CN200974318Y - Intermittent rotating device for injection machine and injection machine having same - Google Patents

Abstract

The device is an intermittent rotation device of injection molding machine; an intermittent rotating shaft can be supported a left intermittent rotating machine rack and a right intermittent rotating machine rack. An intermittent rotating drum is fixed at the middle of the intermittent rotating shaft; intermittent rotating drum has a plurality of directional through holes of which the centers are distributed evenly at the same circle. A plurality of locking and unlocking mould sliding rods can be fixed at a plurality of the corresponding directional through holes in sliding; a fixed mould fixing round plate is mounted at the right intermittent rotating rack. The fixed mould fixing round plate has a plurality of fixed mould fixing ladder through holes of which the centers are distributed evenly at the same circle; an intermittent rotating mechanism is connected with the intermittent rotating shaft in rotation. The utility model intermittent rotating device is used for injection molding machine, which can realize automata ion and continuity of unlocking and locking mould of injection molding machine; and greatly improve the efficiency of the injection molding machine. The utility model also discloses an intermittent rotating device for injection molding machine.

Description

A kind of injection machine that is used for the interval rotation device of injection machine and has this device

Technical field

The utility model relates to a kind of injection machine that is used for the interval rotation device of injection machine and has this device.

Background technology

At present, existing injection machine is that the Chinese patent application of CN1597297, CN1765611, CN2496637, CN2638965 and CN2721368Y is disclosed as publication number, the opening of injection machine, clamping apparatus and injection moulding apparatus all have electric motor driven hydraulic mechanism, this not only makes injection machine complex structure, manufacturing cost increase, and makes the complex operation of injection machine.In addition, do not find to have in the prior art the electronic interval rotation device that is used for injection machine as yet.

Summary of the invention

The utility model will solve the baroque technical problem of existing injection machine, and a kind of novel interval rotation device and the injection machine with this device are provided.

The interval rotation device that is used for injection machine of the present utility model; it is characterized in that; one left side is intermittently rotated frame and is rotated frame a right intermittence and is fixedly mounted on the support; one intermittently turning cylinder be rotatably supported in a left side and intermittently rotate frame and rightly intermittently rotate on the frame; one intermittently rotating cylinder be fixedly mounted on the intermittently middle part of turning cylinder; intermittently rotating cylinder has a plurality of its centers guide through hole of branch on same circle equably; a plurality of opening; the locked mode sliding bar is slidably mounted in corresponding a plurality of guide through hole; one cover half fixed disc is fixedly mounted on and rotates on the frame right intermittence; the cover half fixed disc has a plurality of its centers cover half fixed step through hole of branch on same circle equably; one intermittently rotation drive machine be fixedly mounted on the support, intermittently rotation drive machine links to each other with turning cylinder transmission at intermittence.

Injection machine of the present utility model is characterized in that, comprising: an injection moulding apparatus, a plasticizing apparatus, one advance that a unloading device, an interval rotation device, are opened, clamping apparatus and a controller for electric consumption; One left side of interval rotation device is intermittently rotated frame and is rotated frame a right intermittence and is fixedly mounted on the support, one intermittently turning cylinder be rotatably supported in a left side and intermittently rotate frame and rightly intermittently rotate on the frame, one intermittently rotating cylinder be fixedly mounted on the intermittently middle part of turning cylinder, intermittently rotating cylinder has a plurality of its centers guide through hole of branch on same circle equably, a plurality of opening, the locked mode sliding bar is slidably mounted in corresponding a plurality of guide through hole, each is opened, the left end of locked mode sliding bar all has a larger-diameter flange column cap, each is opened, the right-hand member of locked mode sliding bar all fixedly mounts a dynamic model, one cover half fixed disc is fixedly mounted on and rotates on the frame right intermittence, the cover half fixed disc has a plurality of its centers cover half fixed step through hole of branch on same circle equably, a plurality of cover half are fixedly mounted in corresponding a plurality of cover half fixed step through hole, one intermittently rotation drive machine be fixedly mounted on the support, intermittently rotation drive machine links to each other with turning cylinder transmission at intermittence; Open, clamping apparatus is fixedly mounted on the support, open, a die sinking leading screw of clamping apparatus and a locked mode leading screw with open, the collaborative work of locked mode sliding bar; The lower shaft board that seat advances a plane bearing of a unloading device is fixedly mounted on the support; Injection moulding apparatus is fixedly mounted on the upper bearing (metal) plate of plane bearing; One plasticizing cylindrical shell of plasticizing apparatus is fixedly mounted on the plasticizing frame of injection moulding apparatus, and an end of a plasticized screw of plasticizing apparatus or a plasticizing axle is connected on the sliding support of injection moulding apparatus.

Interval rotation device of the present utility model is used for injection machine, can make the opening of injection machine, locked mode and injection moulding realize automation and serialization, and the efficient of injection machine is improved greatly.

Injection machine of the present utility model is compared with existing injection machine, has following advantage:

1, the injection moulding apparatus of injection machine of the present utility model, plasticizing apparatus, seat advance a unloading device, interval rotation device and open, clamping apparatus do not have hydraulic mechanism, simplified the structure of injection machine greatly, not only make the easy and simple to handle of injection machine, and reduced the manufacturing cost of injection machine;

2, because injection machine of the present utility model does not have hydraulic mechanism, the problems such as leakage of oil, oil vapour pollution, temperature raising and high noisy of having avoided hydraulic-driven to produce, therefore the workshop condition of the factory peace and quiet that more can keep clean are fit to high clean product and the production environment that requires;

3, the charging of injection machine of the present utility model, injection moulding, die sinking, locked mode, intermittently rotate each action and directly drive, thereby reduced energy loss, and have hydraulically powered injection machine to compare to economize on electricity 60% by independent motor;

4, the charging of injection machine of the present utility model, injection moulding, die sinking, locked mode, intermittence rotate each action and do not use hydraulic oil, so this machine does not need cooling water, use when having only mould to cool off, the consumption of cooling water is about 10% of hydraulically powered injection machine;

5, injection machine of the present utility model adopts monotype chamber injecting products, go out product and have the full and stable high advantage of body, but also can the very thin part of injection moulding.

Description of drawings

Fig. 1 is the perspective diagram of first embodiment of injection machine of the present utility model;

Fig. 2 is the perspective diagram of the injection moulding apparatus in the injection machine shown in Figure 1;

Fig. 3 is the perspective diagram of the plasticizing apparatus in the injection machine shown in Figure 1;

Fig. 4 is the perspective diagram that the seat in the injection machine shown in Figure 1 advances a unloading device;

Fig. 5 is the perspective diagram of the interval rotation device in the injection machine shown in Figure 1;

Fig. 6 is the perspective diagram of opening in the injection machine shown in Figure 1, clamping apparatus;

Fig. 7 be shown in Figure 6 open, the cross-sectional schematic of the die opening mechanism in the clamping apparatus;

Fig. 8 be shown in Figure 6 open, the cross-sectional schematic of the clamping mechanism in the clamping apparatus;

Fig. 9 is the part parts in the injection moulding apparatus shown in Figure 2 and the cross-sectional schematic of the part parts in the plasticizing apparatus shown in Figure 3;

Figure 10 is the perspective diagram of second embodiment of injection machine of the present utility model;

Figure 11 is the perspective diagram of the plasticizing apparatus in the injection machine shown in Figure 10;

Figure 12 is the part parts in the injection moulding apparatus in the injection machine shown in Figure 10 and the cross-sectional schematic of the part parts in the plasticizing apparatus shown in Figure 11.

The specific embodiment

Referring to Fig. 1, the injection machine of first embodiment of the utility model comprises that an injection moulding apparatus 100, a plasticizing apparatus 200, one advance that a unloading device 300, an interval rotation device 400, are opened, clamping apparatus 500 and a controller for electric consumption (not shown).

As shown in Figure 2, injection moulding apparatus 100 comprises left injection moulding frame 110, one a right injection moulding frame 111, two supporting guide posts 112, a sliding support 113, an injection moulding thread bush 114, an injection moulding leading screw 115 and an injection moulding belt gear 120.

Referring to Fig. 2 and Fig. 9,111 fixed installations of left injection moulding frame 110 and right injection moulding frame are present on the upper bearing (metal) plate 310 of a plane bearing 303 of a unloading device 300 into.Left side injection moulding frame 110 has a horizontal screwed hole 130.Right injection moulding frame 111 has a horizontal bearing hole 140.Two supporting guide posts 112 flatly are fixedly mounted on left injection moulding frame 110 and the right injection moulding frame 111.Sliding support 113 has two guide through hole 118 and a ladder centre bore 117.Horizontal screwed hole 130, horizontal bearing hole 140 and ladder centre bore 117 concentrics.Sliding support 113 is slidably mounted on the two supporting guide posts 112 by two guide through hole 118.Injection moulding thread bush 114 is fixedly mounted on the right side of sliding support 113.One screwed hole of centre 116 of injection moulding thread bush 114 and ladder centre bore 117 concentrics of sliding support 113.Be installed in the right end portion of the bearing 123 rotatably support injection moulding leading screws 115 in the horizontal bearing hole 140 of right injection moulding frame 111.The left end portion of injection moulding leading screw 115 cooperates with the screwed hole of centre 116 of injection moulding thread bush 114.One big belt pulley 121 of injection moulding belt gear 120 is fixing by the right-hand member at injection moulding leading screw 115.Drive motor 122 fixed installation of injection moulding belt gear 120 is present on the upper bearing (metal) plate 310 of the plane bearing 303 of a unloading device 300 into.

During work, injection moulding belt gear 120 drives injection moulding leading screw 115 and rotates, injection moulding leading screw 115 drives injection moulding thread bush 114 drive sliding supports 113 and flatly horizontally slips on two supporting guide posts 112, when sliding support 113 slides left, one plasticized screw 202 of plasticizing apparatus 200 is moved to the left simultaneously, and the plasticizing material in a plasticizing cylindrical shell 201 left ends of plasticizing apparatus 200 is expressed in the injection mold from an injection nozzle that is installed in plasticizing cylindrical shell 201 left ends.

As shown in Figure 3, plasticizing apparatus 200 comprises aforesaid plasticizing cylindrical shell 201, plasticized screw 202, a plasticizing feed hopper 203 and a plasticizing belt gear 208.

Referring to Fig. 3 and Fig. 9, the right-hand member of plasticizing cylindrical shell 201 is fixedly mounted on by being threaded in the horizontal screwed hole 130 of left injection moulding frame 110.Plasticizing feed hopper 203 is fixedly mounted on left injection moulding frame 110 tops, its feed opening and the feeding inlet that plastifies cylindrical shell 201.Be installed in the right-hand member of the bearing 204 rotatably support plasticized screws 202 in the ladder centre bore 117 of sliding support 113.The motor 206 of plasticizing belt gear 208 is fixedly mounted on the sliding support 113.The big belt pulley 205 of plasticizing belt gear 208 is fixedly mounted on the right end portion of plasticized screw 202.

During work, raw material enters plasticizing cylindrical shell 201 from plasticizing feed hopper 203, and plasticizing belt gear 208 drives plasticized screw 202 and rotates in plasticizing cylindrical shell 201, and the raw material that enters in the plasticizing cylindrical shell 201 is fed forward, raw material is heated in having the plasticizing cylindrical shell 201 of heater, realizes plasticizing.

As shown in Figure 4, seat advances a unloading device 300 and comprises that one is advanced seat and moves back leading screw 301, one and advance seat and move back thread bush 302, a plane bearing 303 and one and advance a shedding tape handler 304.

Seat advances left end that seat moves back leading screw 301 and is rotatably supported on the bearing 430 in the right bottom dead eye that intermittently rotates frame 402 that is installed in interval rotation device 400.Seat advances seat on seat right end portion of moving back leading screw 301 and the lower left side that is fixedly mounted on left injection moulding frame 110 and advances to move back thread bush 302 and cooperate.Seat advances in the through hole 150 of bottom that right-hand member that seat moves back leading screw 301 stretches into left injection moulding frame 110.Seat advances screwed hole and through hole 150 concentrics that seat moves back thread bush 302.Seat advances a big belt pulley of shedding tape handler 304 305 fixed installation and is present into that seat moves back on the left end portion of leading screw 301.Seat advances on the lower shaft board 311 that a motor of shedding tape handler 304 306 is fixedly mounted on plane bearing 303.Plane bearing 303 comprises upper bearing (metal) plate 310, lower shaft board 311 and a plurality of cylindrical rollers between upper bearing (metal) plate 310 and lower shaft board 311.The mechanism of plane bearing 303 of the present utility model is known.

During work, seat advances a shedding tape handler 304 and drives seat and advance seat and move back leading screw 301 and rotate, seat advances seat and moves back leading screw 301 and drive seat and advance seat move back that thread bush 302 drives left injection moulding frames 110 and upper bearing (metal) plate 310 flatly horizontally slips on a plurality of cylindrical rollers of plane bearing 303, injection moulding apparatus 100 and plasticizing apparatus 200 are advanced left or retreat to the right, plasticizing apparatus 200 advances left when arriving left stop, the injection nozzle of plasticizing cylindrical shell 201 left ends is pressed on the injection mold, for injection moulding is got ready.

As shown in Figure 5, interval rotation device 400 comprise a left side intermittently rotate frame 401, aforesaid right intermittently rotate frame 402, intermittently turning cylinder 403, intermittently rotating cylinder 404, a cover half fixed disc 405, a plurality of cover half 406, a plurality of dynamic model 407, a plurality ofly open, locked mode sliding bar 408 and a rotation drive machine 409 intermittently.

A left side is intermittently rotated frame 401 and is rotated frame 402 right intermittence and is fixedly mounted on the support 10.The lower shaft board 311 of aforesaid plane bearing 303 also is fixedly mounted on the support 10.A left side is intermittently rotated frame 401 and rotated frame 402 right intermittence respectively a dead eye, and a bearing respectively is installed in the dead eye.Intermittently the left and right end of turning cylinder 403 is rotatably supported in respectively on the interior bearing of dead eye.Intermittently rotating cylinder 404 is fixedly mounted on the intermittently middle part of turning cylinder 403.Intermittently rotating cylinder 404 has a plurality of its centers guide through hole 415 of branch on same circle equably.A plurality ofly open, locked mode sliding bar 408 is slidably mounted in corresponding a plurality of guide through hole 415.Each is opened, the left end of locked mode sliding bar 408 all has a larger-diameter flange column cap 416, and each is opened, the right-hand member of locked mode sliding bar 408 all fixedly mounts a dynamic model 407.Cover half fixed disc 405 is fixedly mounted on and rotates on the frame 402 right intermittence.Cover half fixed disc 405 has a plurality of its centers cover half fixed step through hole of branch on same circle equably.A plurality of cover half 406 are fixedly mounted in the cover half fixed step through hole.Intermittently rotation drive machine 409 is fixedly mounted on the support 10.Intermittently rotation drive machine 409 comprises intermittently rotation machine 440 of a belt gear 430 and.The motor 431 of belt gear 430 is fixedly mounted on intermittently on rotation machine 440 or the support 10.One big belt pulley 432 of belt gear 430 is fixedly mounted on the power shaft of rotation at intermittence machine 440.Intermittently the output shaft of rotation machine 440 links to each other with turning cylinder 403 left end transmission at intermittence by a shaft coupling.Intermittently rotation machine 440 is a kind of known reductors, and its course of work is that the power shaft of rotation at intermittence machine 440 rotates under the driving of belt gear 430 continuously, intermittently intermittently rotation of the output shaft of rotation machine 440 do.

During work, under the driving of belt gear 430, the output shaft of rotation at intermittence machine 440 is done intermittently rotation, drive turning cylinder at intermittence 403 and intermittently rotating cylinder 404 do rotations at intermittence.

As Fig. 6, Fig. 7 and shown in Figure 8 opens, clamping apparatus 500 comprises a die opening mechanism 510 and a clamping mechanism 530.

Die opening mechanism 510 comprises a die sinking leading screw 511, a die sinking thread bush 512 and a die sinking belt gear 513.512 one-tenth one multidiameter shapes of die sinking thread bush have a screwed hole of centre 514.The inner ring of one bearing 515 is installed on the part of less external diameter of die sinking thread bush 512 of multidiameter shape, and the outer ring of bearing 515 is installed in a left side and intermittently rotates in the frame 401 1 die sinking dead eyes.The left end portion of die sinking leading screw 511 cooperates with the screwed hole of centre 514 of die sinking thread bush 512.One big belt pulley 516 of die sinking belt gear 513 is fixedly mounted on the left end of die sinking thread bush 512.The motor 518 of die sinking belt gear 513 is fixedly mounted on the support 10.The right-hand member of die sinking leading screw 511 has a radially-protruding disk dog 519.

During work; under the driving of die sinking belt gear 513; die sinking thread bush 512 rotates; drive die sinking leading screw 511 move left and right flatly; when die sinking leading screw 511 moved right the position of right stop, the disk dog 519 of die sinking leading screw 511 right-hand members is positioned at interval rotation device 400 a certainly opened, the right side of the flange column cap 416 of locked mode sliding bar 408 left ends, when die sinking leading screw 511 is moved to the left; with this open, locked mode sliding bar 408 pulling left flatly, realize die sinking.

Clamping mechanism 530 comprises a locked mode leading screw 531, a locked mode thread bush 532 and a locked mode belt gear 533.532 one-tenth one multidiameter shapes of locked mode thread bush have a screwed hole of centre 534.The inner ring of one bearing 535 is installed on the part of less external diameter of locked mode thread bush 532 of multidiameter shape, and the outer ring of bearing 535 is installed in a left side and intermittently rotates in the frame 401 1 locked mode dead eyes.The left end portion of locked mode leading screw 531 cooperates with the screwed hole of centre 534 of locked mode thread bush 532.One big belt pulley 536 of locked mode belt gear 533 is fixedly mounted on the left end of locked mode thread bush 532.The motor 538 of locked mode belt gear 533 is fixedly mounted on the support 10.

During work; under the driving of locked mode belt gear 533; locked mode thread bush 532 rotates; drive die sinking leading screw 531 move left and right flatly; when locked mode leading screw 511 moves right the position of right stop; locked mode is realized in the position that correspondingly promote a certainly to open, locked mode sliding bar 408 moves right right stop.

The operating process of the injection machine of first embodiment of the utility model is as follows:

Start interval rotation device 400 intermittence rotation drive machine 409 belt gear 430 motor 431, the rotation at intermittence for the first time of the output shaft work of rotation at intermittence machine 440 stops operating behind drive turning cylinder at intermittence 403 and rotating cylinder 404 rotations at intermittence one predetermined angular.At this moment; under controller for electric consumption control, to open, the motor 538 of the locked mode belt gear 533 of the clamping mechanism 530 of clamping apparatus 500 starts, locked mode leading screw 511 moves right; locked mode is for the first time realized in the position that promote a certainly to open, locked mode sliding bar 408 moves right right stop.At this moment, under controller for electric consumption control, motor 538 quits work, meanwhile, the seat that seat advances a unloading device 300 advances a motor of shedding tape handler 304 306 startups, carries out forward rotation, upper bearing (metal) plate 310 flatly slides left on a plurality of cylindrical rollers of plane bearing 303, injection moulding apparatus 100 and plasticizing apparatus 200 are advanced left arrive left stop, the injection nozzle of plasticizing cylindrical shell 201 left ends is pressed on the injection mold, for injection moulding is got ready.At this moment, under controller for electric consumption control, motor 306 quits work, meanwhile, the motor 122 of the injection moulding belt gear 120 of injection moulding apparatus 100 starts, and carries out forward rotation, and plasticized screw 202 is moved to the left, the raw material that has plastified in plasticizing cylindrical shell 201 left ends is expressed in the injection mold from the injection nozzle that is installed in plasticizing cylindrical shell 201 left ends, realizes injection moulding for the first time.In first time injection moulding process, the raw material that has plastified that enters in the mould increases gradually, and the injection moulding resistance increases gradually, the revolution electric current of motor 122 increases thereupon, when the revolution electric current of motor 122 was increased to setting, under controller for electric consumption control, motor 122 quit work.At this moment, under controller for electric consumption control, the motor 206 of the plasticizing belt gear 208 of plasticizing apparatus 200 starts, plasticized screw 202 rotates, raw material is transported to plasticizing cylindrical shell 201 left ends, the raw material that arrives plasticizing cylindrical shell 201 left ends is had plasticizing cylindrical shell 201 heating plasticizings of heater, the raw material that has plastified increases gradually to the rotary resistance of plasticized screw 202, the revolution electric current of motor 206 increases thereupon, when the revolution electric current of motor 206 is increased to setting, under controller for electric consumption control, motor 122 starts, carry out backward rotation, plasticized screw 202 moves right, reposition.At this moment, under controller for electric consumption control, motor 122 and motor 206 quit work, meanwhile, motor 306 starts, and carries out backward rotation, and upper bearing (metal) plate 310 flatly slides to the right on a plurality of cylindrical rollers of plane bearing 303, injection moulding apparatus 100 and plasticizing apparatus 200 are retreated to the right arrive right stop, the injection nozzle and the injection mold of plasticizing cylindrical shell 201 left ends disengage.At this moment, under controller for electric consumption control, motor 306 quits work.

When the motor 538 of the locked mode belt gear 533 of clamping mechanism 530 starts; open, the motor 518 of the die sinking belt gear 513 of the die opening mechanism 510 of clamping apparatus 500 starts; carry out forward rotation; die sinking leading screw 511 is moved to the left; spur a certainly open, position that locked mode sliding bar 408 is moved to the left to left stop, realize die sinking for the first time.At this moment, under controller for electric consumption control, motor 518 quits work, and meanwhile, motor 538 starts, and carries out backward rotation, locked mode leading screw 511 reposition left.At this moment, under controller for electric consumption control, motor 538 quits work, and meanwhile, motor 518 starts, and carries out backward rotation, and die sinking leading screw 511 turns back to original position to the right.At this moment, under controller for electric consumption control, motor 518 quits work.

Die sinking leading screw 511 is moved to the left pulling a certainly opens, locked mode sliding bar 408 and locked mode leading screw 511 move right, and promote a certain opens, between the locked mode sliding bar 408 every one open, locked mode sliding bar 408.

So far, the injection machine of first embodiment of the utility model realize injection moulding for the first time and open for the first time, mode-lock operation.Do intermittently to rotate for the second time when the output shaft of rotation at intermittence machine 440, drive intermittently turning cylinder 403 and intermittently rotating cylinder 404 rotate when stopping operating behind the predetermined angulars, begin to carry out to open the injection moulding second time and the second time, mode-lock operation.

Referring to Figure 10, the injection machine of second embodiment of the utility model comprises that an injection moulding apparatus 100, a plasticizing apparatus 200 ', one advance that a unloading device 300, an interval rotation device 400, are opened, clamping apparatus 500 and a controller for electric consumption (not shown).

The injection moulding apparatus 100 of the injection machine of second embodiment of the utility model, seat advance a unloading device 300, interval rotation device 400, open, the injection moulding apparatus 100 of clamping apparatus 500 and controller for electric consumption and the injection machine of first embodiment of the utility model, advance a unloading device 300, interval rotation device 400, open, clamping apparatus 500 is identical with controller for electric consumption, no longer be described.

Referring to Figure 11 and Figure 12, the plasticizing apparatus 200 ' of second embodiment of the utility model comprises aforesaid plasticizing cylindrical shell 201, a plasticizing axle 202 ' and an aforesaid plasticizing feed hopper 203.

The right-hand member of plasticizing cylindrical shell 201 is fixedly mounted on by being threaded in the horizontal screwed hole 130 of left injection moulding frame 110.Plasticizing feed hopper 203 is fixedly mounted on left injection moulding frame 110 tops of injection moulding apparatus 100, its feed opening and the feeding inlet that plastifies cylindrical shell 201.Plasticizing axle 202 ' is contained in the plasticizing cylindrical shell 201.The right-hand member of plasticizing axle 202 ' and the sliding support 113 of injection moulding apparatus 100 are fixedly linked.

During work, raw material enters plasticizing cylindrical shell 201 from plasticizing feed hopper 203, the injection moulding belt gear 120 of injection moulding apparatus 100 drives injection moulding leading screw 115 and rotates, injection moulding leading screw 115 drives injection moulding thread bush 114 and drives sliding supports 113 and flatly horizontally slip on two supporting guide posts 112, and the plasticizing axle 202 ' on sliding support 113 of being fixedly linked is with sliding support 113 move left and right flatly.After raw material enters in the plasticizing cylindrical shell 201 downwards from plasticizing feed hopper 203 for the first time, stop blanking at once, plasticizing axle 202 ' is moved to the left for the first time from original position, shift the raw material that enters for the first time in the plasticizing cylindrical shell 201 onto plastify cylindrical shell 201 left end, then, plasticizing axle 202 ' moves right reposition for the first time; After raw material enters in the plasticizing cylindrical shell 201 downwards from plasticizing feed hopper 203 for the second time, stop blanking at once, plasticizing axle 202 ' is moved to the left for the second time from original position, push plastify the left end of cylindrical shell 201 to entering for the second time plasticizing cylindrical shell 201 interior raw materials, be squeezed in the raw material first time that has plastified of the left end of plasticizing cylindrical shell 201, it is extruded in the injection mold from the injection nozzle that is installed in plasticizing cylindrical shell 201 left ends, then, plasticizing axle 202 ' moves right for the second time, reposition is so carried out for the third time, is operated for the 4th time ...

The operating process of the operating process of the injection machine of second embodiment of the utility model and the injection machine of first embodiment of the utility model is similar, no longer is described.

The controller for electric consumption of injection machine of the present utility model belongs to the known controller for electric consumption in the existing electromechanical integrated device, after those skilled in the art read this specification, does not carry out that creative work just can realize.

Claims (7)

1; a kind of interval rotation device that is used for injection machine; it is characterized in that; one left side is intermittently rotated frame and is rotated frame a right intermittence and is fixedly mounted on the support; one intermittently turning cylinder be rotatably supported in a left side and intermittently rotate frame and rightly intermittently rotate on the frame; one intermittently rotating cylinder be fixedly mounted on the intermittently middle part of turning cylinder; intermittently rotating cylinder has a plurality of its centers guide through hole of branch on same circle equably; a plurality of opening; the locked mode sliding bar is slidably mounted in corresponding a plurality of guide through hole; one cover half fixed disc is fixedly mounted on and rotates on the frame right intermittence; the cover half fixed disc has a plurality of its centers cover half fixed step through hole of branch on same circle equably; one intermittently rotation drive machine be fixedly mounted on the support, intermittently rotation drive machine links to each other with turning cylinder transmission at intermittence.

2, according to the described interval rotation device of claim 1, it is characterized in that, intermittently rotation drive machine comprises intermittently rotation machine of a belt gear and, and belt gear links to each other with the power shaft transmission of intermittently rotating machine, and the output shaft that intermittently rotates machine links to each other with turning cylinder transmission at intermittence.

3, according to claim 1 or 2 described interval rotation devices; it is characterized in that; each is opened, the left end of locked mode sliding bar all has a larger-diameter flange column cap; each is opened, the right-hand member of locked mode sliding bar all fixedly mounts a dynamic model, and a plurality of cover half are fixedly mounted in corresponding a plurality of cover half fixed step through hole.

4, a kind of injection machine is characterized in that, comprising: an injection moulding apparatus, a plasticizing apparatus, one advance that a unloading device, an interval rotation device, are opened, clamping apparatus and a controller for electric consumption; One left side of interval rotation device is intermittently rotated frame and is rotated frame a right intermittence and is fixedly mounted on the support, one intermittently turning cylinder be rotatably supported in a left side and intermittently rotate frame and rightly intermittently rotate on the frame, one intermittently rotating cylinder be fixedly mounted on the intermittently middle part of turning cylinder, intermittently rotating cylinder has a plurality of its centers guide through hole of branch on same circle equably, a plurality of opening, the locked mode sliding bar is slidably mounted in corresponding a plurality of guide through hole, each is opened, the left end of locked mode sliding bar all has a larger-diameter flange column cap, each is opened, the right-hand member of locked mode sliding bar all fixedly mounts a dynamic model, one cover half fixed disc is fixedly mounted on and rotates on the frame right intermittence, the cover half fixed disc has a plurality of its centers cover half fixed step through hole of branch on same circle equably, a plurality of cover half are fixedly mounted in corresponding a plurality of cover half fixed step through hole, one intermittently rotation drive machine be fixedly mounted on the support, intermittently rotation drive machine links to each other with turning cylinder transmission at intermittence; Open, clamping apparatus is fixedly mounted on the support, open, a die sinking leading screw of clamping apparatus and a locked mode leading screw with open, the collaborative work of locked mode sliding bar; The lower shaft board that seat advances a plane bearing of a unloading device is fixedly mounted on the support; Injection moulding apparatus is fixedly mounted on the upper bearing (metal) plate of plane bearing; One plasticizing cylindrical shell of plasticizing apparatus is fixedly mounted on the plasticizing frame of injection moulding apparatus, and an end of a plasticized screw of plasticizing apparatus or a plasticizing axle is connected on the sliding support of injection moulding apparatus.

5, according to the described injection machine of claim 4, it is characterized in that, intermittently rotation drive machine comprises intermittently rotation machine of a belt gear and, and belt gear links to each other with the power shaft transmission of intermittently rotating machine, and the output shaft that intermittently rotates machine links to each other with turning cylinder transmission at intermittence.

According to claim 4 or 5 described injection machines, it is characterized in that 6, an end of plasticized screw is rotatably connected on the sliding support, a plasticizing belt gear of plasticizing apparatus links to each other with the plasticized screw transmission.

According to claim 4 or 5 described injection machines, it is characterized in that 7, an end and the sliding support of plasticizing axle are fixedly linked.

Images