CN1853907A - Control device for injector - Google Patents

Abstract

A control device of an injection molding machine which injects a molten resin from an injection nozzle is provided with a display section in which a touch panel is disposed, and a human-machine interface section equipped with a general-purpose operating system, and the human-machine interface section is provided with at least a storage section to store set values which are various molding conditions for each mold article and a control section which controls the display of the display section. The interface section displays, on the display section, a main screen to change settings for the molding conditions stored in the storage section and a subscreen to display indications such as monitors, and also constantly displays a change switch for a change of the screen in a fixed region of the display section.

Description

The control device that is used for injection machine

Technical field

The present invention relates to have the control device that uses in the injection machine of human-machine interface oral area.

Background technology

Injection machine is provided with bucket cylindraceous and drops into the hopper that the synthetic resin material is used.

Described bucket is provided with injection nozzle at leading section, and in inside injection screw is arranged to rotate freely and can advance and retreat to injection nozzle.

Described hopper is configured in the back of described bucket, the synthetic resin material that drops into is sent in the described bucket.Described bucket makes its fusing to the heating of synthetic resin material.So this barrel utilizes the rotation of injection screw behind the jet hole of injection nozzle contacting metal mould, the molten resin that heats is forced into leading section, be expelled to metal pattern from injection nozzle.

By the mould open-and-close mechanism metal pattern is remained on closure state, toward the molten resin of cavity filling injection mouth ejection.

Then, make injection nozzle leave metal pattern, make metal pattern open from the mould open-and-close mechanism.So, take out formed products from metal pattern.

The human-machine interface oral area of the control device setting operation portion of this control injection machine and control display part.

The human-machine interface oral area is by the numeric data of operator to the related speed of each operation such as the operating and setting injection of operating portion, mould folding, extrusion, measurement, pressure, time etc.Then, the numeric data of setting is used as setting value and is presented at display part.

Display part shows and to be used for the key frame that setting value is set and the sprite of display monitor value.

Display part utilizes the mechanical keys of hardware, selects picture displayed group on the key frame, and utilizes the function key that is located at the display frame bottom, and the picture that carries out same picture group switches.Then, utilize the picture and selecting key that is configured in menu screen, carry out picture and switch.

Therefore, when in sprite, carrying out the picture switching, behind the necessary temporary transient backtrack menu picture, the options button of operation screen, so to spend the useless time in the picture switching.

On the other hand, before formed products is formed, in the human-machine interface oral area, image switching of operator, one side is set to memory with various setting values respectively successively with setting apparatus.Then, after forming operation began, the operator simultaneously confirmed the quality of formed products, and one side is carried out the change of the setting value of each operation as required, adjusted optimum condition.

In this operation, most cases does not dispose each setting apparatus at same picture.Therefore, operate the operator of man-machine interface portion, each picture that all will simultaneously switch display part, after one side was searched the setting apparatus that needs, change was set, so wanted spended time in the picture switching.

Summary of the invention

The invention provides a kind of control device that is used for injection machine that when setting various molding condition, can shorten the time of the picture needs that switch display part.

The injection machine control device of a kind of mode of the present invention is used to determine the amount of molten resin of synthetic resin material of heat fused and the resin injection that will measure from the injection nozzle injection machine to metal pattern, and the display part of configuration touch pad in the display frame wherein is set; And has a human-machine interface oral area of storing at least as the loading general-purpose operating system of the control part of the storage part of the setting value of the various molding conditions of each formed products and control display part, the human-machine interface oral area makes the key frame of setting change of the molding condition that carries out storage portion stores and the sprite that carries out monitor value demonstration etc. be presented at display part respectively, also makes the change-over switch of image switching often be presented at the FX of display part simultaneously.

The display part demonstration forms the key frame of condition enactment change and the sprite of display monitor value, also often shows change-over switch simultaneously.Therefore, utilize the operation of change-over switch, make the picture switching when imposing a condition easy, can shorten the time that needs in switching.

Additional advantages of the present invention can be set forth in the explanation of its back, and its part can be understood from explanation, or obtain study by implementing the present invention.By method and the combination of hereinafter pointing out, can realize and obtain advantage of the present invention.

Description of drawings

Enroll and constitute the description of drawings embodiments of the invention of the part of this specification, and describe in detail together with above-mentioned general remark and the embodiment that provides later, one is used from and explains principle of the present invention.

Fig. 1 is the figure of composition that the electric injection molding machine of an embodiment of the present invention is shown.

Fig. 2 is the block diagram that is illustrated in the composition of the control device that uses in the injection machine main body of this embodiment.

Fig. 3 is the block diagram of composition of HMI portion that is illustrated in the control device of this embodiment.

Fig. 4 is illustrated in the figure that the crucial portion memory that is provided with in the storage device of HMI portion of this embodiment is formed.

Fig. 5 is the figure that is illustrated in the display frame when setting molding condition in the display part of this embodiment.

Fig. 6 is the figure that is illustrated in the image switching when selecting barrel temperature to set in the display frame shown in Figure 5.

Fig. 7 is the figure of the window picture of this numerical key input usefulness when being illustrated in the icon switch that touches ten key input usefulness in the display frame shown in Figure 6.

Fig. 8 is the figure of the image switching when being illustrated in the icon switch that touch is duplicated in the display frame shown in Figure 6.

Fig. 9 is the figure that another display frame of display part when setting molding condition of above-mentioned embodiment is shown.

Figure 10 is the figure of the image switching when being illustrated in the icon switch that touches menu in the display frame shown in Figure 9.

Figure 11 is the figure that is illustrated in the image switching of the on ﹠ off switch that touches barrel temperature in the display frame shown in Figure 10.

Figure 12 is the figure that is illustrated in the image switching when touching Page Down keys in the display frame shown in Figure 11.

The specific embodiment

Below, with reference to description of drawings an embodiment of the present invention.

Present embodiment describes the situation of the control device that the present invention is used for electric injection molding machine and uses.

As shown in Figure 1, injection machine main body 1 configuration injection screw 4 in having the bucket 3 cylindraceous of hopper 2.

Will shown in injection screw 4 be configured in the described bucket 3, make its rotation freely and also front and back free to advance or retreat.Shown in the bucket 3 and the rear portion be communicated with described hopper 2.From described hopper 2 the synthetic resin material is put in the described bucket 3.

Described bucket 3 is provided with a plurality of heating members of predetermined distance ground configuration in its periphery.

Described this heating member heats the peripheral part of bucket 3, makes the synthetic resin material fusing that drops into from hopper 2.

Described bucket 3 is provided with the injection nozzle 5 that the synthetic resin material of injection fusion is used at its leading section.

Temperature during with the heating of described bucket 3 is controlled at its rear portion minimum, and slowly raises from this rear portion toward the front portion.Utilize this temperature control, make the fully resin of fusing of injection nozzle 5 injections.

6 pairs of described injection screws 14 of injection servomotor are rotated driving, also make its front and back advance and retreat simultaneously.That is, described injection servomotor 6 passes to ball screw axle 11 by the transmission mechanism that comprises belt wheel 7, timing belt 8, timing belt wheel 9 with this rotation.

11 rotations of ball screw axle are located at servo carriage 103 freely.Described ball screw axle 11 is cooperated with ball nut 12.

Described ball nut 12 rotations are coupled to thrust box 13 freely.

By unshowned S axle and bearing described injection screw 4 rotations are coupled on the described thrust bearing freely.Rotation cooperates described S axle freely on the described thrust box 13.Described S axle is installed timing belt wheel 14.

The 17th, measure and use servomotor.This is measured with servomotor belt wheel 16 is installed on rotating shaft.

Described timing belt 15 is erected between described timing belt wheel 14 and the described belt wheel 16.

Described timing belt 14 and timing belt 15 and belt wheel 16 constitute transmission mechanism.Described measurement determines the amount of the molten resin of injection with servomotor 17 by making described injection screw 4 forward impelling.That is, described injection screw 4 is according to the position of the amount decision propelling of the molten resin of injection.

Described measurement is passed to described S axle by described transmission mechanism with its rotation with servomotor 17, makes described injection screw 4 rotations.

Dispose metal pattern of forming by a sidepiece 181 and the other side 182 18 and the device 19 that carries out these metal pattern 18 foldings and locked mode in the place ahead of described bucket 3.

During from described injection nozzle 5 injecting molten resins, described injection nozzle 5 extruding are located at the jet hole 18a of a sidepiece 181 of described metal pattern.

In this state, described injection screw 4 makes its leading section 4a carry out the action that advances toward the place ahead.The molten resin that produces in the leading section 4a extruding bucket 3 by described injection screw 4 makes it from described injection nozzle 5 injections.Inject the molten resin of injection from jet hole 18a, fill it in the cavity 20 of metal pattern 18.

Described device 19 is provided with the fixed disk 21 of a sidepiece 181 of supporting metal pattern.Then, described fixed disk 21 is provided with connecting rod 22 sliding freely.Described connecting rod 22 is installed in the movable disk 23 of the other side 182 of supporting metal pattern 18.

Described movable disk 23 is arranged to move freely, and described fixed disk 21 is advanced, retreats, thereby carry out closure, the opening of described metal pattern 18 with described connecting rod 22.

Described device 19 is contained in linkage support disc 25 by link-type clamping mechanism 24 with described movable disk 23.Described linkage support disc 25 is installed the locked mode servomotor 26 that drives described clamping mechanism 25 usefulness.

The 27th, thickness guiding mechanism, the thickness when the described clamping mechanism 24 of these thickness guiding mechanism 27 adjustment carries out locked mode.

Above-mentioned such electric injection molding machine that constitutes at first drives locked mode servomotor 26.Thus, metal pattern 18 beginning matched moulds.

And the jet hole 18a of 5 pairs of metal patterns 18 of injection nozzle of bucket 3 pushes.

Secondly, measure and utilize its rotation that injection nozzle 4 is advanced, the amount of the molten resin of injecting with decision with servomotor 17.

Then, injection servomotor 6 makes injection screw 4 rotations, with injecting molten resin, also makes its propelling simultaneously.

Bucket 3 is from injection nozzle 5 injecting molten resins.In the molten resin injection cavity 20 of jet hole 18a with injection of metal pattern.

As shown in Figure 2, the control device that is used to control injection machine main body 1 has master control part 31, series processing portion 32, the servo instruction portion 33 of control each several part.

Described master control part 31 has CPU, ROM, RAM, carries out management, the supervision of injection machine main body 1.

Described series processing portion 32 has CPU, ROM, RAM, the sequence of movement of control injection machine main body 1.

Described servo instruction portion 33 has CPU, ROM, RAM, controls described injection servomotor 6 and measures with servomotor 17.By bus 34 described master control part 31, series processing portion 32, servo instruction portion 33 are electrically connected mutually.

Described servo instruction portion 33 control servo amplifiers 35, and drive described injection servomotor 6.Detect the rotation and the current value of described injection servomotor 6 with test section 36.

Described servo instruction portion 33 is taken into signal from described test section 36, and detects the current value of shift position, rotary speed and the motor of described injection screw 4.

Then, described servo instruction portion 33 carries out FEEDBACK CONTROL according to the current value of detected shift position, rotary speed and motor, to control described injection servomotor 6.

Again, described servo instruction portion 33 control servo amplifiers 33, and drive and measure with servomotor 17.Detect rotation and the current value of described measurement with test section 38 with servomotor 17.

Described servo instruction portion 33 is taken into signal from described test section 38, and detects the current value of shift position, rotary speed and the motor of described injection screw 4.

Then, described servo instruction portion 33 carries out FEEDBACK CONTROL according to the current value of detected shift position, rotary speed and motor, to control described measurement with servomotor 17.

Described series processing portion 32 is electrically connected input/output unit 40 by input/output bus 39.

Described master control part has communication interface part, and LAN42 such as (registration marks) is connected to this communication interface part with HMI (man-machine interface) portion 41 by Ethernet.Described HMI portion 41 has CPU, ROM, general purpose O S (operating system).

Described HMI portion 41 comprises for example personal computer, and connects the display part 43 of configuration touch pad on the LCD picture, controls this display part 43.

Described master control part 31 connects the operation board 44 that a plurality of mechanically actuated switches are set by cable 45.Described master control part 31 connects the touch pad of described display part 43 by cable 46.

Described master control part 31 connects temperature control part 47 by cable 48.The temperature of the each several part of the described bucket 3 that a plurality of heating members that described temperature control part 47 controls are configured in the periphery of bucket 3 heat.

As shown in Figure 3, described HMI portion 41 communication interface 54 that the RAM53 of CPU51, the ROM52 that deposits program that constitutes the control part main body, the storage area that is provided for deal with data etc. is set, communicates by LAN42 and described master control part.

Described HMI portion 41 is provided with medium interface 58, this interface connects external memory medias 57 such as the storage device 56 of non-volatile storage medium such as the controller 55 of the described display part 43 of control, use compact flash device (registration mark) card of depositing general purpose O S etc. and hardware unit and CD, and carries out data communication with this external memory media 57.

Bus 59 is electrically connected described CPU51, ROM52, RAM53, communication interface 54, display controller 55, storage device 56, medium interface 58 mutually.

Described HMI portion 41 shows control by display controller 55 to described display part 43.

31 inputs of described master control part are from the key signals of the touch pad of display part 43, and by LAN42 the signal that HMI portion in the key signals of input 41 needs are sent to this HMI portion 41.

As shown in Figure 4, described storage device 56 has the video data memory cell 561 of storing the video data that shows on the described display part 43 on medium, the buffer 562 that duplicates the setting value in temporary transient storage replication source when setting value.

Also can form video data memory cell and buffer 562 at described external memory media 57.

Described HMI portion 41 has when touching the setting window I that sets forth later and going up the duplicate of setting, and the setting value that this settings window I is gone up demonstration temporarily stores the function of described buffer 562 into.

The setpoint cell of the setting value viewing area that touches is identical with the setpoint cell of described buffer 562 storages, and under the situation of setting value in the setting value permissible range of the setting value viewing area that touches of described buffer 562 storages, when touching this setting value viewing area, described HMI portion 41 has the setting value of the duplicating described buffer 562 storages function as the setting value of this setting value viewing area.

In above-mentioned such injection machine that constitutes, when a formed products was formed, display part 43 showed the picture of the setting of selecting molding condition.

In this state, touch the touch pad of display part 43, select the setting value of molding condition, display part 43 shows the picture of setting molding condition shown in Figure 5.

This display frame often shows the change-over switch of image switching at FX A.As the change-over switch that shows, be the icon switch of " list ", " temperature ", " locked mode ", " injection ", " production ", " monitor ", " option ", " record " for example.

Like this, display part 43 often shows the icon switch of image switching at the FX A of display frame, thereby can display frame be switched to the picture of appointment with the operation that touches the icon switch.

Therefore, this control device can make the time that needs in display part 43 image switchings shorten.

Fig. 5 illustrates the display frame of the display part 43 behind touch " temperature " the icon switch 61.

Described display part 43 shows the sprite G that carries out monitor value demonstration etc. on the top of its display frame, show the key frame H that forms the condition enactment change in the bottom.Described sprite G and key frame H go up show tags 72 respectively.

The key frame H of display part 43 show " barrel temperature ", " bucket PID ", " mould temperature 1 ", " mould temperature 2 " ..., " mould temperature 5 " mark, the setting value that is set in below these marks is shown as setting value viewing area 81.

Fig. 5 illustrates the state of selection " barrel temperature " mark.Constitute this setting value viewing area 81 by selecting switch.

When setting " barrel temperature ", touch the switch of selecting of the setting value viewing area 81 that shows the barrel temperature setting value.Therefore, as shown in Figure 6, eject the setting window I that setting value is set usefulness.

Show the display part 82 that setting value is shown, last key 83, following key 84, " X " icon switch 85, the icon switch 86 of ten key input usefulness, the icon switch 87 that duplicates among the described setting window I.

The described key 83 of going up makes the setting value that shows on the display part 82 everybody increases progressively one by one.Described down key 84 makes the setting value that shows on the display part 82, and everybody successively decreases one by one.

Described " X " icon switch 85 is to make to set the switch that window I closes.The icon switch 86 of described ten key input usefulness is the switch that ejects ten key input window J shown in Figure 7.The described icon switch 87 that duplicates is the switches that duplicate the setting value of display part 88 demonstrations.

For example, HMI portion 41 shows at display part 43 under the state of display frame shown in Figure 6, when touching the switch 87 that duplicates, the display frame of display part 43 switched to replication mode picture shown in Figure 8.

At this moment, it is reduced to set window I, and it is presented at the right corner of display frame.The setting window I that is presented at this right corner only shows the icon of barrel temperature and the switch 87 that duplicates.

In this state, hope will be set the setting value " 400 " that window I shows and be used as " barrel temperature " temperature in addition, for example during the design temperature of " mould temperature 1 ", the setting value viewing area 81 of operator's touch " mould temperature 1 " select switch.

HMI portion 41 makes the setting value of setting window I demonstration temporarily store buffer 562 into.Then, the setpoint cell of the setting value viewing area 81 of HMI portion 41 affirmations " mould temperature 1 " is identical with the setpoint cell of the setting value viewing area 81 of " barrel temperature ", and the setting value of the setting value viewing area 81 of affirmation " barrel temperature " is in the setting value permissible range of the setting value viewing area 81 of " mould temperature 1 ".

Thus, HMI portion 41 is sent to master control part 31 with the setting value of temporary transient storage in the buffer 562.The setting value overwrite that master control part 31 will be received is on the setting value of " mould temperature 1 ".

Like this, store the regional overwrite setting value " 400 " of " mould temperature 1 " setting value at the RAM of master control part 31.

Moreover, " mould temperature 2 ", " mould temperature 3 " ... when also setting this setting value for, the operator can touch successively " mould temperature 2 ", " mould temperature 3 " ... setting value viewing area 81 select switch.Like this, as long as this control device satisfies permissible range, just can use a setting value overwrite of setting among the setting window I on another setting value with identical unit.

Therefore, when this control device needs a plurality of setting like that in the temperature setting, do not open setting window I at every turn and can set setting value yet, thereby can make the time shortening that needs in the temperature setting by duplicating.

In addition, this control device can be set as the temperature in another barrel zone setting the setting value " 400 " that shows among the window I.

Then, in the replication mode picture of Fig. 8, when touching the icon switch 81 that duplicates of setting window I, the replication mode picture is eliminated by HMI portion 41.

Fig. 9 is illustrated in the display frame of the display part 43 behind the icon switch 62 that touches " list " among the FX A of display frame.This display frame is called the guide look picture.

The picture of this guide look picture basic molding condition of display setting on same picture.

That is to say that this is had a guide look of picture and sets (HEATROL) B, injection measurement setting (INJECTROL) C, locked mode setting (CLAMTROL) D, extrudes the setting picture of setting (EJECTROL) E, timer setting (TIMER) F with list mode displays temperature.The described picture of respectively setting is respectively a picture of setting basic molding condition.

Therefore, display part 43 can make the picture of setting basic molding condition be presented on the same picture, not image switching and form condition enactment.

Therefore, HMI portion 41 can not need to switch the picture of display part 43 when setting molding condition.

Then, when in the picture of Fig. 9, touching the icon switch 63 of " menu " of FX A, show menu screen shown in Figure 10.

On this menu screen to the mode display frame main assembly of each project to gather of " temperature ", " locked mode ", " injection ", " production ", " monitor ", " option ", " record " and so on.

Like this, each project gathers the display frame main assembly, thereby the operator can utilize display part 43 to discern projects at a glance to have which kind of picture.

When operating the switch in projects, show its picture, thereby the operator only just can make the picture as purpose show immediately with switching manipulation again.Therefore, this control device can make picture shortening switching time of display part 43.

For example, in " temperature " project of Figure 10, when touching the on ﹠ off switch 71 of " barrel temperature ", display part 43 shows temperature setting picture shown in Figure 11.That is, display part 43 shows the sprite G that monitor is shown on top, shows the key frame H that forms the condition enactment change in the bottom.And key frame H and sprite G be show tags 72 separately.

Key frame H go up displayable mark 72 be " barrel temperature ", " bucket PID ", " mould temperature 1 ", " mould temperature 2 " ..., " mould temperature 5 ", totally 7.

If there be " mould temperature 6 " and " mould temperature 7 ", then at the mark of following one page demonstration to " mould temperature 6 " and " mould temperature 7 ".

Utilize Page Down keys 73, switch to nextpage.That is, when touching Page Down keys 73, show nextpage at key frame H as shown in Figure 12.On the key frame H of this nextpage, show the return key 74 that returns page or leaf.

Like this, mark 72 is also shown in constitutes respectively on the picture of key frame H and sprite G, thereby the operator can utilize mark 72 to judge other picture immediately wherein.

Then, the operator can switch to other picture by touching mark 72, thereby one side is switched " barrel temperature ", " the bucket PID " that for example constitutes key frame H ... Deng, one in the face of setting, thereby can shorten the operation that setting value is set significantly.

Like this, finish this various setting operation, then the operator starts injection molding operation.

In the injection moulding, master control part 31 control temperature control parts 47.The temperature that a plurality of heating members of temperature control part 47 controls heat.Thus, make the synthetic resin material fusing of putting into bucket 3 from hopper 2.

Then, from injection nozzle 5 injecting molten resins of bucket 3, when filling it in the metal pattern cavity 20, control sequence handling part 32 and servo instruction portion 33.

At first, servo instruction portion 33 control servo amplifiers 37, and drive measurement servomotor 17.Measure servomotor 17 and make injection screw rotation and propelling, to measure from the molten resin amount of bucket 3 injections.

Then, drive injection servomotor 6, make injection screw 4 rotations and further propelling.Its leading section of injection screw 4 usefulness 4a is forced into injection nozzle 5 with molten resin.Thus, make from the molten resin of the jet hole 18a of the metal pattern 18 of injection nozzle 5 injection and fill metal pattern cavity 20.

During end-of-fill, carry out the folding of metal pattern 18 and device 19 actions of locked mode, make metal pattern 18 leave bucket 3.Then, device 19 is opened a sidepiece 181 of metal pattern 18 and the other side 182.Like this, just take out the product that is shaped from metal pattern 18.

Moreover, in the above-described embodiment, be that example is illustrated, but also can handle equally when duplicating the setting value of temperature beyond setting with the situation of duplicating the setting value of temperature when setting.

In the above-described embodiment, illustrated that the display part that will dispose touch pad is arranged to separate with HMI portion, but also can be integrated with HMI portion.

This area adept is not difficult to expect the modification of additional advantage.Therefore, the present invention is not subjected to the restriction of detail described here and representative embodiment on its range, thereby can do various modifications and do not depart from the spirit and scope of total inventive concept of appended claims and equivalent elements thereof regulation.

Claims (5)

1, a kind of control device is used to determine the amount of molten resin of synthetic resin material of heat fused and the resin injection that will measure from injection nozzle (5) to the injection machine of metal pattern (18), it is characterized in that, is provided with

The display part (43) of configuration touch pad in the display frame; And

Have the human-machine interface oral area of storing at least as the loading general-purpose operating system of the control part (51) of the storage part (56) of the setting value of the various molding conditions of each formed products and the described display part of control (43) (41),

Described human-machine interface oral area (41) makes the key frame of setting change of the molding condition that carries out described storage portion stores and the sprite that carries out monitor value demonstration etc. be presented at described display part respectively, also makes the change-over switch of image switching often be presented at the FX of described display part simultaneously.

2, the control device that is used for injection machine described in claim 1 is characterized in that,

Described human-machine interface oral area (41) is controlled described display part (43), picture is switched with mark be presented on the picture that constitutes key frame and sprite.

3, the control device that is used for injection machine described in claim 1 is characterized in that,

Described human-machine interface oral area (41) is controlled described display part (43), makes each project gather the display frame main assembly, and during the switch of the operation touch pad corresponding with projects, with this switch image switching accordingly.

4, the control device that is used for injection machine described in claim 1 is characterized in that,

Described human-machine interface oral area (41) is controlled described display part (43), and the picture of setting the basic molding condition in the molding condition is presented on the same picture.

5, the control device that is used for injection machine described in claim 1 is characterized in that,

Described human-machine interface oral area (41) comprises

The buffer of temporary setting value;

When touching the touch pad of the setting value viewing area that described display part (43) shows, open the unit of setting window with the icon switch that duplicates;

When touching the described icon switch of setting on this setting window of opening that duplicates, the setting value that this setting window is shown is temporary in the unit of described buffer; And

Unit in the setting value of following the setting value viewing area that touches, under the situation of setting value in the setting value permissible range of the setting value viewing area that then touches of and described buffer storage identical with the unit of the setting value of described buffer storage, when touching the touch pad of described setting value viewing area, duplicate the unit of the setting value of described buffer storage as the setting value of described setting value viewing area.

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