining parameters required to be provided by the user according to the special demand points, receiving parameter values input by the user, obtaining a coping scheme of each special demand point through a preset special coping rule, integrating all coping schemes according to an integration rule to obtain a final coping scheme, summarizing the added price of each final coping scheme in a price database to obtain a total special price, and finally outputting the coping scheme and the total special price to the user for confirmation, wherein human intervention is not needed in the whole process, information circulation of each subsequent department is reduced, full-automatic coping of the special demand points of the user is realized, thereby improving coping efficiency, being beneficial to quickly determining modification cost change, obtaining quotations of contract modification, promoting determination of the field special scheme, accelerating contract modification completion, shortening contract modification confirmation time and reducing economic losses caused by field engineering delay.

Drawings

Fig. 1 is a flow chart of the steps of the method of the invention for determining a particular solution for an elevator;

fig. 2 is a schematic block diagram of the apparatus for determining a particular solution for an elevator of the present invention;

FIG. 3 is a block diagram illustrating a schematic structure of an embodiment of an electronic device of the present invention;

fig. 4 is a block diagram illustrating a computer-readable storage medium according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Meanwhile, in the description of the present invention, the terms "first", "second", and the like are used only to distinguish the description, and are not to be construed as indicating or implying relative importance.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

In the description of the present invention, it should be noted that, directions or positional relationships indicated by terms such as "upper", "lower", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or those that are conventionally put in use, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present invention.

Referring to fig. 1, fig. 1 is a flow chart of steps of a method of determining a particular elevator plan according to the present invention. A method of determining a particular elevator solution comprising the steps of:

s1, receiving a plurality of special demand points input by a user;

s2, for each special demand point, acquiring a plurality of parameter names and a plurality of component names associated with the special demand point in a preset scheme database, marking the acquired plurality of parameter names as first parameter names, wherein the scheme database at least comprises a plurality of special demand points, a plurality of parameter names and a plurality of component names, and each special demand point is associated with a plurality of parameter names and a plurality of component names;

S3, displaying and outputting a plurality of first parameter names to a user, receiving input parameter values of each first parameter name, and combining the first parameter names and the parameter values corresponding to the first parameter names into parameter information to obtain a plurality of parameter information of each special demand point;

s4, for each special demand point, processing a plurality of component names and a plurality of parameter information corresponding to the special demand point according to a special coping rule to obtain coping information corresponding to each special demand point, marking the special demand point which is not coping with the coping information as a first special demand point, wherein the coping information comprises a plurality of coping schemes or is not coping with the coping schemes, and the coping schemes comprise component names and component parameters corresponding to the component names;

s5, integrating all the solutions according to an integration rule to obtain a plurality of final solutions, obtaining the price of each final solution in a preset price database, and summarizing the obtained price to obtain a total special price, wherein the price database at least comprises the price of different final solutions;

and S6, displaying and outputting a plurality of final response schemes, the total special price, the first special demand point and response information corresponding to the first special demand point to the user.

In the step S1, a plurality of special demand points are entered in advance, and when a user inputs a special demand point, the user directly checks the corresponding special demand point. The special requirement points may relate to special functions such as face recognition, two-dimensional code riding, etc., or to parts that are special such as control surfaces, buttons, or guide rails.

In the above step S2, a plurality of special demand points, a plurality of parameter names, and a plurality of component names are entered in advance in the project database, and each special demand point is associated with a plurality of parameter names and a plurality of component names, the plurality of parameter names associated with a special demand point are parameter names that need to be known in response to the special demand, and the plurality of component names associated with a special demand point are components that need to be replaced relative to a standard elevator configuration. After a plurality of parameter names are acquired in the scheme database, the acquired parameter names are marked as first parameter names, so that the parameter names are conveniently and subsequently output to a user to be filled with parameter values.

In the step S3, for all the obtained first parameter names, the first parameter names are deleted and then displayed and output to the user, so that the user can provide corresponding parameter values according to the output first parameter names, if the user does not input the first parameter names of the parameter values, the first parameter names are input according to default parameter values, and the default parameter values are parameter ranges.

In the step S4, the component names and the parameter information corresponding to each special demand point are processed according to the special handling rules to obtain handling information corresponding to each special demand point, and the parameter information corresponding to the special demand point is obtained according to the parameter value input by the user, so that some special demand points may not be handled specifically, and thus if the special demand point is not handled specifically, the handling information obtained is a plurality of handling schemes, and if the special demand point is not handled specifically, the handling information obtained is not handled.

Further, an association relation between the parameter names is pre-established, the association relation between the parameter names is a relation or an irrelevant relation, for each parameter name, the parameter name is correspondingly associated with a component name, the component parameter comprises at least one of a model parameter or a specification size, the specification size at least comprises a size parameter, the size parameter is associated with the parameter name, and the scheme database further comprises a plurality of model data corresponding to each component name and a parameter range of a plurality of parameter names corresponding to each model data;

In elevator design, the parameter value of one parameter name of an elevator may affect the parameter value of another parameter name, for example, the size of a hoistway may affect the size of a car, so that an association relationship between the parameter names is pre-established according to the relationship, and if the association relationship between the two parameter names is a relationship, it is explained that the parameter value of one parameter name affects the parameter value of the other parameter name, and if the association relationship between the two parameter names is an unrelated relationship, it is explained that the parameter value of one parameter name does not affect the parameter value of the other parameter name.

In step S4, the step of processing the component information and the parameter information corresponding to the special demand point according to the special coping rule to obtain coping information corresponding to each special demand point includes:

s41, judging whether the parameter value of each first parameter name is a default value or not in a plurality of parameter information corresponding to the special demand point;

s42, if yes, the first parameter name is marked as a second parameter name, and if not, the first parameter name is marked as a third parameter name;

s43, sequentially selecting a fourth parameter name from a plurality of third parameter names, recording the third parameter name which has a relation with the fourth parameter name as a fifth parameter name, processing the fourth parameter name and the parameter value thereof according to a preset range rule to obtain a parameter range of the fifth parameter name, judging whether the parameter value of the fifth parameter name is in a corresponding parameter range, wherein the range rule comprises setting the parameter range of the parameter name associated with the target parameter according to the parameter value of the target parameter name;

S44, if not, setting the response information as the response information which cannot be responded to, and obtaining the response information corresponding to the special demand point;

s45, if so, judging whether a third parameter name with a relation with the second parameter name exists in the plurality of third parameter names, and if so, modifying the parameter value of the second parameter name into a parameter range of the second parameter name according to the parameter value of the third parameter name with the relation with the second parameter name, wherein the relation with the second parameter name exists in the third parameter names;

s46, for each part name associated with the special requirement point, executing the step a and/or executing the step b;

the step a specifically comprises the following steps: obtaining the model data which accords with the parameter values corresponding to the first parameter names according to the first parameter names associated with the component names in the scheme database, and modifying the model parameters in the response information into the obtained model data;

the step b specifically comprises the following steps: and setting the size parameter in the response information as the associated parameter name and the parameter value of the associated parameter name to obtain the response information corresponding to the special demand point.

In step S41, there may be a plurality of first parameter names associated with the special requirement point, but not every first parameter name needs to be input with a parameter value by a user, the user only needs to input a basic parameter, but the user does not input a first parameter name of the parameter value, and a preset default value may be input, where the default value may be a standard parameter range corresponding to the first parameter name, and the user does not input a corresponding parameter value, that is, indicates that the first parameter name may adopt any parameter value in the varistor parameter range, and in a plurality of corresponding parameter information, for each first parameter name, it is determined whether the parameter value of the first parameter name is the default value to find the first parameter name of the parameter value input by the user.

In the step S42, the first parameter name whose parameter value is the default value is marked as the second parameter name, and the first parameter name whose parameter value is the parameter value input by the user is marked as the third parameter name, so as to facilitate the subsequent determination of whether the parameter value input by the user is valid or not and whether the corresponding can be performed.

In the step S43, a third parameter name is selected from the plurality of third parameter names as a fourth parameter name, and a third parameter name having a relation with the fourth parameter name in the plurality of third parameter names is marked as a fifth parameter name, and then the fourth parameter name and the parameter value thereof are processed according to a preset range rule to obtain a parameter range of the fifth parameter name, and then whether the parameter value of the fifth parameter name is within the obtained parameter range of the fifth parameter name is determined, namely whether the special demand point can be dealt with or not is determined. The preset range rule comprises setting a parameter range of a parameter name associated with a target parameter according to a parameter value of the target parameter name, for example, a parameter value of a hoistway width is a, a parameter range of a car width is [900, a-400] obtained by the range rule, and a-400 is less than or equal to 2200; or the car width parameter value is b, and the hoistway width parameter range obtained by the range rule is [ b+400, 3000].

In the step S44, if the parameter value of the fifth parameter name is not within the obtained parameter range of the fifth parameter name, it is indicated that the parameter value of the fifth parameter name is beyond the coping parameter range, so that the special demand point cannot cope with the parameter, that is, there is no coping scheme, and coping information corresponding to the special demand point is set as being unable to cope with the parameter value of the fourth parameter name or the parameter value of the fifth parameter name needs to be modified.

In the step S45, if the parameter value of the fifth parameter name is within the obtained parameter range of the fifth parameter name, it is indicated that the special requirement point can be dealt with, but the second parameter name will generally have an association relationship with the third parameter name, so if it is determined that the third parameter name related to the association relationship of the second parameter name exists in the plurality of third parameter names, the parameter value of the second parameter name needs to be adjusted according to the parameter value of the third parameter name input by the user, and if not, the parameter value of the second parameter name is kept as the default parameter value.

In the above step S46, for each component name associated with a specific demand point, since the component parameter corresponding to the component name may be a model parameter, a size parameter, or both a model parameter and a size parameter, step a and/or step b is performed as needed to obtain the component parameter corresponding to the component name, thereby obtaining the coping information corresponding to the specific demand point.

In the step a, the solution database includes a plurality of model data corresponding to each component name and a parameter range of a plurality of parameter names corresponding to each model data, so that the model data conforming to the model data is found in the solution database according to the first parameter name associated with the component name and the parameter value corresponding to the first parameter name, and the model parameters in the corresponding response information corresponding to the special requirement point are modified into the model data.

In the step b, the size parameter is associated with the parameter name, so that the size parameter in the response information corresponding to the special demand point is directly set as the parameter value of the associated parameter name and the associated parameter name.

Further, the component names are associated with type information including model type, size type, and common type, and in step S46, the step of performing step a and/or step b includes, for each component name associated with a special demand point:

s461, for each part name associated with the special requirement point, acquiring type information associated with the part name and judging;

s462, if the type information associated with the component name is a model type, executing the step a;

s463, if the type information associated with the component name is a size type, executing the step b;

S464, if the type information associated with the component name is the common type, executing the step a and the step b.

In the above steps S461 to S464, the type information is associated in advance for each component name, and if the type information associated with the component name is a model type, it is indicated that the component parameter corresponding to the component name is a model parameter, so that step a is performed, and the obtained handling information is the component name and the model parameter corresponding to the component name, such as the guide rail, the model a. If the type information associated with the component name is a size type, it is explained that the component parameter corresponding to the component name is a size parameter, so the step b is performed, and the obtained response information is the component name and the size parameter corresponding to the component name, such as hoistway, width 1000. If the type information associated with the component names is the common type, the component parameters corresponding to the component names are the model parameters and the size parameters, and the step a and the step B are executed, and the obtained response information is the model parameters and the size parameters corresponding to the name names and the component names, such as the fireproof door, the model B and the door width 500.

In the step S5, the price database is pre-entered with the price added for different final solutions, the price added is the difference between the final solution and the standard solution in the standard size configuration, and in all solutions, there may be solutions where the solutions cross each other, so all solutions are processed according to the integration rule, and after obtaining several final solutions, the price added for each final solution is directly obtained in the price database according to the final solutions, and the obtained price added is superimposed and summarized to obtain the total special price, that is, the price that needs to be increased for several special demand points relative to the standard size configuration is obtained.

Further, in step S5, the step of integrating all the solutions according to the integration rule to obtain a plurality of final solutions includes:

s51, dividing the solutions with the same part names into one solution group to obtain a plurality of solution groups;

s52, dividing the size parameters containing the same parameter names into one size parameter group for a plurality of corresponding schemes in the same corresponding scheme group to obtain a plurality of size parameter groups;

s53, for a plurality of size parameters of the same size parameter group, carrying out set intersection operation on parameter values contained in the plurality of size parameters to obtain a final size parameter, and replacing the corresponding plurality of size parameters with the obtained final size parameter to obtain a plurality of final response schemes.

In the above steps S51 to S53, in all the countermeasures, the same component name is related to the same component, so the countermeasures with the same component name are divided into one countermeasure group, and in the several countermeasures of the same countermeasure group, the same parameter of the same component is related to the same parameter name, so the parameter of the same parameter name is divided into one parameter group, the parameter values included in the several parameter groups are subjected to the collective cross operation to obtain the final parameter, the parameter value of the final parameter accords with the parameter range of the same parameter name, and according to the parameter name included in the final parameter, the repeated countermeasures are deleted after replacing the corresponding several parameter names of the same parameter name with the obtained final parameter, and finally the several final countermeasures are obtained. For example, the solution a includes a width [700, 3000] corresponding to the hoistway and the hoistway, the solution B includes a width [600, 2000] corresponding to the hoistway and the hoistway, and the parameter values of the two are calculated to obtain a width [700, 2000] by combining them, and the final solution C includes a width [700, 2000] corresponding to the hoistway and the hoistway.

In the step S6, a plurality of final solutions, total special prices, first special demand points and corresponding solutions are displayed and output to the user, so that the user can confirm the solutions and the total special prices. The whole process does not need human intervention, reduces the information circulation of each subsequent department, and realizes the full-automatic treatment of special demand points of users, thereby improving treatment efficiency, being beneficial to quickly determining modification cost change, obtaining quotation of contract modification, promoting the determination of a special field scheme, accelerating the completion of contract modification, shortening the confirmation time of contract modification and reducing economic loss caused by field engineering delay.

Further, in step S6, after the step of displaying and outputting the plurality of final solutions, the total special price, the first special demand point, and the response information corresponding to the first special demand point to the user, the method further includes:

s7, for each first special demand point, displaying and outputting the fourth parameter name and the fifth parameter name of the first special demand point to a user;

s8, detecting whether a signal for modifying the parameter value corresponding to the fourth parameter name by the user is received or not, and/or detecting whether a signal for modifying the parameter value corresponding to the fifth parameter name by the user is received or not;

And S9, if so, replacing the old parameter value corresponding to the fourth parameter name with the new parameter value of the fourth parameter name input by the user, and/or replacing the old parameter value corresponding to the fifth parameter name with the new parameter value of the fifth parameter name input by the user, and repeating the steps S4 to S6.

In the steps S7 to S9, the first special demand point cannot deal with the first special demand point because of the problem of the input parameter, so that the problematic fourth parameter name and fifth parameter name are displayed and output to the user to see if the user will modify the parameter value of the fourth parameter name and/or the fifth parameter name, if the user modifies the parameter value of the fourth parameter name and/or the fifth parameter name, the new parameter value of the fourth parameter name input by the user is replaced with the old parameter value corresponding to the fourth parameter name, and/or the new parameter value of the fifth parameter name input by the user is replaced with the old parameter value corresponding to the fifth parameter name, and then steps S4 to S6 are repeated to process the special demand point to see if the deal with the special demand point can be obtained.

Referring to fig. 2 in combination, fig. 2 is a schematic block diagram of an apparatus for determining a particular elevator plan according to the present invention. The invention also provides a device for determining the special scheme of the elevator, which comprises the following steps:

The receiving module 1 is used for receiving a plurality of special demand points input by a user;

the obtaining module 2 is configured to obtain, for each special demand point, a plurality of parameter names and a plurality of component names associated with the special demand point in a preset scheme database, and mark the obtained plurality of parameter names as first parameter names, where the scheme database at least includes a plurality of special demand points, a plurality of parameter names and a plurality of component names, and each special demand point is associated with a plurality of parameter names and a plurality of component names;

the first display module 3 is configured to display and output a plurality of first parameter names to a user, receive input parameter values of each first parameter name, and combine the first parameter names and the parameter values corresponding to the first parameter names into parameter information to obtain a plurality of parameter information of each special demand point;

the processing module 4 is configured to process, for each special demand point, a plurality of component names and a plurality of parameter information corresponding to the special demand point according to a special handling rule, obtain handling information corresponding to each special demand point, and mark, as a first special demand point, a special demand point for which handling information is unable to handle, where the handling information includes a plurality of handling schemes or unable to handle, and the handling schemes include component names and component parameters corresponding to the component names;

The integrating module 5 is used for integrating all the solutions according to the integrating rule to obtain a plurality of final solutions, obtaining the price of each final solution in a preset price database, and summarizing the obtained price to obtain a total special price, wherein the price database at least comprises the price of different final solutions;

and the output module 6 is used for displaying and outputting a plurality of final response schemes, the total special price, the first special demand point and response information corresponding to the first special demand point to the user.

And a plurality of special demand points are input in advance and displayed on the receiving module 1, and when a user inputs the special demand points, the corresponding special demand points are directly checked on the receiving module 1. The special requirement points may relate to special functions such as face recognition, two-dimensional code riding, etc., or to parts that are special such as control surfaces, buttons, or guide rails.

The scheme database is pre-recorded with a plurality of special requirement points, a plurality of parameter names and a plurality of component names, each special requirement point is associated with a plurality of parameter names and a plurality of component names, the parameter names associated with the special requirement points are parameter names which need to be known for the special requirement, and the component names associated with the special requirement points are components which need to be replaced relative to the standard elevator configuration. After the acquisition module 2 acquires a plurality of parameter names in the scheme database, the acquired parameter names are marked as first parameter names, so that the parameter names are conveniently and subsequently output to a user to be filled with parameter values.

The first display module 3 deletes all the obtained first parameter names, and displays and outputs the first parameter names to the user, so that the user can provide corresponding parameter values according to the output first parameter names, and if the user does not input the first parameter names of the parameter values, the first parameter names are input according to default parameter values, and the default parameter values are parameter ranges.

The processing module 4 processes the component names and the parameter information corresponding to each special demand point according to the special response rule to obtain response information corresponding to each special demand point, and the parameter information corresponding to the special demand point is obtained according to the parameter value input by the user, so that some special demand points can not be subjected to special response, if the special demand point can be subjected to non-standard response, the obtained response information is a plurality of response schemes, and if the special demand point can not be subjected to response, the obtained response information is not subjected to response.

Further, an association relation between the parameter names is pre-established, the association relation between the parameter names is a relation or an irrelevant relation, for each parameter name, the parameter name is correspondingly associated with a component name, the component parameter comprises at least one of a model parameter or a specification size, the specification size at least comprises a size parameter, the size parameter is associated with the parameter name, and the scheme database further comprises a plurality of model data corresponding to each component name and a parameter range of a plurality of parameter names corresponding to each model data;

In elevator design, the parameter value of one parameter name of an elevator may affect the parameter value of another parameter name, for example, the size of a hoistway may affect the size of a car, so that an association relationship between the parameter names is pre-established according to the relationship, and if the association relationship between the two parameter names is a relationship, it is explained that the parameter value of one parameter name affects the parameter value of the other parameter name, and if the association relationship between the two parameter names is an unrelated relationship, it is explained that the parameter value of one parameter name does not affect the parameter value of the other parameter name.

The processing module 4 includes:

the first judging sub-module is used for judging whether the parameter value of each first parameter name is a default value or not in the plurality of parameter information corresponding to the special demand point;

the marking sub-module is used for marking the first parameter name as a second parameter name if the judging result of the judging sub-module is yes, and marking the first parameter name as a third parameter name if the judging result of the judging sub-module is no;

a second judging sub-module, configured to sequentially select a fourth parameter name from a plurality of third parameter names, record a third parameter name related to the fourth parameter name as a fifth parameter name, process the fourth parameter name and a parameter value thereof according to a preset range rule, obtain a parameter range of the fifth parameter name, and judge whether the parameter value of the fifth parameter name is in a corresponding parameter range, where the range rule includes setting a parameter range of the parameter name related to the target parameter according to the parameter value of the target parameter name;

The setting sub-module is used for setting the response information as the response information which cannot be processed if the judging result of the second judging sub-module is negative, and obtaining the response information corresponding to the special demand point;

the modifying sub-module is used for judging whether a third parameter name which has a relation with the second parameter name exists in the plurality of third parameter names for each second parameter name if the judging result of the second judging sub-module is yes, and modifying the parameter value of the second parameter name into a parameter range of the second parameter name according to the relation with the second parameter name, wherein the relation with the second parameter name is the parameter value of the third parameter name;

an execution sub-module, configured to execute, for each component name associated with a special requirement point, a first setting unit and/or a second setting unit;

a first setting unit, configured to obtain model data according to a first parameter name associated with a component name and a parameter value corresponding to the first parameter name in the scheme database, and modify the model parameter in the response information into the obtained model data;

and the first setting unit is used for setting the size parameter in the response information as the associated parameter name and the parameter value of the associated parameter name to obtain the response information corresponding to the special demand point.

The method comprises the steps that a plurality of first parameter names associated with special requirement points possibly exist, but not every first parameter name needs to be input by a user, the user only needs to input basic parameters, the user does not input the first parameter name of the parameter values, preset default values are input, the default values can be standard parameter ranges corresponding to the first parameter names, the user does not input corresponding parameter values to indicate that the first parameter names can adopt any parameter value in a variable resistance parameter range, and in a plurality of corresponding parameter information, for each first parameter name, a first judging submodule judges whether the parameter value of the first parameter name is the default value or not, and the first parameter name of the parameter value input by the user is found.

The marking sub-module marks the first parameter name with the parameter value being a default value as a second parameter name, marks the first parameter name with the parameter value being the parameter value input by the user as a third parameter name, and is convenient for judging whether the parameter value input by the user is valid or not and whether the corresponding operation can be performed or not.

The second judging sub-module selects a third parameter name from a plurality of third parameter names as a fourth parameter name, marks the third parameter name which has a relation with the fourth parameter name in the plurality of third parameter names as a fifth parameter name, processes the fourth parameter name and the parameter value thereof according to a preset range rule to obtain a parameter range of the fifth parameter name, and then judges whether the parameter value of the fifth parameter name is in the obtained parameter range of the fifth parameter name, namely whether the special demand point can be dealt with or not. The preset range rule comprises setting a parameter range of a parameter name associated with a target parameter according to a parameter value of the target parameter name, for example, a parameter value of a hoistway width is a, a parameter range of a car width is [900, a-400] obtained by the range rule, and a-400 is less than or equal to 2200; or the car width parameter value is b, and the hoistway width parameter range obtained by the range rule is [ b+400, 3000].

If the parameter value of the fifth parameter name is not in the obtained parameter range of the fifth parameter name, it is indicated that the parameter value of the fifth parameter name exceeds the coping parameter range, so that the special demand point cannot cope with the parameter, that is, there is no coping scheme, and the setting sub-module sets coping information corresponding to the special demand point as being unable to cope with the parameter value of the fourth parameter name or the parameter value of the fifth parameter name needs to be modified.

If the parameter value of the fifth parameter name is within the obtained parameter range of the fifth parameter name, the special requirement point can be indicated to deal with, and the second parameter name generally has an association relationship with the third parameter name, so if the modification submodule judges that the association relationship with the second parameter name exists in the plurality of third parameter names as the third parameter name with the relationship, the parameter value of the second parameter name needs to be adjusted according to the parameter value of the third parameter name input by the user, and if the parameter value of the second parameter name does not exist, the parameter value of the second parameter name is kept as a default parameter value.

For each component name associated with the special requirement point, because the component parameter corresponding to the component name may be a model parameter, a size parameter, or both the model parameter and the size parameter, the execution submodule executes the first setting unit and/or the second setting unit according to the need to obtain the component parameter corresponding to the component name, thereby obtaining the coping information corresponding to the special requirement point.

The scheme database comprises a plurality of model data corresponding to each component name and a parameter range of a plurality of parameter names corresponding to each type data, so that the first setting unit finds out the model data which accords with the parameter values corresponding to the first parameter names in the scheme database according to the first parameter names associated with the component names, and modifies the model parameters in the corresponding response information of the special requirement points into the model data.

The size parameter is associated with a parameter name, so the second setting unit directly sets the size parameter in the response information corresponding to the special demand point as the parameter value of its associated parameter name and its associated parameter name.

Further, the component name is associated with type information, the type information includes a model type, a size type, and a common type, and the execution submodule includes:

the judging unit is used for acquiring and judging the type information associated with the part names for each part name associated with the special requirement point;

the first execution unit is used for executing the first setting unit if the type information associated with the part names is a model type;

a second execution unit configured to execute the second setting unit if the type information associated with the component name is a size type;

And the third execution unit is used for executing the first setting unit and the second setting unit if the type information associated with the part names is of a common type.

And if the judging unit judges that the type information associated with the component names is a model type, the component parameters corresponding to the component names are model parameters, so that the first executing unit executes the first setting unit, and the obtained response information is the component names and the model parameters corresponding to the component names, such as a guide rail and a model A. If the judging unit judges that the type information associated with the component name is a dimension type, the component parameter corresponding to the component name is a dimension parameter, so that the second executing unit executes the second setting unit, and the obtained response information is the component name and the dimension parameter corresponding to the component name, such as a hoistway and a width 1000. If the judging unit judges that the type information associated with the component names is the common type, the third executing unit executes the first setting unit and the second setting unit to obtain corresponding information, namely the type parameters and the size parameters corresponding to the name names and the component names, such as the fireproof door, the type B and the door width 500.

The price database is pre-recorded with the price of different final solutions, the price is the difference between the final solution and the standard solution in the standard size configuration, and in all solutions, there may be solutions with the solutions crossing each other, so the integration module 5 processes all solutions according to the integration rule, obtains a plurality of final solutions, directly obtains the price of each final solution according to the final solution in the price database, and adds and sums the obtained price to obtain the total special price, namely, the price that needs to be increased for a plurality of special demand points relative to the standard size configuration.

Further, the integration module 5 includes:

a first dividing unit for dividing the solutions with the same part names into one solution group to obtain a plurality of solution groups;

the second dividing unit is used for dividing the size parameters containing the same parameter name into one size parameter group for a plurality of corresponding schemes in the same corresponding scheme group to obtain a plurality of size parameter groups;

and the calculating unit is used for carrying out set intersection operation on the parameter values contained in the plurality of size parameters for the plurality of size parameters of the same size parameter group to obtain a final size parameter, and replacing the corresponding plurality of size parameters with the obtained final size parameter to obtain a plurality of final response schemes.

In all the solutions, the solutions with the same component names are related to the same component, so the first dividing unit divides the solutions with the same component names into one solution group, and in the solutions with the same solution group, the second dividing unit divides the solution parameters with the same parameter names into one solution parameter group, the calculating unit performs the collective cross operation on the parameter values contained in the solution parameters to obtain the final solution parameters, the parameter values of the final solution parameters conform to the parameter ranges of the same parameter names, and the repeated solutions are deleted after the corresponding solution parameters with the same parameter names are replaced by the obtained final solution parameters according to the parameter names contained in the final solution parameters, so as to finally obtain the final solution solutions. For example, the solution a includes a width [700, 3000] corresponding to the hoistway and the hoistway, the solution B includes a width [600, 2000] corresponding to the hoistway and the hoistway, and the parameter values of the two are calculated to obtain a width [700, 2000] by combining them, and the final solution C includes a width [700, 2000] corresponding to the hoistway and the hoistway.

The output module 6 displays and outputs a plurality of final response schemes, total special prices, first special demand points and response information corresponding to the first special demand points to the user, so that the user can confirm the response schemes and the total special prices. The whole process does not need human intervention, reduces the information circulation of each subsequent department, and realizes the full-automatic treatment of special demand points of users, thereby improving treatment efficiency, being beneficial to quickly determining modification cost change, obtaining quotation of contract modification, promoting the determination of a special field scheme, accelerating the completion of contract modification, shortening the confirmation time of contract modification and reducing economic loss caused by field engineering delay.

Further, the device for determining the special scheme of the elevator of the invention further comprises:

the second display module is used for displaying and outputting the fourth parameter name and the fifth parameter name of each first special demand point to a user;

the detection module is used for detecting whether a signal for modifying the parameter value corresponding to the fourth parameter name by a user is received or not and/or detecting whether a signal for modifying the parameter value corresponding to the fifth parameter name by the user is received or not;

and the repetition module is used for replacing the old parameter value corresponding to the fourth parameter name with the new parameter value of the fourth parameter name input by the user and/or replacing the old parameter value corresponding to the fifth parameter name with the new parameter value of the fifth parameter name input by the user if the detection result of the detection module is yes, and repeating the processing module 4, the integration module 5 and the output module 6.

The first special demand point cannot deal with the first special demand point due to the fact that the input parameters are problematic, so that the second display module displays and outputs the problematic fourth parameter name and fifth parameter name to the user, the detection module detects whether the user modifies the parameter values of the fourth parameter name and/or the fifth parameter name, if the user modifies the parameter values of the fourth parameter name and/or the fifth parameter name, the repetition module replaces the old parameter value corresponding to the fourth parameter name with the new parameter value of the fourth parameter name input by the user, and/or replaces the old parameter value corresponding to the fifth parameter name with the new parameter value of the fifth parameter name input by the user, and the processing module 4, the integration module 5 and the output module 6 are repeated to process the special demand point to see whether the coping scheme of the special demand point can be obtained.

Referring to fig. 3 in combination, fig. 3 is a schematic block diagram illustrating an embodiment of an electronic device according to the present invention. An embodiment of the present invention further proposes an electronic device 1001, including a memory 1003 and a processor 1002, the memory 1003 storing a computer program 1004, the processor 1002 executing the computer program 1004 to implement the steps of any one of the above sound source localization methods, including: receiving a plurality of special demand points input by a user; for each special demand point, acquiring a plurality of parameter names and a plurality of component names associated with the special demand point in a preset scheme database, marking the acquired plurality of parameter names as first parameter names, wherein the scheme database at least comprises a plurality of special demand points, a plurality of parameter names and a plurality of component names, and each special demand point is associated with a plurality of parameter names and a plurality of component names; displaying and outputting a plurality of first parameter names to a user, receiving input parameter values of each first parameter name, combining the first parameter names and the parameter values corresponding to the first parameter names into parameter information, and obtaining a plurality of parameter information of each special demand point; for each special demand point, processing a plurality of component names and a plurality of parameter information corresponding to the special demand point according to a special coping rule to obtain coping information corresponding to each special demand point, marking the special demand point which is not coping with the coping information as a first special demand point, wherein the coping information comprises a plurality of coping schemes or is not coping with the coping schemes, and the coping schemes comprise component names and component parameters corresponding to the component names; integrating all the solutions according to an integration rule to obtain a plurality of final solutions, obtaining the price of each final solution in a preset price database, and summarizing the obtained price to obtain a total special price, wherein the price database at least comprises the price of different final solutions; and displaying and outputting the plurality of final response schemes, the total special price, the first special demand point and the response information corresponding to the first special demand point to the user.

Referring to fig. 4 in combination, fig. 4 is a schematic block diagram illustrating the structure of an embodiment of a computer readable storage medium according to the present invention. An embodiment of the present invention further provides a computer-readable storage medium 2001 having stored thereon a computer program 1004, the computer program 1004, when executed by the processor 1002, performing the steps of any one of the above-mentioned sound source localization methods, comprising: receiving a plurality of special demand points input by a user; for each special demand point, acquiring a plurality of parameter names and a plurality of component names associated with the special demand point in a preset scheme database, marking the acquired plurality of parameter names as first parameter names, wherein the scheme database at least comprises a plurality of special demand points, a plurality of parameter names and a plurality of component names, and each special demand point is associated with a plurality of parameter names and a plurality of component names; displaying and outputting a plurality of first parameter names to a user, receiving input parameter values of each first parameter name, combining the first parameter names and the parameter values corresponding to the first parameter names into parameter information, and obtaining a plurality of parameter information of each special demand point; for each special demand point, processing a plurality of component names and a plurality of parameter information corresponding to the special demand point according to a special coping rule to obtain coping information corresponding to each special demand point, marking the special demand point which is not coping with the coping information as a first special demand point, wherein the coping information comprises a plurality of coping schemes or is not coping with the coping schemes, and the coping schemes comprise component names and component parameters corresponding to the component names; integrating all the solutions according to an integration rule to obtain a plurality of final solutions, obtaining the price of each final solution in a preset price database, and summarizing the obtained price to obtain a total special price, wherein the price database at least comprises the price of different final solutions; and displaying and outputting the plurality of final response schemes, the total special price, the first special demand point and the response information corresponding to the first special demand point to the user.

Compared with the prior art, the invention has the beneficial effects that: through receiving a plurality of special demand points input by a user, after determining parameters required to be provided by the user according to the special demand points, receiving parameter values input by the user, obtaining a coping scheme of each special demand point through a preset special coping rule, integrating all coping schemes according to an integration rule to obtain a final coping scheme, summarizing the added price of each final coping scheme in a price database to obtain a total special price, and finally outputting the coping scheme and the total special price to the user for confirmation, wherein human intervention is not needed in the whole process, information circulation of each subsequent department is reduced, full-automatic coping of the special demand points of the user is realized, thereby improving coping efficiency, being beneficial to quickly determining modification cost change, obtaining quotations of contract modification, promoting determination of the field special scheme, accelerating contract modification completion, shortening contract modification confirmation time and reducing economic losses caused by field engineering delay.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium provided herein and used in embodiments may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), dual speed data rate SDRAM (SSRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, apparatus, article, or method that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, apparatus, article, or method. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, apparatus, article or method that comprises the element.

The present invention is not limited to the above-described embodiments, but, if various modifications or variations of the present invention are not departing from the spirit and scope of the present invention, the present invention is intended to include such modifications and variations as fall within the scope of the claims and the equivalents thereof. .

Claims (7)

1. The method for determining the special scheme of the elevator is characterized in that an association relation among parameter names is established in advance, the association relation among the parameter names is a relation or an irrelevant relation, and for each parameter name, a component name is correspondingly associated with the parameter name; the method comprises the following steps:

S1, receiving a special demand point input by a user;

s2, for each special demand point, acquiring a parameter name and a component name associated with the special demand point from a preset scheme database, marking the acquired parameter name as a first parameter name, wherein the scheme database at least comprises a plurality of special demand points, a plurality of parameter names and a plurality of component names, model data corresponding to the component names and parameter ranges of the parameter names corresponding to the data of each type, and each special demand point is associated with the parameter name and the component name;

s3, displaying and outputting the first parameter names to a user, receiving parameter values of each first parameter name input by the user, and combining the first parameter names and the parameter values corresponding to the first parameter names into parameter information to obtain the parameter information of each special demand point;

s4, for each special demand point, processing the component name and parameter information corresponding to the special demand point according to a special coping rule to obtain coping information corresponding to each special demand point, and marking the coping information as a special demand point incapable of coping as a first special demand point, wherein the coping information comprises a coping scheme or a coping incapable of coping, the coping scheme comprises a component parameter corresponding to the component name and the component name, the component parameter comprises at least one of a model parameter or a specification size, the specification size at least comprises one size parameter, and the size parameter is associated with a parameter name;

S5, integrating all the corresponding schemes according to an integration rule to obtain final corresponding schemes, obtaining the price adding price of each final corresponding scheme in a preset price database, and summarizing the obtained price adding price to obtain a total special price, wherein the price database at least comprises the price adding prices of different final corresponding schemes;

s6, displaying and outputting the final response scheme, the total price, the first special demand point and the response information corresponding to the first special demand point to a user;

the step of processing the component information and the parameter information corresponding to the special requirement points according to the special requirement rules to obtain the corresponding requirement information of each special requirement point comprises the following steps:

s41, judging whether the parameter value of each first parameter name is a default value or not in the parameter information corresponding to the special demand point;

s42, if yes, the first parameter name is marked as a second parameter name, and if not, the first parameter name is marked as a third parameter name;

s43, sequentially selecting a fourth parameter name from the third parameter names, recording the third parameter name which has a relation with the fourth parameter name as a fifth parameter name, processing the fourth parameter name and the parameter value thereof according to a preset range rule to obtain a parameter range of the fifth parameter name, and judging whether the parameter value of the fifth parameter name is in a corresponding parameter range, wherein the range rule comprises setting the parameter range of the parameter name associated with the target parameter according to the parameter value of the target parameter name;

S44, if not, setting the response information as the response information which cannot be responded to, and obtaining the response information corresponding to the special demand point;

s45, if so, judging whether a third parameter name with a relation with the second parameter name exists in the third parameter names, and if so, modifying the parameter value of the second parameter name into a parameter range of the second parameter name according to the parameter value of the third parameter name with the relation with the second parameter name, wherein the relation with the second parameter name exists in the third parameter names;

s46, for each part name associated with the special requirement point, executing the step a and/or executing the step b;

the step a specifically comprises the following steps: obtaining the model data which accords with the parameter values corresponding to the first parameter names according to the first parameter names associated with the component names in the scheme database, and modifying the model parameters in the response information into the obtained model data;

the step b specifically comprises the following steps: and setting the size parameter in the response information as the associated parameter name and the parameter value of the associated parameter name to obtain the response information corresponding to the special demand point.

2. The method of determining a specific elevator solution according to claim 1, wherein the step of integrating all the solutions according to an integration rule to obtain a final solution comprises:

Dividing the solutions with the same part names into a solution group to obtain a solution group;

for the solutions in the same solution group, dividing the size parameters containing the same parameter name into one size parameter group to obtain a size parameter group;

and for the size parameters of the same size parameter group, performing set intersection operation on parameter values contained in the size parameters to obtain final size parameters, and replacing corresponding size parameters with the obtained final size parameters to obtain the final response scheme.

3. Method of determining a special solution for an elevator according to claim 1, characterized in that the component names are associated with type information, which type information comprises a model type, a size type and a common type, and that the step of performing step a and/or step b comprises, for each component name associated with the special demand point:

for each part name associated with the special requirement point, acquiring type information associated with the part name and judging;

if the type information associated with the part name is a model type, executing the step a;

if the type information associated with the part name is a size type, executing the step b;

And if the type information associated with the component names is a common type, executing the step a and the step b.

4. The method of determining a special elevator solution according to claim 1, wherein after the step of outputting the final coping solution, the total added price, the first special demand point, and coping information display corresponding to the first special demand point to the user, the method further comprises:

for each first special demand point, displaying and outputting a fourth parameter name and a fifth parameter name of the first special demand point to a user;

detecting whether a signal for modifying a parameter value corresponding to the fourth parameter name by a user is received or not, and/or detecting whether a signal for modifying a parameter value corresponding to the fifth parameter name by the user is received or not;

if yes, replacing the old parameter value corresponding to the fourth parameter name with the new parameter value of the fourth parameter name input by the user, and/or replacing the old parameter value corresponding to the fifth parameter name with the new parameter value of the fifth parameter name input by the user, and repeating the steps S4 to S6.

5. An apparatus for determining a particular solution for an elevator, comprising:

the receiving module is used for receiving the special requirement points input by the user;

The system comprises an acquisition module, a processing module and a processing module, wherein the acquisition module is used for acquiring a parameter name and a component name associated with the special demand point in a preset scheme database for each special demand point, marking the acquired parameter name as a first parameter name, the scheme database at least comprises a plurality of special demand points, a plurality of parameter names and a plurality of component names, model data corresponding to the component names and parameter ranges of the parameter names corresponding to the data of each type, and each special demand point is associated with the parameter name and the component name;

the first display module is used for displaying and outputting the first parameter names to a user, receiving parameter values of each first parameter name input by the user, combining the first parameter names and the parameter values corresponding to the first parameter names into parameter information, and obtaining the parameter information of each special demand point;

the processing module is used for processing the component name and parameter information corresponding to the special demand point according to a special coping rule for each special demand point to obtain coping information corresponding to each special demand point, marking the coping information as a special demand point incapable of coping with the coping information as a first special demand point, wherein the coping information comprises a coping scheme or a coping incapable of coping with the coping scheme, the coping scheme comprises a component parameter corresponding to the component name and the component name, the component parameter comprises at least one of a model parameter or a specification size, the specification size at least comprises one size parameter, and the size parameter is associated with a parameter name;

The integrating module is used for integrating all the corresponding schemes according to an integrating rule to obtain final corresponding schemes, obtaining the price adding price of each final corresponding scheme in a preset price database, and summarizing the obtained price adding price to obtain a total special price, wherein the price database at least comprises the price adding prices of different final corresponding schemes;

the output module is used for displaying and outputting the final response scheme, the total price, the first special demand point and the response information corresponding to the first special demand point to a user;

wherein the processing module comprises:

the first judging sub-module is used for judging whether the parameter value of each first parameter name is a default value or not in the parameter information corresponding to the special demand point;

the marking sub-module is used for marking the first parameter name as a second parameter name if the judging result of the judging sub-module is yes, and marking the first parameter name as a third parameter name if the judging result of the judging sub-module is no;

a second judging sub-module, configured to sequentially select a fourth parameter name from the third parameter names, record the third parameter name related to the fourth parameter name as a fifth parameter name, process the fourth parameter name and the parameter value thereof according to a preset range rule, obtain a parameter range of the fifth parameter name, and judge whether the parameter value of the fifth parameter name is in a corresponding parameter range, where the range rule includes setting a parameter range of the parameter name related to the target parameter according to the parameter value of the target parameter name;

The setting sub-module is used for setting the response information as the response information which cannot be processed if the judging result of the second judging sub-module is negative, and obtaining the response information corresponding to the special demand point;

the modifying sub-module is used for judging whether a third parameter name with a relation with the second parameter name exists in the third parameter names according to each second parameter name if the judging result of the second judging sub-module is yes, and modifying the parameter value of the second parameter name into a parameter range of the second parameter name obtained by a range rule according to the parameter value of the third parameter name with the relation with the second parameter name if the third parameter name with the relation with the second parameter name exists;

an execution sub-module, configured to execute, for each component name associated with a special requirement point, a first setting unit and/or a second setting unit;

a first setting unit, configured to obtain model data according to a first parameter name associated with a component name and a parameter value corresponding to the first parameter name in the scheme database, and modify the model parameter in the response information into the obtained model data;

and the first setting unit is used for setting the size parameter in the response information as the associated parameter name and the parameter value of the associated parameter name to obtain the response information corresponding to the special demand point.

6. An electronic device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any of claims 1-4 when the computer program is executed.

7. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of any of claims 1-4.