CN110091484B - Injection molding machine capable of remote operation - Google Patents

Abstract

The present invention provides an injection molding machine (1) capable of remote operation, by using user authentication, a network terminal (4) is connected to the injection molding machine (1) via a network, and an operation screen of the injection molding machine (1) is displayed on the network terminal (4). When connecting the network terminal (4), the injection molding machine (1) creates a user information window (15) on a display (3) included in the injection molding machine (1) and displays user information on the display related to a user who successfully performs authentication. When terminating the connection of the network terminal (4), the user information window (15) is closed.

Description

Injection molding machine capable of remote operation

Technical Field

The present invention relates to an injection molding machine capable of operating via a network terminal.

Background

As known in the related art, an injection molding machine is configured with: a mold clamping device for clamping the mold; an injection device for melting the injection material and for injecting the injection material into the clamped mold; a controller for controlling the devices; etc. The mold clamping device is configured with a fixed platen, a movable platen, a mold clamping mechanism, and the like. The mold provided on each of the fixed platen and the movable platen is closed and clamped when the mold clamping mechanism is driven in a predetermined direction, and the mold is opened when the mold clamping mechanism is driven in a reverse direction. Further, the injection device is configured with a heating cylinder, a screw, and the like, inside of which the screw is driven in the rotational direction and the axial direction. When the injection material is supplied from a hopper provided behind the heating cylinder and the screw is rotated in the rotation direction, the injection material is melted by heat from a heater provided in the heating cylinder and heat generated due to a shearing force of rotation of the screw, the screw is retracted, and the injection material can be measured at the tip of the screw. The injection material can be injected when the screw is driven in the axial direction.

In each process of injection molding, these devices must be properly controlled, and various data must be set in the controller and monitored. A monitor is provided in the controller, and various types of screens are displayed on the monitor so that data can be set and monitored. As described above, in many related-art injection molding machines, so-called operations of the injection molding machine (such as data setting or monitoring) are performed by a monitor included in the injection molding machine. However, in recent years, there has also been proposed an injection molding machine which is connected via a network terminal, and which can be remotely operated from the network terminal. Such injection molding machines are proposed in, for example, JP-A-H07-1530 (patent document 1) and JP-A-H07-46675 (patent document 2).

The molding condition creation device is connected to the injection molding machine disclosed in patent document 1. The molding condition creation device is configured with a personal computer or the like, and is a so-called network terminal, and various types of molding conditions can be set in the molding condition creation device. After setting the molding conditions in the molding condition creating device, when the molding condition creating device is connected to the injection molding machine via a network and performs communication processing, the molding conditions are transmitted to the injection molding machine. This allows the injection molding machine to be operated.

Patent document 2 discloses a remote control device that can be connected to a plurality of injection molding machines. The remote control is also a network terminal and is configured to be connected to the injection molding machine via a network. The remote control disclosed in this document can be switched from a plurality of injection molding machines and can be connected to a desired injection molding machine via a network. When the remote control is switched to a predetermined injection molding machine, a screen of the injection molding machine is displayed on the remote control. Thus, the injection device can be operated from the remote control device.

The injection molding machine disclosed in patent document 1 or the injection molding machine disclosed in patent document 2 can also be operated by connecting a network terminal such as a notebook computer, and can be monitored remotely. These injection molding machines are advantageous in this respect. However, problems remain to be solved. Specifically, it can be pointed out that: preventing misoperation is not considered. Since both the molding condition creation device disclosed in patent document 1 and the remote control device disclosed in patent document 2 are configured to be connected via a network, it is possible to select any injection molding machine from a plurality of injection molding machines and connect any injection molding machine to the molding condition creation device and the remote control device. There is then a risk of accidental connection to an unintended injection molding machine and even if the user makes an error on the injection molding machine to be connected, the user is less likely to notice the error. For this reason, although the user intends to perform data setting and monitoring on a predetermined injection molding machine, there is a risk of accidentally operating another injection molding machine. In addition, there is a problem of operation collision. In particular, in the case of injection molding machines that are under remote operation via a network connection, the problem is: without notice, another user directly operates the injection molding machine on its monitor. If there is an operational conflict, there are the following problems: when the operation data is set, inconsistency of the data occurs.

Disclosure of Invention

An exemplary aspect of the present invention provides an injection molding machine that solves the above-described problems, and more particularly, an injection molding machine that can be remotely operated through network connection, that can prevent erroneous operation of an injection molding machine to be erroneously selected for connection, and that can prevent operational conflicts as follows: another user erroneously operates the injection molding machine under remote operation.

During the completion of the present invention, the inventors studied the operating environment of an injection molding machine, and the inventors collated the cases where remote operation was required in the injection molding machine. As a result, it may be necessary to perform a remote operation from a relatively distant place from the injection molding machine, and it may also be necessary to perform a remote operation from a vicinity of the injection molding machine, and the result shows that: the latter is a relatively high requirement. In the vicinity of the injection molding machine, a conveying device such as a belt conveyor for conveying molded products or an inspection device for inspecting molded products is provided. Therefore, there are cases where a sufficient space cannot be ensured before the monitor of the controller of the injection molding machine. In this case, there is a need to remotely operate the injection molding machine from the vicinity of the injection molding machine, for example on a belt conveyor. In view of such a need, the inventors have invented an injection molding machine that can prevent erroneous operation of an injection molding machine to be connected from being selected erroneously, and that can prevent the following operational conflicts: another user erroneously operates the injection molding machine under remote operation.

To achieve the above object, the present invention is directed to an injection molding machine to which a network terminal is connected via a network by using user authentication, and an operation screen of the injection molding machine is displayed on the network terminal. The injection molding machine is configured to: when connecting a network terminal, a user information window is created on a display included in the injection molding machine, and user information related to a user who successfully performs authentication is displayed on the display. When the connection of the network terminal is terminated, the user information window is closed.

A first exemplary aspect of the present invention provides an injection molding machine capable of remote operation, to which a network terminal is connected via a network through user authentication such that an operation screen of the injection molding machine is displayed on the network terminal, the injection molding machine comprising: a display, wherein the injection molding machine is configured to: a user information window is created on the display to display user information on the display related to a user who successfully performs authentication through the user information window when the network terminal is connected to the injection molding machine, and the user information window is closed when the connection of the network terminal is terminated.

According to a second exemplary aspect of the present invention, in the injection molding machine according to the first aspect, the user information includes a face picture of the user.

According to a third exemplary aspect of the present invention, in the injection molding machine according to the first or second exemplary aspect, the user information is displayed in a predetermined area of an operation screen displayed on the network terminal.

According to a fourth exemplary aspect of the present invention, in the injection molding machine according to any one of the first to third exemplary aspects, wherein the network terminal is capable of being connected to a plurality of injection molding machines simultaneously via a network, and a plurality of operation screens respectively corresponding to the plurality of injection molding machines connected via the network are displayed in a multi-window, and wherein when a predetermined operation screen is switched between an activated state in a selected state and a deactivated state in a non-selected state by a pointer device on the network terminal, a display color of the user information window is switched in the injection molding machine corresponding to the predetermined operation screen.

As described above, the present invention is directed to an injection molding machine to which a network terminal is connected via a network by using user authentication, and an operation screen of the injection molding machine is displayed on the network terminal. The injection molding machine is configured to: when connecting a network terminal, creating a user information window on a display included in an injection molding machine, and displaying user information on the display related to a user who successfully performs authentication, and the injection molding machine is configured to: when the connection of the network terminal is terminated, the user information window is closed. Thus, it can be determined from the relatively close vicinity of the injection molding machine whether the injection molding machine is connected to the network terminal via the network. In addition, since the user information is displayed on the display of the injection molding machine, it is possible to know who is operating the injection molding machine. That is, the operator can check whether he/she is operating. In many cases, the remote operation performed by the network terminal is generally performed in a relatively close vicinity of the injection molding machine, and when the injection molding machine is connected from the network terminal in such a relatively close vicinity, erroneous connection to other injection molding machines which are not intended can be prevented, so that erroneous operation of the injection molding machine can be prevented. Further, since it can be determined whether or not the network terminal is connected to the display of the injection molding machine, the following operational conflicts can be prevented: another user directly and erroneously operates the injection molding machine under remote operation from the network terminal. According to another invention, the user information includes a facial picture of the user. Since the user who is currently operating can be determined using the face picture, erroneous operation of the injection molding machine can be reliably prevented. According to still another invention, the network terminal can be simultaneously connected to a plurality of injection molding machines via the network, and a plurality of operation screens respectively corresponding to the plurality of injection molding machines connected via the network are displayed in the multi-window. When a predetermined operation screen is switched between an active state in a selected state and an inactive state in an inactive state by a pointer device on a network terminal, a display color of a user information window is switched in an injection molding machine corresponding to the predetermined operation screen. According to the above invention, the plurality of injection molding machines can be operated from one network terminal. Thus, in the network terminal connected to the plurality of injection molding machines, when the predetermined operation screen is caused to be activated and the predetermined injection molding machine is operated, it is possible to check whether or not the injection molding machine to be operated is an intended injection molding machine by merely looking at the display color of the user information window of the display of the injection molding machine. In this way, erroneous operation can be prevented.

Drawings

FIG. 1 is a diagram illustrating an injection molding machine and a network terminal according to an embodiment of the present invention; and is also provided with

Fig. 2 is a diagram illustrating a network terminal according to an embodiment of the present invention.

Detailed Description

Hereinafter, an injection molding machine 1 according to an embodiment of the present invention will be described. Also in the present embodiment, as in the injection molding machine of the related art, the injection molding machine 1 is configured with: injection device, mold clamping device, etc., and the injection molding machine 1 is provided with a controller for controlling these devices and a display 3 for displaying various types of screens for operating the injection molding machine. The injection molding machine 1 according to the present embodiment is provided with a wired network interface or a wireless network interface, and the injection molding machine 1 according to the present embodiment is characterized in that the injection molding machine 1 according to the present embodiment is capable of operating from a network terminal 4 through a network connection, as will be described later. As shown in fig. 1, a plurality of injection molding machines 1a, 1b, … … according to the present embodiment are connected to a network in a factory, that is, a LAN2.

The network terminal 4 including the display 6 according to the present embodiment, such as a notebook computer, a tablet terminal, or the like, is also configured to be connected to the LAN2 to which the injection molding machines 1a, 1b, … … are connected. In the present embodiment, a wireless router 5 is provided in the LAN2, and the network terminal 4 is configured to be connected to the injection molding machines 1a, 1b, … … via the wireless router 5.

In the injection molding machine 1 according to the present embodiment, a user information file storing user information for user authentication is provided in a storage area of the controller, and in the user information file, the following information is registered for a plurality of users.

User ID

The user ID is a unique number for identifying the user.

Cipher code

The password is a password required for user authentication.

Face picture

The face picture is a face picture of the user.

Telephone number

The telephone number is the telephone number of the user.

Mail address

The mail address is the mail address of the user.

In the injection molding machine 1 according to the present embodiment, software for communicating with the network terminal 4 is included. Specifically, the software is the following server functions: a connection request is received from the network terminal 4 and a connection is established by performing user authentication. The server function is contained in the controller of the injection molding machine 1. As will be described later, the server function refers to the above-described user information and performs user authentication.

Further, in the network terminal 4 according to the present embodiment, software as a client function for communicating with the injection molding machine 1 is contained in the network terminal 4. The client function communicates with the server function of the injection molding machine 1 to establish a connection through user authentication. Both the display 6 of the network terminal 4 according to the present embodiment and the display 3 of the injection molding machine 1 according to the present embodiment are configured with multiple windows. That is, a plurality of windows can be displayed simultaneously.

A method of connecting the network terminal 4 according to the present embodiment to the injection molding machine 1 according to the present embodiment will be described. When a predetermined operation is performed in the network terminal 4, a window is created on the display 6 as shown in fig. 2, and the network connection screen 8 is displayed in the window. The network connection screen 8 is a screen previously installed in the network terminal 4, and the network connection screen 8 is a part of a client function. On the network connection screen 8, the host name or IP address of the injection molding machine to be connected is input into the host name input field 9. For example, the host name of the injection molding machine 1a shown in fig. 1 is input. Then, the user ID of the user is input into the user ID input field 10, and the password is input into the password input field 11, and the connect button 13 is clicked. Then, the client function of the network terminal 4 makes a connection request to the server function of the injection molding machine 1a having the input host name, and the client function of the network terminal 4 is subjected to user authentication. The server function of the injection molding machine 1a refers to the user information file, and the server function of the injection molding machine 1a performs user authentication using the entered user ID and password.

As shown in fig. 1, when the user authentication is successful, the server function of the injection molding machine 1a creates a user information window 15 on the display 3 of the injection molding machine 1a and displays a face picture of the user. Since the user information window 15 is relatively small, the user information window 15 does not interfere with other screens displayed on the display 3. Note that: the telephone number or mail address of the user may be displayed simultaneously in the user information window 15. By seeing that the user information related to the user is displayed on the injection molding machine 1a to be connected, the user can check that the connection destination is not wrong. On the other hand, in the network terminal 4, when the user authentication is successful, the client function turns off the network connection screen 8 on the display 6. Then, as shown in fig. 1, the virtual network terminal 18 is turned on. The virtual network terminal 18 is a virtual display on the network, and the content displayed on the display 3 of the injection molding machine 1a is duplicated and the same content is displayed. In other words, the server function of the injection molding machine 1a causes the virtual network terminal 18 to display the screen that is identical to the screen displayed on the display 3 of the injection molding machine 1a. Thus, the user information window 15 is also displayed on the virtual network terminal 18. Thereafter, in the network terminal 4, the user can operate the screen displayed on the virtual network terminal 18, and the user can indirectly operate the screen displayed on the display 3 of the injection molding machine 1a. As a result, the user can operate the injection molding machine 1a from the network terminal 4. Since the user information window 15 is displayed on the display 3 of the injection molding machine 1a and displays a face picture of the user in operation, it is possible to prevent other users from operating the injection molding machine 1a by mistake.

The network terminal 4 according to the present embodiment can be connected to a plurality of injection molding machines 1a, 1b, … … at the same time. In fig. 1, not only the virtual network terminal 18 but also the virtual network terminal 18' are displayed in the network terminal 4, and instruction is given: the virtual network terminal 18 'displays the same screen as that displayed on the display 3' of the injection molding machine 1 c. As described above, after the network connection screen 8 is initially displayed and user authentication is received from the injection molding machine 1c, the virtual network terminal 18' is also displayed. Also on the display 3 'of the injection molding machine 1c, a user information window 15' for displaying user information such as a face picture is displayed. Since the display 6 of the network terminal 4 is a multi-window, a plurality of displayed windows are selected to be in an active state or in an inactive state of non-selection by a pointing device such as a mouse. When the virtual network terminals 18 and 18' are switched between the active state and the inactive state, the colors of the user information windows 15 and 15' displayed on the displays 3 and 3' of the connected injection molding machines 1a and 1c are changed together. For example, when the virtual network terminal 18 is in the activated state, the user information window 15 on the display 3 of the corresponding injection molding machine 1a is displayed in color, and when the virtual network terminal 18' becomes in the deactivated state, the user information window 15' on the display 3' of the corresponding injection molding machine 1c is displayed in black and white. Alternatively, the user information window 15 'may be in a semi-transparent state when the corresponding user information window 15' is in an inactive state.

When the connection with the network terminal 4 is terminated, the injection molding machine 1 according to the present embodiment closes the user information window 15 from the display 3. For example, when the window of the virtual network terminal 18 is closed in the network terminal 4, the server function of the injection molding machine 1 determines that the connection has been terminated. The server function then closes the user information window 15 on the display 3 of the injection molding machine 1a. In this way, it is easy to determine that the injection molding machine 1a is not operated remotely.

Various modifications are possible for the injection molding machine 1 and the network terminal 4 according to the present embodiment. For example, the user information window 15 has been described so as to display a face picture, however, a user ID may be displayed, or other information for identifying the user may be displayed. Further, user authentication is described as being performed using a user ID and a password, however, user authentication can also be performed using other methods. For example, a fingerprint authentication device may be provided in the network terminal 4 to identify a user through fingerprint authentication, and the identification information may be transmitted to a server function of the injection molding machine 1 to perform user authentication.

Claims (2)

1. A remotely operable injection molding machine (1), a network terminal (4) being connected to the injection molding machine (1) via a network in the vicinity of the injection molding machine (1) by user authentication such that an operation screen of the injection molding machine (1) is displayed on the network terminal (4), the injection molding machine (1) comprising:

a display (3); and

a controller configured to store user information for the user authentication, and to cause the injection molding machine to have a server function of receiving a connection request from the network terminal to establish a connection by performing the user authentication,

the controller is configured to:

connecting the network terminal with reference to a user ID and a password inputted to one screen on the network terminal;

-creating a user information window (15) on the display (3) when the network terminal (4) is connected to the injection molding machine (1);

-displaying, on the display (3), the user information related to a user who successfully performs authentication through the user information window (15); and is also provided with

Closing the user information window (15) when terminating the connection of the network terminal (4), and

wherein the user information includes a facial picture of the user,

wherein the network terminal (4) is capable of being simultaneously connected to a plurality of injection molding machines via a network, and displays a plurality of operation screens respectively corresponding to the plurality of injection molding machines connected via the network in a multi-window, and

wherein when a predetermined operation screen is switched between an activated state in a selected state and a deactivated state in a non-selected state by a pointer device on the network terminal (4), a display color of the user information window (15) is switched in the injection molding machine (1) corresponding to the predetermined operation screen.

2. The remotely operable injection molding machine (1) according to claim 1, wherein the user information is displayed in a predetermined area of an operation screen displayed on the network terminal (4).