KR20210004363A - Injection molding machine including function of displaying information based on 3d model - Google Patents

Abstract

The present invention relates to an injection molding device having an information display function based on a three-dimensional (3D) model, and more particularly, to an injection molding device having an information display function based on a three-dimensional model, capable of displaying information such as an operation state or an error occurrence state of the injection molding device based on the 3D model. According to the present invention, an injection molding device (1) includes: a control unit (110) for collecting state data indicating states of one or more components constituting the injection molding device (1) to generate 3D model data for the one or more components corresponding to the state data; a storage unit (130) for storing first information for configuring a 3D model of the one or more components and second information including a plurality of data according to the states of the one or more components; and a display unit (140) for displaying a 3D model of the injection molding device (1) configured to display the states of the one or more components configured by using the 3D model data, wherein the control unit (150) generates the 3C model data by using one or both of the first information and the second information.

Description

Injection molding machine with 3D model-based information display function {INJECTION MOLDING MACHINE INCLUDING FUNCTION OF DISPLAYING INFORMATION BASED ON 3D MODEL}

The present invention relates to an injection molding machine having a three-dimensional model-based information display function, and more specifically, a three-dimensional model-based information display function that displays information such as an operation state of the injection molding machine or whether an error has occurred, based on a three-dimensional (3D) model. It relates to an injection molding machine having a.

The injection molding machine 1 shown in FIG. 1 generally melts an injection material such as plastic, which is a material of an injection product, and then injects it into a mold to manufacture an injection product.

More specifically, the injection molding machine 1 measures the injection material, then mold closing, filling, packing, cooling, and mold opening. Is taken out.

In this case, in the mold closing process, as can be seen in FIG. 2, the moving mold 10a mounted on the moving platen 22 is mounted on the fixed platen 23 by operating the driving part 21 of the clamping device 20. The mold 10 is molded and closed by moving to the fixed mold 10b.

Subsequently, in the filling process, the injection material is injected into the mold while controlling the driving speed of the screw of the injection device, and in the holding pressure process, the injection material is molded by controlling the pressure to press the injection material.

However, in the conventional injection molding machine (1), while performing a series of processes as described above, the states of various constituent modules are listed and displayed as shown in Fig. 3(a) or shown in Fig. 3(b). As can be seen, events such as error occurrence can be displayed in text, or, as shown in Fig. 3(c), based on a flat (2D) model, the operation status of the injection molding machine 1 or whether an error has occurred, etc. A method of displaying information was used.

However, in the case of displaying the operation status of the injection molding machine 1 or whether or not an error has occurred in the above manner, the operator scrolls the screen listing a number of modules or clicks each event information to check the error occurrence module, etc. Inconvenience to be done could be followed, and further, there was a problem in that it was difficult for the operator to grasp at a glance the operation status of the injection molding machine 1 or whether an error occurred.

Accordingly, there is a need for a method to allow an operator to easily grasp information such as the operation status of various modules constituting the injection molding machine 1 or whether an error has occurred, but an appropriate solution for this has not been proposed.

Korean Patent Application Publication No. 10-2018-0089460 (08.08.2018)

The present invention was conceived to solve the above problems, an injection molding machine having an information display function that enables an operator to easily grasp information such as operation status or error occurrence of various modules constituting the injection molding machine 1 It aims to provide (1).

In addition, detailed objects of the present invention will be clearly understood and understood by experts or researchers in this technical field through the detailed contents described below.

The injection molding machine (1) having an information display function according to an embodiment of the present invention for solving the above-described problem collects status data indicating the status of one or more components constituting the injection molding machine (1), A control unit 110 for generating three-dimensional model data for the at least one component corresponding to the data; A storage unit 130 for storing first information for constructing a three-dimensional model of the at least one component and second information including a plurality of data according to the state of the at least one component; A display unit 140 for displaying a three-dimensional model for the injection molding machine 1 that displays the state of the one or more components constructed using the three-dimensional model data; The control unit 110 is characterized in that the three-dimensional model data is generated using one or both of the first information and the second information.

In this case, the first information may include location information and shape information for configuring the one or more three-dimensional models.

In addition, the second information may include normal state material data corresponding to a case in which the one or more components are in a normal state and error state material data corresponding to an error state.

In addition, when the state data for the one or more elements is updated after configuring a three-dimensional model for the one or more elements and displaying them through the display unit 140, the three-dimensional model data generation unit 112 A three-dimensional model of the injection molding machine 1 including the one or more components may be constructed by reflecting the updated state data and displayed through the display unit 140.

In the injection molding machine 1 having an information display function according to an embodiment of the present invention, information such as operation status or error occurrence of various components constituting the injection molding machine 1 is provided in a three-dimensional model, It is possible for the operator to more easily grasp the information of the various elements constituting the injection molding machine (1).

The accompanying drawings, which are included as part of the detailed description to aid in understanding of the present invention, provide embodiments for the present invention, and describe the technical idea of the present invention together with the detailed description.
1 is a perspective view of a conventional injection molding machine 1.
2 is a diagram for explaining a specific operation of the conventional injection molding machine 1.
3 is a diagram for explaining display of information such as error occurrence in the conventional injection molding machine 1.
4 is a block diagram of an injection molding machine 1 having an information display function according to an embodiment of the present invention.
5 is a flowchart illustrating a method of displaying three-dimensional model-based information in the injection molding machine 1 according to an embodiment of the present invention.
6 and 7 are diagrams illustrating generation and display of three-dimensional model data for a limit switch in the injection molding machine 1 according to an embodiment of the present invention.
8 is a diagram illustrating generation of three-dimensional model data for a half nut in the injection molding machine 1 according to an embodiment of the present invention.
9 is a diagram showing a configuration example of an injection molding machine 1 according to an embodiment of the present invention.
10 is a diagram illustrating a detailed flowchart of a method for displaying three-dimensional model-based information in an injection molding machine 1 according to an embodiment of the present invention.

The present invention may apply various transformations and may have various embodiments. Hereinafter, specific embodiments will be described in detail based on the accompanying drawings.

The following examples are provided to aid in a comprehensive understanding of the methods, devices, and/or systems described herein. However, this is only an example and the present invention is not limited thereto.

In describing the embodiments of the present invention, when it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention and may vary according to the intention or custom of users or operators. Therefore, the definition should be made based on the contents throughout this specification. The terms used in the detailed description are merely for describing the embodiments of the present invention, and should not be limiting. Unless explicitly used otherwise, expressions in the singular form include the meaning of the plural form. In this description, expressions such as "comprising" or "feature" are intended to refer to certain features, numbers, steps, actions, elements, some or combination thereof, and one or more other than those described. It should not be construed to exclude the presence or possibility of other features, numbers, steps, actions, elements, any part or combination thereof.

In addition, terms such as first and second may be used to describe various components, but the components are not limited by the terms, and the terms are used to distinguish one component from other components. Is only used.

Hereinafter, exemplary embodiments of a method for displaying three-dimensional model-based information in an injection molding machine 1 according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, as can be seen in FIG. 4, the injection molding machine 1 according to an embodiment of the present invention may include a control unit 110, a storage unit 130, and a display unit 140.

In this case, the control unit 110 collects state data for one or more components constituting the injection molding machine 1 to generate three-dimensional model data for the one or more components corresponding to the state data.

In addition, as shown in FIG. 4, the control unit 110 may include the state information collection unit 111 and the three-dimensional model data generation unit 112.

At this time, the status information collection unit 111 collects status data by interlocking with various devices that detect status data on components of the injection molding machine 1 such as sensors or switches.

In addition, the three-dimensional model data generating unit 112 generates three-dimensional model data for the one or more components corresponding to the state data collected through the state information collecting unit 111.

In this case, the state information collection unit 111 and the three-dimensional model data generation unit 112 are implemented as separate devices and then operate in conjunction with each other to logically perform the function of the control unit 110. 110), but the state information collection unit 111 and the three-dimensional model data generation unit 112 may be physically implemented as a single device to constitute the control unit 110.

More specifically, the state information collection unit 111 and the three-dimensional model data generation unit 112 are configured as separate electric circuits and then operate in conjunction with wired or wireless data exchange, and logically the control unit 110 A function may be performed, or the state information collecting unit 111 and the three-dimensional model data generating unit 112 may be integrated into one electric circuit.

Further, the state information collection unit 111 and the three-dimensional model data generation unit 112 may be implemented using a programmable logic controller (PLC) provided in the injection molding machine 1, The present invention is not limited thereto, and may be implemented using various other devices.

In addition, the storage unit 130 stores and provides first information for constructing a three-dimensional model of the one or more elements and second information including a plurality of data according to the state of the one or more elements. In this case, the storage unit 130 may be implemented using various devices having a data storage function such as a memory.

In this case, the three-dimensional model data generation unit 112 generates three-dimensional model data for the one or more components corresponding to the state data by using one or both of the first information and the second information. Accordingly, the display unit 140 displays a three-dimensional model for the injection molding machine 1, which displays the state of the one or more components constructed using the three-dimensional model data.

5 is a flowchart illustrating a method of displaying information based on a three-dimensional model in the injection molding machine 1 according to an embodiment of the present invention. As can be seen in FIG. 5, the method for displaying three-dimensional model-based information in the injection molding machine 1 according to an embodiment of the present invention includes state data indicating the states of one or more components constituting the injection molding machine 1 State data collecting step (S110) of collecting, first information including position and shape information for configuring a three-dimensional model of the one or more elements from the storage unit 130, and according to the state of the one or more elements An information receiving step (S120) of receiving second information including a plurality of data, using one or both of the first information and the second information to provide a stereoscopic view of the one or more components corresponding to the state data. The three-dimensional model data generating step (S130) of generating model data and the three-dimensional model of the injection molding machine 1 displaying the state of the one or more components configured using the three-dimensional model data are displayed through the display unit 140. It may include providing a three-dimensional model display step (S140).

Accordingly, in the injection molding machine 1 having an information display function according to an embodiment of the present invention, information such as operation status or error occurrence of various components constituting the injection molding machine 1 is configured as a three-dimensional model. By providing, the operator can more easily grasp the information of the various components constituting the injection molding machine (1).

Hereinafter, with reference to FIGS. 4 and 5, an injection molding machine 1 having an information display function and an information display method according to an exemplary embodiment of the present invention will be described in more detail by dividing each component.

First, in the state data collection step (S110), the state information collecting unit 111 collects state data indicating the state of one or more components constituting the injection molding machine 1.

Accordingly, the status information collection unit 111 collects status data on the operation status of various components constituting the injection molding machine 1 or whether an error has occurred, and provides the information.

More specifically, the state information collection unit 111 may collect state data on the operation state of the injection device of the injection molding machine 1 (eg, a screw drive mode, etc.) and provide the information. Alternatively, the information may be provided by collecting state data on whether the half nut on the mold side of the injection device is normally fastened or the door is normally closed.

Accordingly, the state information collection unit 111 may operate in conjunction with a sensor capable of detecting whether the half nut is normally fastened, or a switch capable of detecting the normally closed state of the door. This is not necessarily limited thereto, and it is also possible to implement the status information collection unit 111 in various ways, such as providing information collected from other devices.

Accordingly, in the state data collection step (S110), the state information collecting unit 111 configured using a sensor or the like collects state data indicating the states of various components such as the half nut constituting the injection molding machine 1 To collect.

Subsequently, in the information receiving step (S120), the first information including position and shape information in the injection molding machine 1 for constructing a three-dimensional model of the one or more components is received from the storage unit 130. do.

For example, 3D model template data including position information and shape information for a limit switch capable of detecting a closed state of a door provided in the injection molding machine 1 is received from the storage unit 130 You will receive.

In this case, the storage unit 130 may be an electrical storage device provided in the injection molding machine 1, but the present invention is not necessarily limited thereto and is provided in a magnetic storage device or an external device through wired/wireless communication. It is also possible to implement the storage unit 130 in various ways, such as a method of transmitting data.

In this regard, FIG. 6A illustrates three-dimensional model template data for a limit switch capable of detecting a closed state of a door provided in the injection molding machine 1.

More specifically, as can be seen in Fig. 6(a), the three-dimensional model template data for the limit switch ((A1) in Fig. 6(a)) includes position and shape information for the limit switch. The first information ((A3) of FIG. 6(a)) may be included. That is, the first information may include data for indicating the position and shape of the limit switch in the injection molding machine 1.

Here, the position information may be position information at which the limit switch is to be marked on the injection molding machine 1, and the position information will be described in more detail in FIG. 7.

In addition, the shape information may be shape information in which the limit switch is to be shown on the injection molding machine 1. For example, the shape of the limit switch may be implemented in a circular shape, but the present invention is not limited thereto, It may be implemented in various shapes such as a square or a question mark shape.

For a more specific example, as can be seen in FIG. 7, in the injection molding machine 1, the limit switch is located in various positions such as near the door at the front of the injection molding machine 1, near the door at the side of the mold, and near the door at the rear of the mold. Accordingly, position information indicating each position of the limit switch (for example, can be expressed in a format such as (x1, y1, z1)) can be used.

Further, the three-dimensional model template data for the limit switch ((A1) in FIG. 6(a)) includes a material data area ((A2) in FIG. 6(a)) for including material information on the limit switch. I can. Here, the material information may be defined as a color or a pattern for the shape. In addition, the material information may be linked with the shape information.

As mentioned above, the shape of the limit switch is not only circular, but may be any shape that the user can identify on the display unit 140.

For example, the material information may include normal state material data corresponding to a normal state, and error state material data corresponding to an error state.

Accordingly, the three-dimensional model data generation unit 112 includes the position and shape information of the element included in the three-dimensional model template data, and the three-dimensional model for the element, including material information for the element. It is possible to generate data and to construct a three-dimensional model for the injection molding machine 1 including the above components.

In addition, in the information receiving step (S130), second information including a plurality of data according to the state of the at least one component is also received from the storage unit 130.

In this regard, FIG. 6B illustrates material data for a limit switch capable of detecting a closed state of a door provided in the injection molding machine 1.

For example, it is possible to acquire position information on the limit switch, and link the received material information, which is the material information in a normal or error state, based on the circular shape information at the position. More specifically, as can be seen in FIG. 6(b), the second information on the limit switch includes normal state material data corresponding to the case where the limit switch is normally closed (( B1)) and error state material data ((B2) of FIG. 6(b)) corresponding to a state in which the limit switch is not normally closed may be included.

Subsequently, in the three-dimensional model data generation step (S130), the three-dimensional model data generation unit 112 uses one or both of the first information and the second information to provide the one or more configurations corresponding to the state data. It creates three-dimensional model data for the element.

Further, in the three-dimensional model data generation step (S130), one of the normal state material data or the error state material data is selectively combined with the three-dimensional model template data for the one or more components according to the state data, Three-dimensional model data for the above components can be generated.

More specifically, as can be seen in Fig. 6(c), the three-dimensional model data generation unit 40 includes a material data area of the limit switch 1 in the three-dimensional model template data ((A2) of Fig. 6(a)). )("usemtl [#LimitSwitch1]") and material data corresponding to the state of the limit switch 1 (for example, normally closed state) ((B1) in Fig. 6(b))("LimitSwitch1OK") ((C2) in FIG. 6(c))("usemtl LimitSwitch1OK"), three-dimensional model data for the limit switch 1 is generated ((C1) in FIG. 6(c)).

In this case, position information on the limit switch may be obtained, and three-dimensional model data may be generated by combining information of a normally closed state, which is the received material information, based on circular shape information at the position.

Accordingly, in the three-dimensional model display step (S140), the display unit 140 provides a three-dimensional model for the injection molding machine 1 to display the state of the one or more components configured using the three-dimensional model data. Is done.

More specifically, as can be seen in FIG. 7, when the door 1 of the injection molding machine 1 is normally closed, a three-dimensional model is constructed by setting the material of the limit switch 1 to green based on the circular shape information (Fig. In (D1) of 7(a)), when the door 1 is not normally closed, a three-dimensional model is constructed and provided with the material of the limit switch 1 in red based on the circular shape information (Fig. 7(b), ( D2)), the operator can more easily grasp the information of the various components constituting the injection molding machine (1).

Additionally, the pattern information (stripe, dot, etc.) may be implemented together with interlocked shape information and color information.

In addition, FIG. 8 illustrates generation of three-dimensional model data for a half nut provided in the injection molding machine 1 according to an embodiment of the present invention to provide support for the clamping device 20 during an injection process.

More specifically, FIG. 8(a) illustrates three-dimensional model template data for the half nut.

More specifically, as can be seen in Fig. 8(a), in the three-dimensional model template data for the half nut ((E1) in Fig. 8(a)), a first model including shape information on the half nut Information ((E3) of FIG. 8(a)) may be included. That is, the first information may include data for indicating the position and shape of the half nut in the injection molding machine 1.

Here, the location information may be location information at which the half nut is to be marked on the injection molding machine 1. In addition, the shape information may be shape information in which the half nut is to be shown on the injection molding machine 1.

Further, the three-dimensional model template data for the half nut ((E1) in FIG. 8(a)) includes a material data area ((E2) in FIG. 8(a)) for including material information on the half nut. I can. Here, the material information may be defined as a color or a pattern for the shape. In addition, the material information may be linked with the shape information.

Here, the shape of the half nut may be any shape that the user can identify on the display unit 140.

For example, the material information may include normal state material data corresponding to a normal state, and error state material data corresponding to an error state.

Accordingly, the three-dimensional model data generation unit 112 includes the position and shape information of the element included in the three-dimensional model template data, and the three-dimensional model for the element, including material information for the element. It is possible to generate data and to construct a three-dimensional model for the injection molding machine 1 including the above components.

In addition, in FIG. 8(b), material data for the half nut is illustrated.

For example, it is possible to obtain location information on the half nut, and link the received material information, which is the material information in a normal or error state, based on the circular shape information at the location.

More specifically, as can be seen in Fig. 8(b), the second information on the half nut includes steady state material data corresponding to the case where the half nut is normally fastened (F1 in Fig. 8(b)). )) and error state material data ((F2) of FIG. 8(b)) corresponding to a state in which the half nut is not normally fastened may be included.

Accordingly, in the three-dimensional model data generating unit 112, the material data of the half nut is selected according to the state data of the half nut collected by the state data collecting unit 111, and the three-dimensional model for the half nut By combining the material data area of the template data, three-dimensional model data for the half nut is generated.

More specifically, as can be seen in FIG. 8(c), the three-dimensional model data generation unit 112 includes the material data area of the half nut 1 ((E2) in FIG. 8(a)) in the three-dimensional model template data. )("usemtl [#HalfNut1]") and material data corresponding to the state of the half nut 1 (for example, normal fastening state) ((F1) in Fig. 8(b))("HalfNut1Locked") ((G2) in Fig. 8(c)) ("usemtl HalfNut1Locked"), three-dimensional model data for the half nut 1 is generated ((G1) in Fig. 8(c)).

Accordingly, three-dimensional model data for the half nut 1 is generated by different materials when the half nut 1 of the injection molding machine 1 is normally fastened and when the material is not properly fastened, and the injection molding machine 1 including the same By constructing and providing a three-dimensional model for the injection molding machine 1, it is possible for an operator to more easily grasp information on various components constituting the injection molding machine 1.

In addition, FIG. 9 shows a configuration example of an injection molding machine 1 according to an embodiment of the present invention.

First, as can be seen in FIG. 9(a), the system for providing three-dimensional model-based information in the injection molding machine 1 according to an embodiment of the present invention is a programmable logic controller provided in the injection molding machine 1. , PLC).

In this case, as can be seen in FIG. 9(a), the system for providing information based on a three-dimensional model according to an embodiment of the present invention includes first information including 3D model template data, and material information ( A three-dimensional model data generation unit 112 that may include a storage unit 130 that stores second information including material data, etc., and has three-dimensional model data generation (3D Model Builder) and three-dimensional model construction (3D Engine) functions. ) May be included, and a status information collection unit 111 that checks and provides (PLC Control System Event Listener) status information on components constituting the injection molding machine 1 may be included.

Accordingly, the three-dimensional model for the injection molding machine 1 configured in the three-dimensional model-based information providing system implemented based on the programmable logic controller (PLC) is a monitor provided in the injection molding machine 1, etc. It may be provided to an operator through the display unit 140.

In addition, first, as shown in FIG. 9(b), the system for providing information based on a three-dimensional model according to an embodiment of the present invention is implemented based on the resources of an operating panel provided in the injection molding machine 1 It could be.

Accordingly, similar to the case of FIG. 9(a) above, the three-dimensional model-based information providing system according to an embodiment of the present invention includes first information and material information including three-dimensional model template data, etc. A storage unit 130 for storing second information including (Material Data), etc. may be included, and a 3D model data generation unit having functions of 3D model data generation (3D Model Builder) and 3D model configuration (3D Engine) ( 112) may be included, and a status information collection unit 111 that checks and provides (PLC Control System Event Listener) status information on components constituting the injection molding machine 1 may be included.

Accordingly, a three-dimensional model for the injection molding machine 1 configured in the three-dimensional model-based information providing system may be provided to an operator through a display unit 140 such as a monitor provided on the work panel.

In addition, FIG. 10 illustrates a detailed flowchart of a method for displaying information based on a three-dimensional model in the injection molding machine 1 according to an embodiment of the present invention.

First, as can be seen in FIG. 10, in step S210, the three-dimensional model data generating unit 112 opens a three-dimensional model mask or page for the injection molding machine 1 to be generated. Also, in step S220, a three-dimensional engine (3D engine) is loaded.

Subsequently, in step S230, the three-dimensional model data generation unit 112 collects state information for each component from a programmable logic controller (PLC) system resource (eg, a system variable). In this case, in step S230, it is described that it is implemented based on a programmable logic controller (PLC) and collects status information for each component from a PLC system resource, but the present invention is not limited thereto.

Subsequently, the three-dimensional model data generating unit 112 includes first information including three-dimensional model template data, etc. for each component constituting the injection molding machine 1 from the storage unit 130 and material information. The second information is received (S241, S242) and a three-dimensional model is constructed (S240) to generate three-dimensional model data (3D Model Descriptor) (S250). In this case, the generated three-dimensional model data may be stored in the storage unit 130 (S251).

Accordingly, the three-dimensional model data generation unit 112 generates a three-dimensional model for the injection molding machine 1 and displays it through the display unit 140 (S260).

Subsequently, when the three-dimensional model mask or page for the injection molding machine 1 is closed (S270), it is preferable to reduce the system load by unloading the three-dimensional engine (3D engine) (S290).

Further, when the state data for the one or more components is updated after configuring a three-dimensional model for one or more components and displaying them through the display unit 140 (S280), the updated state data is reflected By configuring a three-dimensional model for the injection molding machine 1 including the one or more components and displaying them through the display unit 140, the operator can continuously check the state change of the injection molding machine 1 It is desirable to do.

Accordingly, in the injection molding machine 1 having a three-dimensional model-based information display function according to an embodiment of the present invention, information such as operation states of various components constituting the injection molding machine 1 or whether an error has occurred or not is a three-dimensional model. By configuring and providing the injection molding machine 1, it is possible for the operator to more easily grasp the information of various components constituting the injection molding machine 1.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the technical field to which the present invention pertains can make various modifications, changes, and substitutions within the scope not departing from the essential characteristics of the present invention. It will be possible. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical idea of the present invention, but are for illustration, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings. . The scope of protection of the present invention should be interpreted by the claims below, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

(1): Injection molding machine (10): Mold
(10a): Moving mold (10b): Fixed mold
(20): clamping device (21): drive
(22): movable plate (23): fixed plate
(110): control unit (112): three-dimensional model data generation unit
(111): state data collection unit 130: storage unit
(140): display unit

Claims (4)

A control unit 110 for collecting state data representing states of one or more components constituting the injection molding machine 1 and generating three-dimensional model data for the one or more components corresponding to the state data;
A storage unit 130 for storing first information for constructing a three-dimensional model of the at least one component and second information including a plurality of data according to the state of the at least one component;
A display unit 140 for displaying a three-dimensional model for the injection molding machine 1 that displays the state of the one or more components constructed using the three-dimensional model data;
The control unit 110 generates the three-dimensional model data by using either or both of the first information and the second information. The injection molding machine (1) having an information display function. The method of claim 1,
In the first information,
An injection molding machine (1) having an information display function, characterized in that it includes location information and shape information for constructing a three-dimensional model of the at least one component. The method of claim 1,
In the second information,
An injection molding machine (1) having an information display function, characterized in that the at least one component includes normal state material data corresponding to a normal state and error state material data corresponding to an error state. The method of claim 1,
When the state data for the at least one component is updated after configuring a three-dimensional model for the at least one component and displaying it through the display unit 140,
Information characterized in that the control unit 110 constructs a three-dimensional model for the injection molding machine 1 including the one or more components by reflecting the updated state data, and displays it through the display unit 140 Injection molding machine with display function (1).

Images