CN202357398U - Double-valve parallel mould adjusting and mould locking system of two-plate injection molding machine - Google Patents
Double-valve parallel mould adjusting and mould locking system of two-plate injection molding machine Download PDFInfo
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- CN202357398U CN202357398U CN2011204808298U CN201120480829U CN202357398U CN 202357398 U CN202357398 U CN 202357398U CN 2011204808298 U CN2011204808298 U CN 2011204808298U CN 201120480829 U CN201120480829 U CN 201120480829U CN 202357398 U CN202357398 U CN 202357398U
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- 238000001746 injection moulding Methods 0.000 title abstract description 7
- 238000002347 injection Methods 0.000 claims description 32
- 239000007924 injection Substances 0.000 claims description 32
- 230000008676 import Effects 0.000 claims description 18
- 230000002457 bidirectional effect Effects 0.000 claims description 15
- 239000002828 fuel tank Substances 0.000 claims description 7
- 230000009471 action Effects 0.000 abstract description 6
- 230000007246 mechanism Effects 0.000 abstract description 5
- 238000004134 energy conservation Methods 0.000 abstract description 2
- 239000010720 hydraulic oil Substances 0.000 description 15
- 238000012546 transfer Methods 0.000 description 15
- 239000003921 oil Substances 0.000 description 13
- 238000000034 method Methods 0.000 description 4
- 238000000465 moulding Methods 0.000 description 4
- 230000008569 process Effects 0.000 description 4
- 238000011161 development Methods 0.000 description 3
- 238000006073 displacement reaction Methods 0.000 description 3
- 229920003023 plastic Polymers 0.000 description 3
- 239000004033 plastic Substances 0.000 description 3
- 238000012545 processing Methods 0.000 description 2
- 244000188472 Ilex paraguariensis Species 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000002950 deficient Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 229920006351 engineering plastic Polymers 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000003754 machining Methods 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
- 238000012827 research and development Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
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Abstract
The utility model discloses a double-valve parallel mould adjusting and mould locking system of a two-plate injection molding machine. The system comprises a main oil way module and a control oil way module, wherein the main oil way module comprises a power source, a three-position four-way direction control valve bank, a hydraulic control one-way valve bank and an actuating mechanism; and the control oil way module comprises a two-position four-way direction control valve bank. An outlet of the power source is connected with an inlet of the three-position four-way direction control valve bank, an outlet of the three-position four-way direction control valve bank is connected with an inlet of the hydraulic control one-way valve bank, and an outlet of the hydraulic control one-way valve bank is connected with the actuating mechanism; and the system disclosed by the utility model can accurately control the power source to realize the integral energy conservation of the two-plate injection molding machine, and the two-plate injection molding machine controls the rotating speed of a servo motor to synchronously match the output flow rate of a quantitative hydraulic pump with the flow rate needed by the two-plate injection molding machine in real time. The system disclosed by the utility model can greatly improve the fastness and accuracy of mould adjusting action of the two-plate injection molding machine and guarantee more reliable and convenient mould locking action.
Description
Technical field
The utility model belongs to the plastics machinery technical field, is specifically related to a kind of bivalve parallel connection type two-plate injection machine mould-regulating mould-locking system.
Background technology
Injection machine is one of topmost machine in the plastics machinery, is undertaking the processing of the engineering plastics more than the general-purpose plastics and 90% more than 30%.Along with the development in moulding market, now the kind of moulding is more and more, and the developing rapidly of particularly big moulding market proposed new requirement to the ability of injection machine machining large moulding.The toggle rod type injection machine is still in occupation of leading position in the now domestic injection machine market; Many outstanding shortcomings such as but there is the mode transfer difficulty in the toggle rod type injection machine, clamp force is unstable, opening stroke is little; These defectives make the toggle rod type injection machine can not satisfy the processing request of present large-scale injection molding; Yet two-plate injection machine makes two-plate injection machine show powerful advantages for development because of its thorough innovation to toggle rod type injection machine mechanism and hydraulic system.In view of above present situation, current domestic each big injection machine enterprise has all converged to notice in the exploitation and development of two-plate injection machine.
The most outstanding distinctive points of toggle rod type injection machine and two-plate injection machine is the mould-regulating mould-locking part.The single hydraulic oil cylinder driving linkage of toggle rod type injection machine utilization is accomplished the locked mode action, and the mode transfer action needs manual adjustment mechanisms known to accomplish, and two-plate injection machine is to utilize four high-voltage oil cylinders that are installed on the solid plate to carry out mould-regulating mould-locking.The two-plate injection machine mould-regulating mould-locking partly is the critical component of two-plate injection machine.The quality of two-plate injection machine mould-regulating mould-locking part will be directly connected to the performance of two-plate injection machine.Current domestic existing part company successfully develops the completion two-plate injection machine; But in the mould-regulating mould-locking mechanism that has succeeded in developing, there are long, shortcomings such as the locked mode process is complicated, control inconvenience of mode transfer time, therefore need research and development mould-regulating mould-locking system more simply and easily.
Summary of the invention
The purpose of the utility model provides a kind of bivalve parallel connection type two-plate injection machine mould-regulating mould-locking system, comprises working connection module and control oil circuit module.The working connection module comprises power source, 3-position 4-way directional control valve group, hydraulic control one-way valve group and executing agency; Control oil circuit module comprises two-position four-way directional control valve group.
The outlet of power source is connected with the import of 3-position 4-way directional control valve group, and the outlet of 3-position 4-way directional control valve group is connected with the import of hydraulic control one-way valve group, and the outlet of hydraulic control one-way valve group is connected with executing agency.
Power source comprises servomotor, quantitative hydraulic pump, proportional pressure control valve and fuel tank, and the driven by servomotor quantitative hydraulic pump is that the utility model provides power; The import of proportional pressure control valve is connected with the outlet of quantitative hydraulic pump, and the outlet of proportional pressure control valve is connected with fuel tank.
3-position 4-way directional control valve group comprises 3-position 4-way proportion directional valve and 3-position 4-way solenoid directional control valve; 3-position 4-way proportion directional valve and the parallel connection of 3-position 4-way solenoid directional control valve are provided with; Wherein 3-position 4-way proportion directional valve is the rill metered valve, and the 3-position 4-way solenoid directional control valve is a large-capacity valve; The import of 3-position 4-way proportion directional valve and 3-position 4-way solenoid directional control valve is connected with the outlet of quantitative hydraulic pump.
The hydraulic control one-way valve group comprises eight hydraulic control one-way valves, and per two hydraulic control one-way valves are formed bidirectional hydraulic lock, and the outlet of proportion directional valve and solenoid directional control valve is connected with the import of four bidirectional hydraulic locks, and the outlet of four bidirectional hydraulic locks is connected with executing agency.
Executing agency comprises four hydraulic cylinders; The outlet of first hydraulic control one-way valve in the rod chamber of each hydraulic cylinder bidirectional hydraulic lock corresponding with it connects, and the outlet of second hydraulic control one-way valve in the rodless cavity of each hydraulic cylinder bidirectional hydraulic lock corresponding with it is connected.
Two-position four-way directional control valve group comprises four two-position four-way solenoid directional control valves; The import of each two-position four-way solenoid directional control valve is connected with the outlet of power source, and the outside control mouth of the outlet of each two-position four-way solenoid directional control valve and the bidirectional hydraulic lock corresponding with it is connected.
The mode transfer stage: at first carry out the quick mode transfer of big flow; Two-position four-way solenoid directional control valve work in the control oil circuit module; Open corresponding hydraulic control one-way valve, in the working connection module, the work of 3-position 4-way solenoid directional control valve; Driven by servomotor quantitative hydraulic pump output high-volume hydraulic oil flows into executing agency through 3-position 4-way solenoid directional control valve and corresponding hydraulic control one-way valve successively, thereby realizes the quick adjustment to Position of Hydraulic Cylinder.Next carries out the accurate mode transfer of low discharge; When the displacement transducer on the two-plate injection machine detects mode transfer distance and reaches preset value; The 3-position 4-way solenoid directional control valve quits work, the work of 3-position 4-way proportion directional valve, and two-plate injection machine gets into the accurate mode transfer stage; Driven by servomotor quantitative hydraulic pump output low discharge hydraulic oil flows into executing agency through 3-position 4-way proportion directional valve and corresponding hydraulic control one-way valve successively, thereby realizes the accurate adjusting to Position of Hydraulic Cylinder.
The locked mode stage: in the control oil circuit module, the work of two-position four-way solenoid directional control valve, hydraulic oil flows into the hydraulic control one-way valve outside control mouth respectively and opens hydraulic control one-way valve behind four two-position four-way solenoid directional control valves; In the working connection module; The hydraulic oil of driven by servomotor quantitative hydraulic pump output certain flow; The work of 3-position 4-way solenoid directional control valve; Hydraulic oil is flowed through and is flowed into the rod chamber of hydraulic cylinder behind the corresponding hydraulic control one-way valve, thereby the piston rod of four hydraulic cylinders pulling moving platen is accomplished the locked mode action with mold-locked.
The beneficial effect of the utility model is:
1, the utility model adopts 3-position 4-way solenoid directional control valve and the parallel connection of 3-position 4-way proportion directional valve to realize quick, accurately control to Position of Hydraulic Cylinder.
2, the utility model adopts the hydraulic control one-way valve group to realize the independent control to each hydraulic cylinder.
3, the utility model is through the accurate control to power source; Can realize the energy-conservation of two-plate injection machine integral body; Two-plate injection machine matees the output flow of quantitative hydraulic pump and the required flow of two-plate injection machine through the rotating speed of control servomotor in real time synchronously; Thereby realize the maximization of two-plate injection machine capacity usage ratio, greatly reduce energy loss.
Description of drawings
Fig. 1 is the utility model structural principle sketch map;
Fig. 2 is the utility model hydraulic schematic diagram;
Among the figure: 1. servomotor, 2. quantitative hydraulic pump, 3. proportional pressure control valve, 4. 3-position 4-way proportion directional valve; 5. 3-position 4-way solenoid directional control valve, the 6-1. first two-position four-way solenoid directional control valve, the 6-2. second two-position four-way solenoid directional control valve, 6-3. the 3rd two-position four-way solenoid directional control valve; 6-4. the 4th two-position four-way solenoid directional control valve, 7-1-1. first hydraulic control one-way valve, 7-1-2. second hydraulic control one-way valve, 7-2-1. the 3rd hydraulic control one-way valve; 7-2-2. the 4th hydraulic control one-way valve, 7-3-1. the 5th hydraulic control one-way valve, 7-3-2. the 6th hydraulic control one-way valve, 7-4-1. the 7th hydraulic control one-way valve; 7-4-2. the 8th hydraulic control one-way valve, 8-1. first hydraulic cylinder, 8-2. second hydraulic cylinder, 8-3. the 3rd hydraulic cylinder; 8-4. the 4th hydraulic cylinder, 9. displacement transducer, 10. fuel tank.
The specific embodiment
Below in conjunction with accompanying drawing the utility model is described further.
As shown in Figure 1, the utility model comprises working connection module and control oil circuit module, and the working connection module comprises: power source, 3-position 4-way directional control valve group, hydraulic control one-way valve group and executing agency; Control oil circuit module comprises two-position four-way directional control valve group.
As shown in Figure 2, power source comprises servomotor 1, quantitative hydraulic pump 2, proportional pressure control valve 3 and fuel tank 10, and servomotor 1 drives quantitative hydraulic pump 2 and for the utility model power is provided; The import of proportional pressure control valve 3 is connected with the outlet of quantitative hydraulic pump 2, and the outlet of proportional pressure control valve 3 is connected with fuel tank 10;
The outlet of power source is connected with the import of 3-position 4-way directional control valve group, and the outlet of 3-position 4-way directional control valve group is connected with the import of hydraulic control one-way valve group, and the outlet of hydraulic control one-way valve group is connected with executing agency;
3-position 4-way directional control valve group comprises 3-position 4-way proportion directional valve 4 and 3-position 4-way solenoid directional control valve 5; 5 parallel connections are provided with 3-position 4-way proportion directional valve 4 with the 3-position 4-way solenoid directional control valve; Wherein 3-position 4-way proportion directional valve 4 is the rill metered valve, and 3-position 4-way solenoid directional control valve 5 is a large-capacity valve; The import of 3-position 4-way proportion directional valve 4 and 3-position 4-way solenoid directional control valve 5 is connected with the outlet of quantitative hydraulic pump 2;
The hydraulic control one-way valve group comprises the first hydraulic control one-way valve 7-1-1, the second hydraulic control one-way valve 7-1-2, the 3rd hydraulic control one-way valve 7-2-1, the 4th hydraulic control one-way valve 7-2-2, the 5th hydraulic control one-way valve 7-3-1, the 6th hydraulic control one-way valve 7-3-2, the 7th hydraulic control one-way valve 7-4-1 and the 8th hydraulic control one-way valve 7-4-2; Per two hydraulic control one-way valves are formed bidirectional hydraulic lock; The outlet of 3-position 4-way proportion directional valve 4 and 3-position 4-way solenoid directional control valve 5 is connected with the import of four bidirectional hydraulic locks, and the outlet of four bidirectional hydraulic locks is connected with executing agency;
Executing agency comprises the first hydraulic cylinder 8-1, the second hydraulic cylinder 8-2, the 3rd hydraulic cylinder 8-3 and the 4th hydraulic cylinder 8-4.The rod chamber of the first hydraulic cylinder 8-1 is connected with first hydraulic control one-way valve 7-1-1 outlet, and the rodless cavity of the first hydraulic cylinder 8-1 is connected with the outlet of the second hydraulic control one-way valve 7-1-2; The rod chamber of the second hydraulic cylinder 8-2 is connected with the 3rd hydraulic control one-way valve 7-2-1 outlet, and the rodless cavity of the second hydraulic cylinder 8-2 is connected with the outlet of the 4th hydraulic control one-way valve 7-2-2; The rod chamber of the 3rd hydraulic cylinder 8-3 is connected with the 5th hydraulic control one-way valve 7-3-1 outlet, and the rodless cavity of the 3rd hydraulic cylinder 8-3 is connected with the outlet of the 6th hydraulic control one-way valve 7-3-2; The rod chamber of the 4th hydraulic cylinder 8-4 is connected with the 7th hydraulic control one-way valve 7-4-1 outlet, and the 4th hydraulic cylinder 8-4 rodless cavity is connected with the outlet of the 8th hydraulic control one-way valve 7-4-2.
Two-position four-way directional control valve group comprises the first two-position four-way solenoid directional control valve 6-1, the second two-position four-way solenoid directional control valve 6-2, the 3rd two-position four-way solenoid directional control valve 6-3, the 4th two-position four-way solenoid directional control valve 6-4; The import of two-position four-way directional control valve group is connected with the outlet of power source; The outlet of the first two-position four-way solenoid directional control valve 6-1 is connected with the outside control mouth of the first hydraulic control one-way valve 7-1-1, the second hydraulic control one-way valve 7-1-2 simultaneously; The outlet of the second two-position four-way solenoid directional control valve 6-2 is connected with the outside control mouth of the 3rd hydraulic control one-way valve 7-2-1, the 4th hydraulic control one-way valve 7-2-2 simultaneously; The outlet of the 3rd two-position four-way solenoid directional control valve 6-3 is connected with the outside control mouth of the 5th hydraulic control one-way valve 7-3-1, the 6th hydraulic control one-way valve 7-3-2 simultaneously, and the outlet of the 4th two-position four-way solenoid directional control valve 6-4 is connected with the outside control mouth of the 7th hydraulic control one-way valve 7-4-1, the 8th hydraulic control one-way valve 7-4-2 simultaneously.
The mode transfer process:
The Position Control principle of four hydraulic cylinders is identical in the utility model; Being that example describes to the oil-filled Position Control of carrying out hydraulic cylinder 8-1 of the rod chamber of the first hydraulic cylinder 8-1; Position Control process to hydraulic cylinder 8-1 comprises two stages; First stage is the quick mode transfer stage of big flow, and second stage is the accurate mode transfer stage of low discharge.The big quick mode transfer stage of flow: the first two-position four-way solenoid directional control valve 6-1 gets electrician's work in the control oil circuit module, and hydraulic oil flows into the outside control mouth of the first hydraulic control one-way valve 7-1-1 and the second hydraulic control one-way valve 7-1-2 the first hydraulic control one-way valve 7-1-1 and the second hydraulic control one-way valve 7-1-2 are opened through the first two-position four-way solenoid directional control valve 6-1; In the working connection module; Servomotor 1 drives quantitative hydraulic pump 2 output high-volume hydraulics oil, proportional pressure control valve 3 plays safety valve, and a of 3-position 4-way solenoid directional control valve 5 holds; 3-position 4-way solenoid directional control valve 5 works in position, a left side; Hydraulic oil gets into the rod chamber of the first hydraulic cylinder 8-1 through the first hydraulic control one-way valve 7-1-1, and the rodless cavity of the first hydraulic cylinder 8-1 links to each other with the second hydraulic control one-way valve 7-1-2 and carries out oil return, and the hydraulic oil of big flow promotes the first hydraulic cylinder 8-1 fast and carries out position adjustments.When the displacement transducer on the two-plate injection machine 9 detects mode transfer distance and reaches preset value; 3-position 4-way solenoid directional control valve 5 quits work; The a of 3-position 4-way proportion directional valve 4 holds; 3-position 4-way proportion directional valve 4 works in position, a left side, and the quick mode transfer stage of two-plate injection machine finishes, and accurately the mode transfer stage begins.The first two-position four-way solenoid directional control valve 6-1 gets electrician's work in the control oil circuit module, and hydraulic oil flows into the outside control mouth of the first hydraulic control one-way valve 7-1-1 and the second hydraulic control one-way valve 7-1-2 the first hydraulic control one-way valve 7-1-1 and the second hydraulic control one-way valve 7-1-2 are opened through the first two-position four-way solenoid directional control valve 6-1; In the working connection module, servomotor 1 drives quantitative hydraulic pump 2 output low discharge hydraulic oil; The rod chamber that hydraulic oil flows into the first hydraulic cylinder 8-1 through 3-position 4-way proportion directional valve 4 and the first hydraulic control one-way valve 7-1-1 successively promotes hydraulic cylinder and moves the position of hydraulic cylinder is accurately regulated.
The locked mode process:
In the control oil circuit module; The first two-position four-way solenoid directional control valve 6-1, the second two-position four-way solenoid directional control valve 6-2, the 3rd two-position four-way solenoid directional control valve 6-3, the 4th two-position four-way solenoid directional control valve 6-4 get the electric position, a left side that works in, and hydraulic oil is opened the first hydraulic control one-way valve 7-1-1, the second hydraulic control one-way valve 7-1-2, the 3rd hydraulic control one-way valve 7-2-1, the 4th hydraulic control one-way valve 7-2-2, the 5th hydraulic control one-way valve 7-3-1, the 6th hydraulic control one-way valve 7-3-2, the 7th hydraulic control one-way valve 7-4-1 and the 8th hydraulic control one-way valve 7-4-2 through the outside control mouth that the first two-position four-way solenoid directional control valve 6-1, the second two-position four-way solenoid directional control valve 6-2, the 3rd two-position four-way solenoid directional control valve 6-3, the 4th two-position four-way solenoid directional control valve 6-4 flow into the first hydraulic control one-way valve 7-1-1, the second hydraulic control one-way valve 7-1-2, the 3rd hydraulic control one-way valve 7-2-1, the 4th hydraulic control one-way valve 7-2-2, the 5th hydraulic control one-way valve 7-3-1, the 6th hydraulic control one-way valve 7-3-2, the 7th hydraulic control one-way valve 7-4-1 and the 8th hydraulic control one-way valve 7-4-2 respectively.In the working connection module; Servomotor 1 drives the hydraulic oil of quantitative hydraulic pump 2 output certain flow; Proportional pressure control valve 3 is set up locked mode pressure; The a of 3-position 4-way solenoid directional control valve 5 hold the electric left side position of working in; Hydraulic oil is accomplished locked mode action thereby the piston rod of the first hydraulic cylinder 8-1, the second hydraulic cylinder 8-2, the 3rd hydraulic cylinder 8-3, the 4th hydraulic cylinder 8-4 spurs moving platen with mold-locked through the rod chamber that the first hydraulic control one-way valve 7-1-1, the second hydraulic control one-way valve 7-1-2, the 3rd hydraulic control one-way valve 7-2-1, the 4th hydraulic control one-way valve 7-2-2, the 5th hydraulic control one-way valve 7-3-1, the 6th hydraulic control one-way valve 7-3-2, the 7th hydraulic control one-way valve 7-4-1 and the 8th hydraulic control one-way valve 7-4-2 flow into the first hydraulic cylinder 8-1, the second hydraulic cylinder 8-2, the 3rd hydraulic cylinder 8-3, the 4th hydraulic cylinder 8-4.
Claims (1)
1. bivalve parallel connection type two-plate injection machine mould-regulating mould-locking system, comprise working connection module and control oil circuit module: the working connection module comprises power source, 3-position 4-way directional control valve group, hydraulic control one-way valve group and executing agency; Control oil circuit module comprises two-position four-way directional control valve group;
It is characterized in that:
The outlet of power source is connected with the import of 3-position 4-way directional control valve group, and the outlet of 3-position 4-way directional control valve group is connected with the import of hydraulic control one-way valve group, and the outlet of hydraulic control one-way valve group is connected with executing agency;
Power source comprises servomotor, quantitative hydraulic pump, proportional pressure control valve and fuel tank, and the driven by servomotor quantitative hydraulic pump provides power for the present invention; The import of proportional pressure control valve is connected with the outlet of quantitative hydraulic pump, and the outlet of proportional pressure control valve is connected with fuel tank;
3-position 4-way directional control valve group comprises 3-position 4-way proportion directional valve and 3-position 4-way solenoid directional control valve; 3-position 4-way proportion directional valve and the parallel connection of 3-position 4-way solenoid directional control valve are provided with; Wherein 3-position 4-way proportion directional valve is the rill metered valve, and the 3-position 4-way solenoid directional control valve is a large-capacity valve; The import of 3-position 4-way proportion directional valve and 3-position 4-way solenoid directional control valve is connected with the outlet of quantitative hydraulic pump;
The hydraulic control one-way valve group comprises eight hydraulic control one-way valves, and per two hydraulic control one-way valves are formed bidirectional hydraulic lock, and the outlet of proportion directional valve and solenoid directional control valve is connected with the import of four bidirectional hydraulic locks, and the outlet of four bidirectional hydraulic locks is connected with executing agency;
Executing agency comprises four hydraulic cylinders; The outlet of first hydraulic control one-way valve in the rod chamber of each hydraulic cylinder bidirectional hydraulic lock corresponding with it connects, and the outlet of second hydraulic control one-way valve in the rodless cavity of each hydraulic cylinder bidirectional hydraulic lock corresponding with it is connected;
Two-position four-way directional control valve group comprises four two-position four-way solenoid directional control valves; The import of each two-position four-way solenoid directional control valve is connected with the outlet of power source, and the outside control mouth of the outlet of each two-position four-way solenoid directional control valve and the bidirectional hydraulic lock corresponding with it is connected.
Priority Applications (1)
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CN2011204808298U CN202357398U (en) | 2011-11-28 | 2011-11-28 | Double-valve parallel mould adjusting and mould locking system of two-plate injection molding machine |
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CN2011204808298U CN202357398U (en) | 2011-11-28 | 2011-11-28 | Double-valve parallel mould adjusting and mould locking system of two-plate injection molding machine |
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CN2011204808298U Expired - Lifetime CN202357398U (en) | 2011-11-28 | 2011-11-28 | Double-valve parallel mould adjusting and mould locking system of two-plate injection molding machine |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102407593A (en) * | 2011-11-28 | 2012-04-11 | 浙江大学 | Double-valve parallel mode adjusting and locking system for two-plate injection molding machine |
CN104476741A (en) * | 2014-12-11 | 2015-04-01 | 佛山市宝捷精密机械有限公司 | Oil hydraulic circuit for synchronously controlling mould locking oil cylinder and mould transferring oil cylinder of injection molding machine |
-
2011
- 2011-11-28 CN CN2011204808298U patent/CN202357398U/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102407593A (en) * | 2011-11-28 | 2012-04-11 | 浙江大学 | Double-valve parallel mode adjusting and locking system for two-plate injection molding machine |
CN102407593B (en) * | 2011-11-28 | 2013-09-04 | 浙江大学 | Double-valve parallel mode adjusting and locking system for two-plate injection molding machine |
CN104476741A (en) * | 2014-12-11 | 2015-04-01 | 佛山市宝捷精密机械有限公司 | Oil hydraulic circuit for synchronously controlling mould locking oil cylinder and mould transferring oil cylinder of injection molding machine |
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Granted publication date: 20120801 Effective date of abandoning: 20130904 |
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