Energy-conserving injection molding machine
First Claim
1. An energy-conserving injection molding machine, comprising:
- (a) a clamping mechanism for supporting first and second sections of a mold and selectively moving said sections into parted relation to open the mold and mating relation to close the mold as well as for forcibly holding said mold closed;
(b) an injection mechanism coupleable to said clamping mechanism and said mold for plasticizing a material and injecting the plasticized material into the mold to form a molded part;
(c) hydraulic actuator means coupled to at least one of said clamping mechanism and said injection mechanism for operating same;
(d) electro-hydraulic control means coupled to said hydraulic actuator means for supplying hydraulic fluid to said actuator means in response to predetermined electrical operating signals;
(e) pump means coupled to said electro-hydraulic control means and to fluid reservoir means for supplying hydraulic fluid to said electro-hydraulic control means;
(f) variable speed brushless DC motor means drivably coupled to said pump means for adjusting the hydraulic fluid output of said pump means in accordance with a driving signal, and(g) controller means for;
(i) generating said operating signals in accordance with programmed molding parameter, sequence and timing inputs, and(ii) generating said driving signal in accordance with one of a plurality of stored values, each of said values being selected in accordance with the hydraulic fluid output required to be delivered by said pump means during at least a portion of a particular phase of operation of the machine in order to achieve said programmed inputs without significantly exceeding said required hydraulic fluid output.
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Accused Products
Abstract
A hydraulic injection molding machine incorporates a pump driven by a variable speed motor preferably of the brushless DC type. The machine controller outputs driving signals to adjust the speed of the motor so that the flow delivered by the pump substantially matches the hydraulic demand imposed during each phase of the machine operating cycle. The pump is preferably a variable displacement type and is connected to a fast responding pump control for selectively carrying out pressure compensation or flow compensation. The values of the motor driving signals are calculated so that the motor/pump combination is operated at or near maximum efficiency except when the pump control varies the displacement of the pump to effect pressure or flow compensation. Hydraulic transient response is further improved by connecting the output of the pump to an accumulator by way of a check valve.
42 Citations
10 Claims
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1. An energy-conserving injection molding machine, comprising:
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(a) a clamping mechanism for supporting first and second sections of a mold and selectively moving said sections into parted relation to open the mold and mating relation to close the mold as well as for forcibly holding said mold closed; (b) an injection mechanism coupleable to said clamping mechanism and said mold for plasticizing a material and injecting the plasticized material into the mold to form a molded part; (c) hydraulic actuator means coupled to at least one of said clamping mechanism and said injection mechanism for operating same; (d) electro-hydraulic control means coupled to said hydraulic actuator means for supplying hydraulic fluid to said actuator means in response to predetermined electrical operating signals; (e) pump means coupled to said electro-hydraulic control means and to fluid reservoir means for supplying hydraulic fluid to said electro-hydraulic control means; (f) variable speed brushless DC motor means drivably coupled to said pump means for adjusting the hydraulic fluid output of said pump means in accordance with a driving signal, and (g) controller means for; (i) generating said operating signals in accordance with programmed molding parameter, sequence and timing inputs, and (ii) generating said driving signal in accordance with one of a plurality of stored values, each of said values being selected in accordance with the hydraulic fluid output required to be delivered by said pump means during at least a portion of a particular phase of operation of the machine in order to achieve said programmed inputs without significantly exceeding said required hydraulic fluid output. - View Dependent Claims (2, 3, 4, 5)
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6. An energy-conserving injection molding machine, comprising:
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(a) a clamping mechanism for supporting first and second sections of a mold and selectively moving said sections into parted relation to open the mold and mating relation to close the mold as well as for forcibly holding said mold closed; (b) an injection mechanism coupleable to said clamping mechanism and said mold for plasticizing a material and injecting the plasticized material into the mold to form a molded part; (c) hydraulic actuator means coupled to at least one of said clamping mechanism and said injection mechanism for operating same; (d) electro-hydraulic control means coupled to said hydraulic actuator means for supplying hydraulic fluid to said actuator means in response to predetermined electrical operating signals; (e) variable displacement pump means coupled to said electro-hydraulic control means and to fluid reservoir means for supplying hydraulic fluid to said electro-hydraulic control means; (f) variable speed motor means drivably coupled to said pump means for adjusting the hydraulic fluid output of said pump means in accordance with a driving signal, and (g) controller means for; (i) generating said operating signals in accordance with programmed molding parameter, sequence and timing inputs, and (ii) generating said driving signal in accordance with one of a plurality of stored values, each of said values being selected in accordance with the hydraulic fluid output required to be delivered by said variable displacement pump means during at least a portion of a particular phase of operation of the machine in order to achieve said programmed inputs without significantly exceeding said required hydraulic fluid output. - View Dependent Claims (7, 8, 9, 10)
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Specification