JPWO2019199539A5 - - Google Patents

Claims (26)

An adjustment system that is coupled to a die, wherein the die is positioned adjacent to the upper body member and the upper body member to form a gap channel and a gap opening between the upper body member and the upper body member. The central main body member is positioned adjacent to the upper main body member and has a lower main body member forming a main channel and a main opening between the upper main body member, and the gap opening is formed. Positioned between the gap channel and the main channel, the adjustment system is
The adjustment body includes an adjustment body having a plurality of channels, and the adjustment body is configured to be coupled to the upper body member.
Each of the plurality of adjusters is slidably positioned within each of the plurality of channels, and each of the plurality of adjusters is configured to be coupled to the gap flange of the upper body member. Being done
The plurality of adjusters are coupled to the gap flange, and the size of the gap opening is changed by the movement of the plurality of adjusters .
Each of the plurality of adjusters is provided with a knob member at the first end and a gap connector at the second end, the gap connector being configured to engage the notch of the gap flange. The knob member is an adjustment system configured to rotate with respect to the clearance connector . The plurality of channels are the first plurality of channels, the plurality of adjusters are the first plurality of adjusters, the regulation body further comprises a second plurality of channels, and the regulation system further comprises. ,
Each of the second plurality of channels includes a second plurality of adjusters slidably positioned, and each of the second plurality of adjusters is coupled to the lip flange of the upper body member. Configured,
The adjustment system according to claim 1, wherein the second plurality of adjusters are coupled to the lip flange, and the size of the main opening is changed by the movement of the second plurality of adjusters. The adjustment system according to claim 2, wherein the second plurality of adjusters comprises a push-only type adjuster. The adjustment system according to claim 1, wherein the plurality of adjusters include push-pull type adjusters. The adjustment system according to claim 1, wherein the plurality of adjusters are aligned linearly with each other along the length of the adjustment system. Further including a first plurality of threaded members, each of the first plurality of threaded members is coupled to each of the plurality of adjusters, and each of the first plurality of threaded members is coupled to each of the plurality of adjusters. Has a first pitch,
A second plurality of threaded members are further included, and each of the second plurality of threaded members is coupled to each of the plurality of adjusters, and each of the second plurality of threaded members is coupled to each of the plurality of adjusters. Has a second pitch,
The adjustment system according to claim 1, wherein the first pitch is different from the second pitch. The adjustment system according to claim 1, wherein the adjustment body is composed of a single body member. A die with an upper surface, a gap surface, a gap edge located between the upper surface and the gap surface , a gap flange , an upper lip edge spaced in a predetermined direction from the gap edge, and the above. An upper main body member provided with a lip flange spaced from the gap flange in a predetermined direction , wherein the upper surface thereof includes the upper main body member extending from the gap edge portion to the upper lip edge portion .
It has an adjustment system, and the adjustment system is
A control body with a first plurality of channels and a second plurality of channels,
A first plurality of adjusters , each of the first plurality of adjusters being slidably positioned within each of the first plurality of channels, and each of the first plurality of adjusters being slidably positioned. When the first plurality of adjusters are coupled to the gap flange, the position of the gap edge portion is determined by the movement of the first plurality of adjusters. With the first plurality of adjusters configured to change,
A second plurality of adjusters, each of the second plurality of adjusters being slidably positioned within each of the second plurality of channels, and each of the second plurality of adjusters being slidably positioned. , The upper lip edge portion is configured to be coupled to the lip flange of the upper body member, and when the second plurality of adjusters are coupled to the lip flange, the movement of the second plurality of adjusters causes the upper lip edge portion. A die comprising the second plurality of adjusters configured to change the position of the . The die according to claim 8, wherein the upper main body member and the adjustment system are integrally formed. It ’s a die,
An upper body member having an upper surface, a gap surface, a gap edge positioned between the upper surface and the gap surface, and a gap flange.
It has an adjustment system, and the adjustment system is
Adjustment body with multiple channels and
A plurality of adjusters, each of which is slidably positioned within each of the plurality of channels, and each of the plurality of adjusters is coupled to the gap flange of the upper body member. When the plurality of adjusters are coupled to the gap flange, the plurality of adjusters configured to change the position of the gap edge portion by the movement of the plurality of adjusters, and the plurality of adjusters.
The upper body member has a mounting portion connected to the adjusting portion by an adjusting portion and a bending flange, the adjusting portion constitutes the gap flange, and the plurality of adjusters are coupled to the gap flange. Due to the movement of the plurality of adjusters, the adjusting portion rotates around the bending flange with respect to the mounting portion. It further comprises a central body member with an upper central surface, a lower central surface, and a central edge located between the upper center surface and the lower center surface, wherein the central body member is the upper body member. A gap channel is formed between the gap surface and the upper center surface, and a gap opening is formed between the gap edge portion and the central edge portion.
The die according to claim 10, wherein when the plurality of adjusters are coupled to the gap flange, the size of the gap opening changes due to the movement of the plurality of adjusters. The upper surface of the upper body comprises an upper edge, and the die further comprises.
It has a lower body member including a lower surface with a lower edge, the lower body member being positioned adjacent to the upper body member and with the lower surface of the lower body member. A main channel is formed between the upper surface of the upper main body member and a main opening is formed between the lower edge portion of the lower main body member and the upper edge portion of the upper main body member.
11. The die according to claim 11, wherein the gap opening is arranged between the gap channel and the main channel. The plurality of channels are the first plurality of channels, the plurality of adjusters are the first plurality of adjusters, and the control body further comprises a second plurality of channels.
The upper body member
It has a lip flange, and the lip flange and the gap flange constitute the adjustment portion.
The regulation system further
Each of the second plurality of channels includes a second plurality of adjusters slidably positioned, each of the second plurality of adjusters coupled to the lip flange of the upper body member. 12. The die according to claim 12, wherein when the second plurality of adjusters are coupled to the lip flange, the size of the main opening is changed by the movement of the second plurality of adjusters. 13. The die according to claim 13, wherein the first plurality of adjusters are composed of push-pull type adjusters, and the second plurality of adjusters are composed of push-only type adjusters. Further having a first plurality of threaded adjusting members, each of the first plurality of threaded adjusting members is coupled to each of the first plurality of adjusters, respectively, and the first plurality of threaded adjusting members are respectively coupled to each of the first plurality of adjusters. Each of the threaded adjustment members has a first pitch and
Further having a second plurality of threaded adjusting members, each of the second plurality of threaded adjusting members is coupled to each of the first plurality of adjusters, respectively, and the second plurality of threaded adjusting members are respectively coupled to the first plurality of adjusters. Each of the threaded adjustment members has a second pitch and
13. The die according to claim 13, wherein the first pitch is different from the second pitch. It ’s a die,
An upper body member having an upper surface, a gap surface, a gap edge located between the upper surface and the gap surface, a bending hinge, and a gap flange configured to move around the bending hinge. Have and
It has a central body member with an upper center surface, a lower center surface, and a central edge located between the upper center surface and the lower center surface, the central body member being the upper body member. Positioned adjacently, a gap channel is formed between the gap surface and the upper central surface, and a gap opening is formed between the gap edge portion and the central edge portion.
It has a regulation system, the regulation system is
An adjustment body with multiple adjuster channels and
Each of the plurality of gap adjusters, including the plurality of gap adjusters, is slidably positioned within each of the plurality of adjuster channels, and each of the plurality of gap adjusters is the said of the upper body member. It is configured to be coupled to the gap flange, and when the plurality of gap adjusters are coupled to the gap flange, the movement of the plurality of gap adjusters causes the gap flange to move around the bending hinge, and the bending hinge is formed. A die that bends and changes the size of the gap opening. The upper surface of the upper body member comprises an upper edge portion, and the die further comprises.
It has a lower body member including a lower surface with a lower edge, the lower body member being positioned adjacent to the upper body member and with the lower surface of the lower body member. A main channel is formed between the upper surface of the upper main body member and a main opening is formed between the lower edge portion of the lower main body member and the upper edge portion of the upper main body member.
16. The die according to claim 16, wherein the gap opening is arranged between the gap channel and the main channel. The adjustment body further comprises a plurality of lip channels.
The upper body member
Has a lip flange,
The regulation system further
Each of the plurality of lip channels comprises a plurality of slidably positioned lip adjusters, each of the plurality of lip adjusters configured to be coupled to the lip flange of the upper body member. 17. The die according to claim 17, wherein when the lip adjuster is coupled to the lip flange, the size of the main opening is changed by the movement of the plurality of lip adjusters. The central body member is a first central member, the adjustment system is a first adjustment system, and the lower body member is a second gap surface, the second gap surface and the lower side. It has a second gap edge located between the surface and a second gap flange, and the die further comprises.
A second with a second upper central surface, a second lower central surface, and a second central edge located between the second upper central surface and the second lower central surface. It has a central body member, and the second center body member is positioned adjacent to the lower body member and has a second gap surface between the second gap surface and the second lower center surface. A second gap opening is formed between the second gap edge portion and the second central edge portion.
It has a second regulation system, said second regulation system.
A second adjustment body with a second plurality of gap channels,
Each of the second plurality of gap adjusters, including the second plurality of gap adjusters, is slidably positioned within each of the second plurality of gap channels. Each of the gap adjusters is configured to be coupled to the second gap flange of the lower body member, and when the second plurality of gap adjusters are coupled to the second gap flange, the second gap adjuster is connected. The die according to claim 18, wherein the size of the second gap opening changes due to the movement of the plurality of gap adjusters. A method of quantitatively discharging a fluid through an extrusion die, wherein the extrusion die comprises a gap channel, a gap opening, a main channel, a main opening, and a lower channel, wherein the gap opening is the main channel. Positioned between and the clearance channel, the method
A step of providing a first fluid into the main channel through the gap opening and through the gap channel.
A step of providing a second fluid through the lower channel into the main channel so that the first fluid merges with the second fluid in the main channel.
By moving the gap flange of the extrusion die around the bending hinge of the extrusion die by the movement of the plurality of adjusters, the gap opening is adjusted by adjusting the size of the gap opening by bending the bending hinge. A method comprising adjusting the thickness of the first fluid flowing through. The extrusion die has an adjustment system that includes a clearance flange and the plurality of adjusters coupled to the clearance flange.
The step of adjusting the thickness of the first fluid flowing through the gap opening is
A claim comprising the step of adjusting at least one of the plurality of adjusters coupled to the gap flange such that the movement of the at least one of the plurality of adjusters changes the size of the gap opening. Item 20. The method according to item 20. A step of quantitatively discharging the merged first fluid and the second fluid through the main opening, and
21. the method of. The extrusion die has a lip flange, the plurality of adjusters is a first plurality of adjusters, and the adjustment system further includes a second plurality of adjusters coupled to the lip flange.
The step of adjusting the thickness of the merged first fluid and the second fluid through the main opening is
The movement of at least one of the second plurality of adjusters adjusts at least one of the second plurality of adjusters coupled to the lip flange so that the size of the main opening is changed. 22. The method of claim 22, comprising the step of performing. The die according to claim 8, wherein the upper surface extends in a direction beyond the gap flange. The lip flange is coupled to the gap flange by a lip bending hinge extending from the gap flange, and when the second plurality of adjusters are coupled to the lip flange, the movement of the second plurality of adjusters causes the said. The die according to claim 8, wherein the lip flange moves around the lip bending hinge to bend the lip bending hinge. The upper main body member includes a gap bending hinge, the gap flange is configured to move around the gap bending hinge, and the first plurality of adjusters are coupled to the gap flange to form the first. The die according to claim 8, wherein the gap flange moves around the gap bending hinge by the movement of a plurality of adjusters, and the gap bending hinge is bent.