Method for controlling temperatures in hot runners of multi-cavity injection mold, method for warning, and control system based on those methods
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0017934
(2011-01-31)
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등록번호 |
US-8377350
(2013-02-19)
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발명자
/ 주소 |
- Chang, Jui-Wen
- Chung, Chih-Hsiung
- Chen, Shin-Hung
- Hsu, Yi-Shu
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출원인 / 주소 |
- Precision Machinery Research Development Center
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인용정보 |
피인용 횟수 :
0 인용 특허 :
8 |
초록
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A method for controlling temperatures in hot runners of a multi-cavity injection mold, a warning method, and a control system based on those methods are provided, in which a temperature sensor is positioned at the same location as each of the cavities of the mold, one of the cavities is chosen as a
A method for controlling temperatures in hot runners of a multi-cavity injection mold, a warning method, and a control system based on those methods are provided, in which a temperature sensor is positioned at the same location as each of the cavities of the mold, one of the cavities is chosen as a standard cavity, and a standard filling time is defined. Besides, in every injection cycle, a calculating and controlling module is to calculate the differences between the standard filling time and the filling times of the cavities, and according to the differences, the temperatures in the hot runners may be adjusted by a temperature-adjusting device and a warning device may be started. So, the volumetric filling of the cavities can be balanced very quickly, the process can avoid fluctuations of external environment so as to reduce the time for product development, and the quality of production can be maintained.
대표청구항
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1. A method for controlling temperatures in hot runners of a multi-cavity injection mold comprising steps of: (a) positioning a temperature sensor in the same location of each of several cavities of the multi-cavity injection mold;(b) choosing one of the cavities as a standard cavity and defining a
1. A method for controlling temperatures in hot runners of a multi-cavity injection mold comprising steps of: (a) positioning a temperature sensor in the same location of each of several cavities of the multi-cavity injection mold;(b) choosing one of the cavities as a standard cavity and defining a standard filling time as a time interval between the beginning of injecting a material into the standard cavity and when the material contacts the temperature sensor in the standard cavity;(c) injecting the material into the cavities through the hot runners connected with the cavities respectively, measuring time from the beginning of injection till the material contacts the temperature sensor in each cavity as a filling time of the cavity, and calculating the difference between the standard filling time and the filling time of each cavity as a temporal offset of the cavity;(d) if the temporal offset of at least one of the cavities is larger than a first preset value, adjusting the temperature in the hot runner which is connected with said cavity; and(e) repeating step (c) to step (d) until the temporal offset of each cavity is smaller or equal to the first preset value. 2. The method as claimed in claim 1 further comprising a step of: (f) repeating step (c) several times and starting a warning device if the temporal offsets of one of the cavities worked out in a plurality of continuous times of step (c) are larger than a second preset value. 3. The method as claimed in claim 1 further comprising a step of: (f) repeating the step (c) several times and starting a warning device if the same temperature sensor senses that the temperature rises beyond a range after a plurality of continuous times of the step (c). 4. The method as claimed in claim 1 further comprising a step of: (f) repeating the step (c) several times and starting a warning device if the temporal offsets of at least one third of the cavities worked out after a plurality of continuous times of the step (c) are larger than a second preset value. 5. The method as claimed in claim 1 further comprising a step of: (f) repeating the step (c) several times and starting a warning device if the temperature sensors in at least one third of the cavities sense that the temperature rise beyond a range after a plurality of continuous times of the step (c). 6. The method as claimed in claim 2, wherein the warning device is started when the said abnormity occurs for three times. 7. The method as claimed in claim 1, wherein in the step (a), the temperature sensors are positioned at final parts of filling paths of the cavities respectively. 8. The method as claimed in claim 7, wherein the temperature sensors are positioned where the filling paths of the cavities reach 95-98% respectively. 9. A control system based on the method claimed in claim 1, comprising: a plurality of temperature sensors positioned in the cavities of the multi-cavity injection mold respectively for generating temperature signals;a calculating and controlling module for receiving the temperature signals generated by the temperature sensors and calculating temporal offsets of the cavities; anda temperature-adjusting device controlled by the calculating and controlling module for adjusting temperatures in the hot runners connected with the cavities respectively. 10. The control system as claimed in claim 9, further comprising a warning device which is controlled by the calculating and controlling module. 11. A warning method for a multi-cavity injection mold comprising steps of: (a) positioning a temperature sensor in the same location of each cavity of the multi-cavity injection mold;(b) choosing one of the cavities as a standard cavity and defining a standard filling time as the time required from the beginning of injecting a material into the standard cavity till the material contacts the temperature sensor in the standard cavity;(c) injecting the material into the cavities through the hot runners connected with the cavities respectively, measuring the time from the beginning of injection till the material contacts the temperature sensor in each cavity as a filling time of the cavity, and then calculating the difference between the standard filling time and the filling time of each cavity as a temporal offset of the cavity; and(d) repeating the step (c) several times, and starting a warning device if the temporal offset of at least one of the cavities worked out in a plurality of continuous times of the step (c) are larger than a second preset value. 12. The warning method for a multi-cavity injection mold as claimed in claim 11, wherein in the step (d), the warning device is started if the temporal offsets of at least one third of the cavities worked out in a plurality of continuous times of the step (c) are larger than the second preset value. 13. A control system based on the warning method claimed in claim 11, comprising: a plurality of temperature sensors positioned in the cavities of the multi-cavity injection mold respectively for generating temperature signals;a calculating and controlling module for receiving the temperature signals generated by the temperature sensors and calculating temporal offsets of the cavities; anda warning device controlled by the calculating and controlling module. 14. The warning method as claimed in claim 11, wherein the warning device is started if said abnormity occurs for three times. 15. The warning method as claimed in claim 11, wherein in the step (a), the temperature sensors are positioned at final parts of filling paths of the cavities respectively. 16. The warning method for a multi-cavity injection mold as claimed in claim 15, wherein the temperature sensors are positioned where the filling paths of the cavities reach 95-98% respectively. 17. A warning method for a multi-cavity injection mold, comprising steps of: (a) positioning a temperature sensor in the same location of each cavity of the multi-cavity injection mold, and choosing one of the cavities as a standard cavity and defining a standard filling time as the time required from the beginning of injecting a material into the standard cavity till the material contacts the temperature sensor in the standard cavity;(b) injecting a material into the cavities through hot runners connected with the cavities respectively, measuring time from the beginning of injection till the material contacts the temperature sensor in each cavity as a filling time of the cavity; and(c) repeating the step (b) several times and starting a warning device if at least one of the temperature sensors senses that the temperature rises beyond a range after a plurality of continuous times of the step (b), if the temporal offset of at least one of the cavities is larger than a first preset value, adjusting the temperature in the hot runner which is connected with said cavity. 18. The warning method as claimed in claim 17, wherein in the step (c), the warning device is started if at least one third of the temperature sensors sense that the temperatures rise beyond the range after a plurality of continuous times of the step (b). 19. A control system based on the warning method claimed in claim 17, comprising: a plurality of temperature sensors positioned in the cavities of the multi-cavity injection mold respectively for generating temperature signals;a calculating and controlling module for receiving the temperature signals generated by the temperature sensors; anda warning device controlled by the calculating and controlling module.
이 특허에 인용된 특허 (8)
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Nahill, Thomas E.; Kalmouni, Sam; Mani, Nikhil; Barker, Keith; Lynch, Brian, Controlling delivery of polymer material in a sequential injection molding process.
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Buja, Frederick J., Method and apparatus for controlling a mold melt-flow process using temperature sensors.
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Werfeli,Friedrich, Method and apparatus for controlling and regulating the distribution of an injection molding compound.
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Wieder Horst K. (Watertown WI) Wieder Klaus A. (Helenville WI) Haberkorn Joseph (Watertown WI), Method and apparatus for mold temperature control.
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Frey, Jürgen, Method for automatically balancing the volumetric filling of cavities.
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Blersch Eberhard (Stuttgart DEX) Burr August (Schwbisch Gmnd DEX) Hofmann Klaus (Waiblingen-Beinstein DEX), Method for controlling and/or regulating the injection molding in injection molding machines.
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Frey, Jürgen, Method of filling the cavity of a tool.
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Bader Christopherus,CHX ; Zanetti Markus,CHX, Process for controlling the hot-runner heating of a multicavity injection mould.
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