CN112415660B - Optical fiber fusion tapering machine control method, device, equipment and readable storage medium - Google Patents

Abstract

The invention discloses a method, a device and equipment for controlling an optical fiber fusion tapering machine and a readable storage medium, wherein the method comprises the following steps: receiving a target tapering mode and a target tapering process configured on the basis of a tapering parameter configuration interface, wherein the selectable tapering modes in the tapering parameter configuration interface comprise a same-direction tapering mode, a reverse tapering mode and a single-side tapering mode; and controlling the optical fiber fused biconical taper machine to execute the target biconical taper process on the biconical taper object according to the target biconical taper mode. The invention realizes that a user can freely select different tapering modes for tapering according to the types of tapering products instead of only one tapering mode, thereby enabling the tapering system to be suitable for more types of tapering products.

Description

Optical fiber fusion tapering machine control method, device, equipment and readable storage medium

Technical Field

The invention relates to the technical field of optical fiber fused biconical taper, in particular to a control method, a device, equipment and a readable storage medium for an optical fiber fused biconical taper.

Background

The fusion tapering method is that two (or more) optical fibers with coating layers removed are closed by a certain method, are fused under high-temperature heating, are stretched towards two sides simultaneously, finally form a special waveguide structure in a biconical body form in a heating zone, and different light splitting ratios can be obtained by controlling the twisting angle and the stretching length of the optical fibers. However, most of the cone drawing machines on the market are in a single cone drawing mode, and can only be controlled to carry out reverse cone drawing.

Disclosure of Invention

The invention mainly aims to provide a control method, a device, equipment and a readable storage medium for an optical fiber fusion tapering machine, and aims to solve the technical problems that most tapering machines in the current market are in a single tapering mode, can only be controlled to perform reverse tapering, and are narrow in application range.

In order to achieve the above object, the present invention provides a method for controlling an optical fiber fusion biconical taper machine, comprising the steps of:

receiving a target tapering mode and a target tapering process configured on the basis of a tapering parameter configuration interface, wherein the selectable tapering modes in the tapering parameter configuration interface comprise a same-direction tapering mode, a reverse tapering mode and a single-side tapering mode;

and controlling the optical fiber fused biconical taper machine to execute the target biconical taper process on the biconical taper object according to the target biconical taper mode.

Optionally, when the target tapering process is in the equidirectional tapering mode, the step of controlling the optical fiber fused tapering machine to execute the target tapering process on the tapering object according to the target tapering mode includes:

and controlling the optical fiber fusion tapering machine to move the left clamp and the right clamp in the same direction when executing the target tapering process so as to taper the tapering object.

Optionally, when the target tapering process is in a reverse tapering mode, the step of controlling the optical fiber fused tapering machine to perform the target tapering process on the tapering object according to the target tapering mode includes:

and controlling the left clamp and the right clamp to move in opposite directions when the optical fiber fusion tapering machine executes the target tapering process so as to taper the tapering object.

Optionally, when the target tapering process is in the single-sided tapering mode, the step of controlling the optical fiber fusion tapering machine to perform the target tapering process on the tapering object according to the target tapering mode includes:

and controlling one clamp of the left clamp and the right clamp to be fixed when the optical fiber fusion tapering machine executes the target tapering process, and moving the other clamp in a preset direction to taper the tapering object.

Optionally, before the step of controlling the optical fiber fused biconical taper machine to perform the target biconical taper process on the biconical taper object according to the target biconical taper mode, the method further includes:

receiving fixture movement acceleration in the target tapering process based on the tapering parameter configuration interface configuration;

the step of controlling the optical fiber fused biconical taper machine to execute the target biconical taper process on the biconical taper object according to the target biconical taper mode comprises the following steps:

and controlling the clamp to move according to the moving acceleration of the clamp when the optical fiber fused biconical taper machine executes the target biconical taper process according to the target biconical taper mode so as to perform biconical taper on the biconical taper object.

Optionally, the step of receiving a target tapering procedure configured based on the tapering parameter configuration interface includes:

receiving a product type selected based on a tapered parameter configuration interface;

and acquiring a tapering process corresponding to the product type from a database as a target tapering process.

Optionally, before the step of obtaining the tapering flow corresponding to the product type from the database as the target tapering flow, the method further includes:

receiving a new product type added on the basis of a tapering parameter configuration interface and tapering parameters corresponding to the new product type;

generating a tapering process corresponding to the new product type according to the tapering parameters;

and adding the new product type and the tapering flow association corresponding to the product type to the database.

In order to achieve the above object, the present invention also provides an optical fiber fusion-drawing machine control apparatus, comprising:

the system comprises a receiving module, a processing module and a display module, wherein the receiving module is used for receiving a target tapering mode and a target tapering process configured on the basis of a tapering parameter configuration interface, and selectable tapering modes in the tapering parameter configuration interface comprise a same-direction tapering mode, a reverse tapering mode and a single-side tapering mode;

and the control module is used for controlling the optical fiber fused biconical taper machine to execute the target biconical taper process on the biconical taper object according to the target biconical taper mode.

In order to achieve the above object, the present invention also provides an optical fiber fusion-drawing machine control apparatus, including: a memory, a processor, and a fiber fused biconical taper machine control program stored on the memory and executable on the processor, the fiber fused biconical taper machine control program when executed by the processor implementing the steps of the fiber fused biconical taper machine control method as described above.

Further, to achieve the above object, the present invention also provides a computer readable storage medium having stored thereon an optical fiber fusion-drawing machine control program, which when executed by a processor, implements the steps of the optical fiber fusion-drawing machine control method as described above.

In the invention, selectable tapering modes including a same-direction tapering mode, a reverse tapering mode and a single-side tapering mode are set in a tapering parameter configuration interface, a target tapering mode and a target tapering process configured on the basis of the tapering parameter configuration interface are received, and the optical fiber fusion tapering machine is controlled to execute the target tapering process on a tapering object according to the target tapering mode, so that a user can freely select different tapering modes for tapering according to the type of a tapering product instead of only one tapering mode, and the tapering system can adapt to more types of tapering products.

Drawings

FIG. 1 is a schematic diagram of a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of a first embodiment of the method for controlling an optical fiber fusion-drawing machine according to the present invention;

FIG. 3 is a schematic diagram of a configuration assembly for a taper mode in a taper parameter configuration interface;

FIG. 4 is a schematic view of a speed curve of a fixture of a tapering machine without acceleration parameters according to an embodiment of the present invention;

FIG. 5 is a schematic view of a velocity profile of a chuck of a tapering machine with acceleration parameters according to an embodiment of the present invention;

FIG. 6 is a functional block diagram of a control device for an optical fiber fusion-drawing machine according to a preferred embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, fig. 1 is a schematic device structure diagram of a hardware operating environment according to an embodiment of the present invention.

It should be noted that the optical fiber fused biconical taper machine control device in the embodiment of the present invention may be a smart phone, a personal computer, a server, and the like, and is not limited herein.

As shown in fig. 1, the optical fiber fusion-tapering machine control apparatus may include: a processor 1001, such as a CPU, a network interface 1004, a user interface 1003, a memory 1005, a communication bus 1002. The communication bus 1002 is used to implement connection communication among these components. The user interface 1003 may include a Display (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the apparatus configuration shown in FIG. 1 does not constitute a limitation of the optical fiber fusion biconical taper control apparatus, and may include more or fewer components than shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, a memory 1005, which is one type of computer storage medium, may include an operating system, a network communication module, a user interface module, and a fiber fuse-biconical machine control program. The operating system is a program for managing and controlling hardware and software resources of the equipment, and supports the operation of the optical fiber fusion-drawing machine control program and other software or programs. In the device shown in fig. 1, the user interface 1003 is mainly used for data communication with a client; the network interface 1004 is mainly used for establishing communication connection with a server; and the processor 1001 may be configured to invoke a fiber fusion tapering machine control program stored in the memory 1005 and perform the following operations:

receiving a target tapering mode and a target tapering process configured on the basis of a tapering parameter configuration interface, wherein the selectable tapering modes in the tapering parameter configuration interface comprise a same-direction tapering mode, a reverse tapering mode and a single-side tapering mode;

and controlling the optical fiber fused biconical taper machine to execute the target biconical taper process on the biconical taper object according to the target biconical taper mode.

Further, when the target tapering process is in the equidirectional tapering mode, the step of controlling the optical fiber fused tapering machine to execute the target tapering process on the tapering object according to the target tapering mode includes:

and controlling the optical fiber fusion tapering machine to move the left clamp and the right clamp in the same direction when executing the target tapering process so as to taper the tapering object.

Further, when the target tapering process is in a reverse tapering mode, the step of controlling the optical fiber fused tapering machine to perform the target tapering process on the tapering object according to the target tapering mode includes:

and controlling the left clamp and the right clamp to move in opposite directions when the optical fiber fusion tapering machine executes the target tapering process so as to taper the tapering object.

Further, when the target tapering process is in the single-side tapering mode, the step of controlling the optical fiber fused tapering machine to execute the target tapering process on the tapering object according to the target tapering mode includes:

and controlling one clamp of the left clamp and the right clamp to be fixed when the optical fiber fusion tapering machine executes the target tapering process, and moving the other clamp in a preset direction to taper the tapering object.

Further, before the step of controlling the fiber fused biconical taper machine to perform the target tapering procedure on the tapered object according to the target tapering mode, the processor 1001 may be further configured to call a fiber fused biconical taper machine control program stored in the memory 1005, and perform the following operations:

receiving fixture movement acceleration in the target tapering process based on the tapering parameter configuration interface configuration;

the step of controlling the optical fiber fused biconical taper machine to execute the target tapering process on the tapering object according to the target tapering mode comprises the following steps:

and controlling the clamp to move according to the moving acceleration of the clamp when the optical fiber fused biconical taper machine executes the target biconical taper process according to the target biconical taper mode so as to perform tapering on the biconical taper object.

Further, the step of receiving a target tapering process configured by the interface configuration based on the tapering parameters includes:

receiving a product type selected based on a tapered parameter configuration interface;

and acquiring a tapering process corresponding to the product type from a database as a target tapering process.

Further, before the step of obtaining the tapering process corresponding to the product type from the database as the target tapering process, the processor 1001 may be further configured to call a fiber fusion tapering machine control program stored in the memory 1005, and perform the following operations:

receiving a new product type added on the basis of a tapering parameter configuration interface and tapering parameters corresponding to the new product type;

generating a tapering process corresponding to the new product type according to the tapering parameters;

and adding the new product type and the tapering flow association corresponding to the product type to the database.

Based on the structure, various embodiments of the control method of the optical fiber fusion tapering machine are provided.

Referring to fig. 2, fig. 2 is a schematic flow chart of a first embodiment of the optical fiber fusion-drawing machine control method according to the present invention.

While a logical order is shown in the flow chart, in some cases, the steps shown or described may be performed in a different order than presented herein. The executing main body of each embodiment of the optical fiber fused biconical taper control method can be equipment such as a smart phone, a personal computer, a server and the like, and for convenience of description, the following embodiments take a tapering control system as the executing main body for explanation. In this embodiment, the optical fiber fusion-drawing machine control method includes:

step S10, receiving a target tapering mode and a target tapering process configured on the basis of a tapering parameter configuration interface, wherein the selectable tapering modes in the tapering parameter configuration interface comprise a same-direction tapering mode, a reverse tapering mode and a single-side tapering mode;

a tapering parameter configuration interface is arranged in the tapering control system, and the interface is a user interaction interface (UI) which can be used for a user to configure various tapering parameters. A plurality of selectable tapering modes are arranged in the tapering parameter configuration interface, and the selectable tapering modes can comprise a same-direction tapering mode, a reverse tapering mode and a single-side tapering mode. In other embodiments, the selectable tapering modes may also include other tapering modes. The reverse tapering mode is a mode that the left clamp and the right clamp taper in opposite directions in the tapering process, and is generally used for manufacturing common tapering products, and the tapered area formed by the reverse tapering is longer. The equidirectional tapering mode is for at the tapering in-process, and anchor clamps equidirectional removal carries out the mode of tapering about, generally is used for the tapering of single optic fibre, and in the equidirectional tapering mode, through setting up acceleration, the speed isoparametric of anchor clamps, can control the cone diameter that the tapering came out, and the cone length that the tapering came out is shorter than reverse tapering. The single-side tapering mode is a mode that one clamp does not move and the other clamp moves towards one direction to perform tapering in the tapering process, and is generally used for tapering of a single optical fiber.

The tapering parameter configuration interface further comprises a tapering flow configuration component, so that a user can configure the tapering flow through the configuration component. The tapering process may include a plurality of tapering steps that need to be performed sequentially, each tapering step may have different parameter values, for example, the speed of the fixture and the tapering duration of each tapering step may be different. The configuration component of the tapering process can comprise controls for adding, selecting and deleting the tapering process, the tapering step and the parameter, so that a user can configure the desired tapering process through the operations of inputting, selecting or deleting the tapering process, the step and the parameter.

After a user selects a tapering mode and configures a tapering process in the tapering parameter configuration interface, the tapering control system correspondingly takes the tapering mode and the tapering process configured by the user based on the tapering parameter configuration interface as a target tapering mode and a target tapering process. It should be noted that, a start control for starting the tapering machine is arranged in the tapering parameter configuration interface, and when the user selects the tapering mode and configures the tapering process, the start control is clicked to trigger the tapering control system to start the tapering machine for tapering; that is, after detecting that the start control in the tapering parameter configuration interface is clicked, the tapering control system may use the currently selected tapering mode as the target tapering mode, and use the configured tapering process as the target tapering process.

Further, a default tapering mode may be preset in the selectable tapering modes of the configuration interface, that is, the default tapering mode is used as the target tapering mode when the user does not select the tapering mode.

Fig. 3 is a schematic diagram of a configuration component of a taper mode in a taper parameter configuration interface. The user may select the tapering mode by clicking on the tapering mode front control.

And S20, controlling the optical fiber fused biconical taper machine to execute the target biconical taper process on the biconical taper object according to the target biconical taper mode.

After the target tapering mode and the target tapering process are determined, the tapering control system controls the optical fiber fused tapering machine to execute the target tapering process on the tapering object according to the target tapering mode. The tapering object, that is, the optical fiber product to be tapered, can be placed in the corresponding position of the tapering machine in advance by a tapering controller. Further, if the fixture and the fire head of the tapering machine are not at the initial positions, the tapering control system can control the fixture and the fire head of the tapering machine to recover to the initial positions before the tapering machine performs tapering, and then control the tapering machine to execute the target tapering process on the tapering object according to the target tapering mode.

It should be noted that the tapering parameter configuration interface may further include configuration components that need configuration contents other than the tapering mode and the tapering process, so that the user may configure other parameters or modes according to the characteristics of the tapering product.

In this embodiment, by setting selectable tapering modes including a same-directional tapering mode, a reverse tapering mode, and a single-sided tapering mode in the tapering parameter configuration interface, and receiving a target tapering mode and a target tapering process configured based on the tapering parameter configuration interface, the optical fiber fusion tapering machine is controlled to execute the target tapering process on the tapering object according to the target tapering mode, so that a user can freely select different tapering modes for tapering according to the type of the tapering product, instead of only one tapering mode, and the tapering system can adapt to a wider variety of tapering products.

Further, based on the first embodiment, a second embodiment of the optical fiber fusion-drawing machine control method according to the present invention is provided, in this embodiment, when the target drawing process is a equidirectional drawing mode, the step S20 includes:

step S201, controlling the optical fiber fusion tapering machine to move the left clamp and the right clamp in the same direction when executing the target tapering process, so as to taper the tapering object.

When the target tapering mode is the equidirectional tapering mode, that is, when the user selects the equidirectional tapering mode to carry out tapering, the tapering control system controls the tapering machine to execute the target tapering process, and the left clamp and the right clamp move in the same direction to carry out tapering on the tapering object. The left clamp and the right clamp can be controlled to move rightwards, and the left clamp and the right clamp can also be controlled to move leftwards. It should be noted that, in the process of executing each tapering step of the target tapering process by the tapering machine, when the left jig and the right jig are required to cooperate to perform tapering, the left jig and the right jig are controlled to move in the same direction to perform tapering, and the parameters such as the moving speed of the left jig and the right jig, the tapering time and the like are based on the parameter value in the current tapering step.

Further, in an embodiment, when the target tapering process is a reverse tapering mode, the step S20 includes:

step S202, controlling the left clamp and the right clamp to move in opposite directions when the optical fiber fusion tapering machine executes the target tapering process so as to taper the tapering object.

When the target tapering mode is the reverse tapering mode, that is, when the user selects to adopt the reverse tapering mode for tapering, the tapering control system controls the tapering machine to execute the target tapering process, and the left clamp and the right clamp move in opposite directions to taper the tapering object. The left clamp can be controlled to move rightwards, the right clamp can be controlled to move leftwards, the left clamp can be controlled to move leftwards, and the right clamp can be controlled to move rightwards. It should be noted that, in the process of executing each tapering step of the target tapering process by the tapering machine, when the left jig and the right jig are required to cooperate to perform tapering, the left jig and the right jig are controlled to move in opposite directions to perform tapering, and the parameters such as the moving speed of the left jig and the right jig, the tapering duration and the like are based on the parameter value in the current tapering step.

Further, in an embodiment, when the target tapering process is a single-sided tapering mode, the step S20 includes:

step S203, controlling the optical fiber fusion tapering machine to execute the target tapering process while one of the left clamp and the right clamp is stationary and the other clamp moves in a preset direction to taper the tapering object.

When the target tapering mode is the unilateral tapering mode, that is, when the user selects the unilateral tapering mode to taper, and the tapering control system controls the tapering machine to execute the target tapering process, one of the left clamp and the right clamp is stationary, and the other clamp moves in the preset direction, so as to taper the tapering object. Wherein, the preset mode can be a left direction or a right direction; one of the left clamp and the right clamp is fixed, and the other clamp moves towards the preset direction, namely the left clamp can be controlled to be fixed, the right clamp moves towards the preset direction, and the right clamp can also be controlled to be fixed, and the left clamp moves towards the preset direction. It should be noted that, in the process of executing each tapering step of the target tapering process by the tapering machine, when the left jig and the right jig are required to cooperate to perform tapering, the left jig and the right jig are controlled to move in opposite directions to perform tapering, and the parameters such as the moving speed of the left jig and the right jig, the tapering duration and the like are based on the parameter value in the current tapering step.

Further, based on the first and/or second embodiments, a third embodiment of the optical fiber fusion-drawing machine control method according to the present invention is provided, in which the method further includes:

step S30, receiving fixture moving acceleration in the target tapering process configured on the basis of the tapering parameter configuration interface;

because the existing tapering system can not set the moving acceleration of the clamp, the clamp can only move at a uniform speed, and the speed of the clamp is suddenly changed between tapering steps, so that a qualified product can not be drawn out, or the yield is low.

In this embodiment, to solve the above problem, a configuration component for a user to configure the moving acceleration of the fixture in the tapering process may be further provided in the tapering parameter configuration interface, where the configuration component may be an input box for the user to input the moving acceleration of the fixture, or may be a selection control including a plurality of moving acceleration values for the user to select. It should be noted that, when a plurality of tapering steps are included in the target tapering process, the moving acceleration of the left jig and the right jig may be set for each tapering step.

The taper control system can receive the fixture movement acceleration in the target taper process based on the taper parameter configuration interface configuration before starting the taper machine.

The step S20 includes:

and S204, controlling the clamp to move according to the moving acceleration of the clamp when the optical fiber fused tapering machine executes the target tapering process according to the target tapering mode so as to taper the tapering object.

And after determining a target tapering mode, a target tapering process and the fixture moving acceleration in the target tapering process, the tapering control system can control the optical fiber fused tapering machine to execute the target tapering process according to the target tapering mode, and control the fixture to move according to the fixture moving acceleration when executing the target tapering process so as to taper the tapering object.

For example, when the target tapering mode is the single-side tapering mode and it is preset that the left clamp moves the right clamp in the single-side tapering mode without understanding, the target tapering process includes three tapering steps, where in step 1, the speed of the left clamp is a1, the acceleration is a2, in step 2, the speed of the left clamp is b1, the acceleration is b2, and in step 3, the speed of the left clamp is c1, and the acceleration is c3; when the tapering control system controls the tapering machine to execute the step 1, the left clamp of the tapering machine can be controlled to accelerate according to the acceleration a2 so as to accelerate the speed from 0 to a1; when step 2 is executed, controlling the left clamp to accelerate according to the acceleration b2 so as to accelerate the speed from a1 to b1; in executing step 3, the left gripper is controlled to accelerate at an acceleration b3 to accelerate the speed from b1 to c1.

Fig. 4 is a schematic diagram showing a speed curve of a fixture of a cone drawing machine without an acceleration parameter, and fig. 5 is a schematic diagram showing a speed curve of a fixture of a cone drawing machine with an acceleration parameter. In the presence of acceleration, the speed change of the clamp is significantly smoother, and the speed is not suddenly changed any more, but is accelerated. The design can prolong the service life of the clamp and ensure that the clamp moves more smoothly. More importantly, the conical area of the tapered cone is smoother, and a tapered cone product with better quality can be produced.

Further, the step of receiving the target tapering process configured based on the tapering parameter in step S10 includes:

step S101, receiving a product type selected based on a tapered parameter configuration interface;

and S102, acquiring a tapering process corresponding to the product type from a database as a target tapering process.

In one embodiment, a configuration component for a user to select a product type can be arranged in the tapering parameter configuration interface, and the configuration component can be an input box for the user to input the product type or a selection control comprising a plurality of product types for the user to select.

And when the product type selected based on the tapering parameter configuration interface is received, the tapering control system acquires the tapering flow corresponding to the product type from the database as a target tapering flow.

Further, the method further comprises:

step S40, receiving new product types added on the basis of a tapering parameter configuration interface and tapering parameters corresponding to the new product types;

in an embodiment, a configuration component for a user to add a new product type and a tapering parameter corresponding to the new product type may be set in the tapering parameter configuration interface. The user can input the name or label of a new product type through the configuration component and then input the tapering parameter corresponding to the product type. The tapering parameters may include tapering parameters corresponding to a plurality of tapering steps, respectively.

S50, generating a tapering process corresponding to the new product type according to the tapering parameters;

and the tapering control system generates a tapering process corresponding to the new product type according to the received tapering parameters. Specifically, according to each tapering parameter value corresponding to the tapering step input by the user on the tapering configuration interface, the tapering step is generated first, and then according to the serial number of each tapering step input by the user, the tapering steps are arranged in sequence according to the serial number to generate the tapering process.

And S60, adding the new product type and the tapering process correlation corresponding to the product type to the database.

And the cone drawing control system adds the new product type and the cone drawing process association corresponding to the product type into a database so that a subsequent user can call the cone drawing process by inputting the new product type.

Further, in an embodiment, a configuration component for a user to modify the tapering process may be further disposed in the tapering parameter configuration interface, and the user inputs the product type through the configuration component, invokes the tapering process corresponding to the product type, and may modify the tapering parameters of each tapering step in the tapering process through the configuration component.

In addition, an embodiment of the present invention further provides an optical fiber fusion-drawing machine control apparatus, and referring to fig. 6, the apparatus includes:

the system comprises a receiving module 10, a processing module and a display module, wherein the receiving module is used for receiving a target tapering mode and a target tapering process configured on the basis of a tapering parameter configuration interface, and selectable tapering modes in the tapering parameter configuration interface comprise a same-direction tapering mode, a reverse tapering mode and a single-side tapering mode;

and the control module 20 is configured to control the optical fiber fused biconical taper machine to execute the target biconical taper process on the biconical taper object according to the target biconical taper mode.

Further, when the target tapering process is the equidirectional tapering mode, the control module 20 includes:

and the first control unit is used for controlling the left clamp and the right clamp to move in the same direction when the optical fiber fusion tapering machine executes the target tapering process so as to taper the tapering object.

Further, when the target tapering process is the reverse tapering mode, the control module 20 includes:

and the second control unit is used for controlling the left clamp and the right clamp to move towards opposite directions when the optical fiber fused biconical taper machine executes the target biconical taper process so as to perform biconical taper on the biconical taper object.

Further, when the target tapering process is in the single-sided tapering mode, the control module 20 includes:

and the third control unit is used for controlling one clamp of the left clamp and the right clamp to be fixed and the other clamp to move towards the preset direction so as to taper the tapered object when the optical fiber fused tapering machine executes the target tapering process.

Further, the receiving module 10 is further configured to: receiving fixture movement acceleration in the target tapering process based on the tapering parameter configuration interface configuration;

the control module 20 includes:

and the fourth control unit is used for controlling the clamp to move according to the moving acceleration of the clamp when the optical fiber fused biconical taper machine executes the target biconical taper process according to the target biconical taper mode so as to perform biconical taper on the biconical taper object.

Further, the receiving module 10 includes:

the receiving unit is used for receiving the product type selected based on the tapered parameter configuration interface;

and the acquisition unit is used for acquiring the tapering process corresponding to the product type from a database as a target tapering process.

Further, the receiving module 10 is further configured to: receiving a new product type added on the basis of a tapering parameter configuration interface and tapering parameters corresponding to the new product type;

the device further comprises:

the generating module is used for generating a tapering process corresponding to the new product type according to the tapering parameters;

and the adding module is used for adding the new product type and the tapering process correlation corresponding to the product type to the database.

The specific implementation of the optical fiber fused biconical taper machine control device of the present invention is basically the same as the embodiments of the optical fiber fused biconical taper machine control method, and is not described herein again.

In addition, an embodiment of the present invention further provides a computer-readable storage medium, where an optical fiber fusion tapering machine control program is stored, and when the program is executed by a processor, the program implements the steps of the optical fiber fusion tapering machine control method as described below.

The embodiments of the optical fiber fusion-tapering control device and the computer-readable storage medium of the present invention can refer to the embodiments of the optical fiber fusion-tapering control method of the present invention, and are not described herein again.

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, 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 phrases "comprising a component of' 8230; \8230;" does not exclude the presence of another like element in a process, method, article, or apparatus that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the description of the foregoing embodiments, it is clear to those skilled in the art that the method of the foregoing embodiments may be implemented by software plus a necessary general hardware platform, and certainly may also be implemented by hardware, but in many cases, the former is a better implementation. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal device (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. An optical fiber fusion-biconical taper machine control method, characterized in that the method comprises the following steps:

receiving a target tapering mode and a target tapering process configured based on a tapering parameter configuration interface, wherein selectable tapering modes in the tapering parameter configuration interface include a same-direction tapering mode, a reverse tapering mode and a single-side tapering mode, the tapering parameter configuration interface includes configuration components for configuring the tapering process, and the configuration components include tapering processes, tapering steps and control for adding, selecting and deleting parameters;

controlling the optical fiber fused biconical taper machine to execute the target biconical taper process on the biconical taper object according to the target biconical taper mode;

the step of receiving a target tapering process based on the tapering parameter configuration interface configuration comprises:

receiving a product type selected based on a tapered parameter configuration interface;

and acquiring a tapering process corresponding to the product type from a database as a target tapering process.

2. The optical fiber fused biconical taper machine control method according to claim 1, wherein when the target biconical taper process is in a unidirectional biconical taper mode, the step of controlling the optical fiber fused biconical taper machine to perform the target biconical taper process on the tapered object according to the target biconical taper mode comprises:

and controlling the optical fiber fusion tapering machine to move the left clamp and the right clamp in the same direction when executing the target tapering process so as to taper the tapering object.

3. The optical fiber fused biconical taper machine control method according to claim 1, wherein when the target biconical taper process is in a reverse biconical taper mode, the step of controlling the optical fiber fused biconical taper machine to perform the target biconical taper process on the tapered object according to the target biconical taper mode comprises:

and controlling the left clamp and the right clamp to move in opposite directions when the optical fiber fusion tapering machine executes the target tapering process so as to taper the tapering object.

4. The optical fiber fused biconical taper machine control method according to claim 1, wherein when the target biconical taper process is in the single-sided biconical taper mode, the step of controlling the optical fiber fused biconical taper machine to perform the target biconical taper process on the tapered object according to the target biconical taper mode comprises:

and controlling one clamp of the left clamp and the right clamp to be stationary when the optical fiber fused biconical taper machine executes the target tapering process, and moving the other clamp towards a preset direction to taper the tapering object.

5. The method of controlling an optical fiber fused biconical taper machine according to claim 1, wherein before the step of controlling the optical fiber fused biconical taper machine to perform the target biconical taper procedure on the tapered object in the target biconical taper mode, the method further comprises:

receiving fixture movement acceleration in the target tapering process based on the tapering parameter configuration interface configuration;

the step of controlling the optical fiber fused biconical taper machine to execute the target biconical taper process on the biconical taper object according to the target biconical taper mode comprises the following steps:

and controlling the clamp to move according to the moving acceleration of the clamp when the optical fiber fused biconical taper machine executes the target biconical taper process according to the target biconical taper mode so as to perform biconical taper on the biconical taper object.

6. The method for controlling an optical fiber fusion-drawing machine according to claim 1, wherein before the step of obtaining the drawing process corresponding to the product type from the database as the target drawing process, the method further comprises:

receiving a new product type added on the basis of a tapering parameter configuration interface and tapering parameters corresponding to the new product type;

generating a tapering process corresponding to the new product type according to the tapering parameters;

and adding the new product type and the tapering flow association corresponding to the product type to the database.

7. An optical fiber fusion-draw-cone control apparatus, comprising:

the system comprises a receiving module, a setting module and a processing module, wherein the receiving module is used for receiving a target tapering mode and a target tapering process configured on the basis of a tapering parameter configuration interface, selectable tapering modes in the tapering parameter configuration interface comprise a same-direction tapering mode, a reverse tapering mode and a single-side tapering mode, the tapering parameter configuration interface comprises a configuration assembly configured with the tapering process, and the configuration assembly comprises a tapering process, a tapering step and a control for adding, selecting and deleting parameters;

the control module is used for controlling the optical fiber fused biconical taper machine to execute the target biconical taper process on the biconical taper object according to the target biconical taper mode;

the receiving module is further configured to receive a target tapering process configured based on the tapering parameter configuration interface, including:

receiving a product type selected based on a tapered parameter configuration interface;

and acquiring a tapering process corresponding to the product type from a database as a target tapering process.

8. An optical fiber fusion-biconical taper machine control apparatus, comprising: a memory, a processor, and a fiber fuse-tapering machine control program stored on the memory and executable on the processor, the fiber fuse-tapering machine control program when executed by the processor implementing the steps of the fiber fuse-tapering machine control method of any one of claims 1 to 6.

9. A computer-readable storage medium, wherein the computer-readable storage medium has stored thereon an optical fiber fusion-drawing machine control program, which when executed by a processor, implements the steps of the optical fiber fusion-drawing machine control method according to any one of claims 1 to 6.

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