TH94918A - Kits and methods for dropping droplets - Google Patents

Abstract

DC60 Purpose is to provide a technique for dropping a drop of liquid that will make the distant end. The pressure rod remains in such a state that it does not come into contact with the internal walls of the liquid chamber during the Perform discharge operations which, if more specifically, are related to drip units. Liquids and methods capable of satisfactorily releasing the material, even if it is a liquid containing a filler, such as a solder paste. Solution for Troubleshooting: Unit and method for dripping droplets where the unit It consists of a liquid chamber with a discharge chamber through which the liquid is discharged, connecting holes. With the liquid chamber, the push rod is inserted through the hole and has the far end which is moved forward. And back in the chamber, a mechanism for shifting the axle to make the push rod It moves forward and backward, and a mechanism for determining the position of the push rod for determining. The position of the far end of the push rod, where the push rod is moved forward and used. Operates to stop the forward motion in a state where there is no contact between the far ends. Of the pressure rod and the internal wall of the liquid chamber, which in turn gives the liquid material an inertial force to release the material The liquid comes out in a droplet state, with the mechanism for positioning the pressure rod to Determine the position of the far end of the push rod when the forward motion stops close to The internal wall of the liquid chamber, positioned in the forward direction:

Claims (1)

Disclaimer (all) which will not appear on the advertisement page: edit 20/06/2019 No disclaimer -------------------------------------------------- ----------------------------------- ------ 07/12/2017 ---- - (OCR) Page 1 of 5 pages. Claims 1. A drop-drip kit consisting of a liquid chamber with a discharge chamber where the The liquid material is passed through, the sump connected to the chamber, the push rod that is passed through it and has the far end that is moved forward and back within the chamber, the mechanism for movement. Thrusters to move the thrusters forward and backward, and the mechanism to Set the position of the push rod to determine the position of the far end of the push rod with the push rod. It will be shifted forward and used to stop the forward motion in the absence of The contact between the far end of the push rod and the internal wall of the liquid chamber, which will Give the liquid material an inert force to release it in a liquid droplet state. Where the mechanism to determine the position of the push rod determines the position of the tip The far side of the push rod, when the forward motion stops, is close to the interior wall of the containment chamber. The liquid is positioned in the forward direction. 2. The drip droplet set according to claim 1, where the far end of the push rod is positioned in the forward direction. When stopped, the forward motion of the push rod is close to the internal walls and discharge chamber of the containment chamber. The liquid is positioned in the direction of the axial pressure that travels forward. 3. A droplet discharge device according to claim 1 or 2, wherein the inner wall of the tip. The far side of the chamber is formed in a cone shape, with a discharge channel at the end. 4. The drip device according to claim 1 or 2, with the internal wall of the liquid filling chamber. The far end of the liquid chamber is to be a flat surface with a discharge port. 5. The drip device according to claim 1 or 2, whereby the determination mechanism The axis position consists of the front adjacent (43) provided on the push rod and Front stop (51), which is positioned opposite to such anterior adjacent (43), where The forward stop position of the push rod is determined by the front adjacent (43) aligned with the aforementioned front stop (51). 6. The drip-drop unit according to claim 5, where Mechanism for determining the position of The push rod consists of moving parts (30) that can keep the part in a moving position. Forward and backward, with the stop position for forward movement of the push rod can Adjusted using the moving part (30) to make the front stop move forward and reverse position 2 of 5 pages 7. Liquid drip unit according to claim 6, where the piece The moving part (30) consists of a locator for determining the location of the moving parts (30) 8. Drip-drop unit according to claim 6 where the drip-drop unit It has additional components, the main body with through holes (24) and piston chambers (61) where the push rod is inserted and the liquid discharge block with discharge port, liquid chamber, liquid dispenser, Hole (26) through which a push rod is inserted. Where the thrust rod has a push rod and the forward (43) which is wider The push rod and is provided in the piston chamber (61) and where the moving part (30) has a through hole (34) through which the thrust rod is inserted and 9. The droplet unit according to claim 8, where the front stop (51) is the surface of the piston chamber (61) to be positioned. It is opposite to the front adjacent surface (43) on the forward direction 1 0. Droplet unit according to claim 8 wherein the front stop. It can be adjusted by moving the position of the moving part (30) forward and backward to adjust. Distance between main body and liquid discharge block 1 1. Droplet unit according to claim 10, where droplet unit There is an additional component, the base unit to mount the main body to allow movement. The main body positions are forward and reversible, and the liquid discharge block is installed. Into fixed position 1 2. The drip-release unit according to claim 6, where the front stop (51) consists of the rear end of the moving part (30), extending into the piston chamber (61 ), And the position of the front stop (51) can be adjusted by shifting the position of the moving part (30) forward and back 1 3. The drop-drop unit according to claim 6, which, when moving the position Of moving parts (30) forward and backward, it can be adjusted in forward motion of the push rod. Until it reaches the contact position (12) where the far end of the push rod will It comes into contact with the internal wall of the chamber 1 4. The drip device according to claim 13, where the far end of the push rod is It was created to cover the discharge in the contact position (12), page 3 of the number 5, page 1 5. The drip device according to claim 13, where the push rod is adjacent to the back (45 ), Which is positioned on the side in which the forward adjacent (43) retracts, and where the mechanism for positioning the axle consists of a rear stop (52), which can limit the range of motion in The reverse nature of the push rod by being close to the Rear close (45) and rear stop shifting mechanism for making the rear stop (52) move forward and reverse 1 6. Liquid drip kit according to claim 13, from which Already mentioned, also contains A resilient part for rocking the push rod in the forward direction 1 7. Liquid drip unit according to claim 1 or 2 where the liquid chamber It has a liquid dispenser through which the liquid material is ejected, and the dropper unit has a An additional component is a liquid feeding regulator for dispensing liquid materials to the liquid feed compartment. Along with the forward and reverse movement of the push rod 1 8. Liquid drip drop device set according to claim 1 or 2, which has been mentioned above. It also contains a pressure control mechanism for adding and reducing pressure to the liquid material in the filling chamber. Liquid with forward and reverse motion of the push rod 1 9. Method for releasing droplets to allow inertia to act on the liquid material by making the axial pressure. It moves forward and stops the forward motion of the thrust rod in the distal state. The far side of the push rod and the inner wall of the liquid chamber do not come into contact, which causes the material Liquid floats and falls off in a liquid droplet state. It is equipped with a liquid container with a discharge port and a push rod with a far end. Was moved forward and backward within the chamber containing the said liquid, and The far end of the push rod is positioned close to the interior wall. 2. The method of releasing the droplets according to claim 19, where the far end of the thrust axle is moved forward. They are positioned close to the internal walls and discharge chambers of the liquid chamber, which are provided. It is in the direction in which the axle moves forward when it is stopped from moving forward. 2. 1. Method for dropping liquid droplets according to claim 19 or 20, with an adjacent front (43) arrangement which is It is provided on the front 4 of the 5-page push rod. The front stop is prepared. (51) which is positioned opposite to the anterior adjacent (43) and the stop is fixed while the push rod moves forward by bringing the forward adjacent (43) closer to the segment stop. Page (51) above 2. 2. Method for dropping liquid droplets according to claim 21, with the provision of moving parts (30) that can be moved to a moving position. Forward and backward and The stop position is adjusted while the push rod is moving forward by shifting the position. In the forward and reverse motion of the front stop (51) inside the moving part (30) 2 3. Method for dripping liquid droplets according to claim 22 with the said moving part (30) Have body Specify the location for locating moving parts (30) and that way, an additional step is to Adjust the position of the moving parts (30) based on the values indicated by the locator 2 4. Method for dripping droplets according to claim 22 with a pumped chamber (61) equipped with a stopper. The front part (51) meets the surface of the The chamber, positioned opposite the front adjacent surface (43), on the forward side, and The position of the piston chamber (61) is adjusted by shifting the forward movement position. And reverse of the moving part (30) so that the position of the front stop (51) 2 5. Method of dripping liquid according to claim 22, where the rear end of the moving part (30) Contains a front stop (51) which is positioned opposite to the surface of the Front adjacent (43) on the side which is the forward direction and Where the above method consists of an additional step, is to adjust the position of the front stop (51) by shifting the forward and reverse motion of the moving part (30) as mentioned. 2 6. Release method. Liquid drop according to claim 22, with the adjustment of the stop position while the axis The forward push is based on the fifth of the 5's, step one, which makes the position of the far end of the push rod in contact (12), where the far end of the push rod comes. Contact with the interior wall of the packing chamber Fluid and keeping the front close (43) and front stop (51) in a close-to state, and The second step, making the part (30) move forward and back, is Distance required while maintaining close contact between the front close (43) and front stop (51) to position the far end of the push rod within the desired distance from Positions of contact (12) 2 7. Method for dripping liquid droplets according to claim 26, where the far end of the push rod. Was built to cover the release at the point of contact (12), which is the area at the far end of The push rod comes into contact with the internal wall of the liquid chamber, and at step one determines the position. Of the far end of the thrust rod in contact position (12), considering the 2 8. Method for dropping droplets according to claim 26, where the axial thrust has an adjacent back (45) on the directional side. Reverse section The front side (43) has a rear stop (52), which is positioned opposite to the rear adjacent (45) and can move the position in the forward and reverse movement of the melee. Behind it and The scope of the reverse movement of the thrust rod is limited by bringing the rear adjacent (45) closer to the rear stop (52) 2 9. Method for dropping liquid droplets according to claim 19 or 20. Where the chamber containing the said liquid There is a liquid dispenser with a liquid dispenser and a liquid dispenser is supplied to the liquid dispenser with the Forward and backward movement of the push rod 3 0. Method of dripping liquid according to the claim 19 or 20 where the liquid material is Liquid containing filler 3. 1. Method for dropping the liquid according to claim 19 or 20 where such liquid material is added. Pressure and pressure drop in the liquid chamber together with the forward and reverse motion of the pressure rod ------------ 1. A droplet unit consisting of a liquid chamber with a cavity. Release to have The discharge of liquid material through, the sump connected to the chamber, the push rod inserted through it and There is a far end that is moved forward and back within the chamber, a pusher mechanism for moving the rod forward and back, and a mechanism for moving the axle. Set the position of the push rod to determine the position of the far end of the push rod with the push rod. Kang said to be moved forward and activated to stop the forward motion in the absence of The contact between the far end of the push rod and the internal wall of the liquid chamber, which will Give the liquid material an inert force to release it in a liquid droplet state. Where the mechanism to determine the displacement of the axle will determine the position of the tip The far side of the push rod, when the forward motion stops, is close to the wall inside the containment chamber. The liquid is positioned in the forward direction. 2. The drip droplet set according to claim 1, where the far end of the push rod is positioned in the forward direction. When the forward motion stops, the push rod is closer to the internal walls and discharge chamber of the containment chamber. The liquid is positioned in that axial direction as it moves forward. 3. A droplet discharge device according to claim 1 or 2, wherein the inner wall of the tip The far side of the chamber is formed in a cone shape, with a discharge channel at the end. 4. The drip device according to claim 1 or 2, with the internal wall of the liquid filling chamber. The far end of the liquid chamber is a flat surface with a discharge outlet. 5. The drip device is based on one of claim 1 to 4, where the axial positioning mechanism It consists of an adjacent front (43) that is provided. The forward stop (51) is positioned opposite the forward adjacent (43), where the forward stop of the push rod is determined by where the Align the front (43) to the front stop (51) as mentioned. 6. The drip-drop device according to claim 5, where the mechanism for positioning the The push rod consists of moving parts (30) that can keep the part in a moving position. Forward and backward, with the stop position for forward movement of the push rod can Customizable by using moving parts (30) to make the front stop move. 7. The drip-drop unit according to claim 6, where the moving part (30) consists of a locator for determining the location of the moving parts (30). Claim No. 6 or 7, where the drop-off unit The liquid has an additional component, the main body with a through hole (24) and a piston chamber (61) where the thrust rod is inserted and the liquid discharge block with the discharge port, the liquid chamber, the liquid dispenser. , Through hole (26) through which the axle is inserted Where the thrust rod has a push rod and the front side (43) which is wide More than a push rod and is provided in the piston chamber (61) and where the moving part (30) has a through hole (34) through which the push rod is inserted and is 9. The liquid discharge unit according to one of Claims 6 to 8, where the front stop (51) is the surface of the liquid discharge block. The piston chamber (61) is positioned opposite to the surface of the Front side (43) on the forward direction 1 0. Droplet unit according to any of claims 6 to 9, where the position of the front stop can be adjusted. This can be done by moving the position of the moving part (30) forward and backward to adjust the distance between the main body and the liquid discharge block 1 1. The drip unit according to claim 10, where Liquid dripping device There are additional components, namely the base parts for mounting the main body parts to allow for movement. The main body positions are forward and reversible, and the liquid discharge block is installed. Into fixed position 1 2. The drip drop unit per claim 6 through 8 where the front stop (51) consists of the rear end of the moving part ( 30) which extends into the piston chamber (61) and the position of the front stop (51) can be adjusted by moving the position. Of the moving part (30) forwards and backwards 1 3. The drip-drop unit according to any of the claims 6 through 12, which, when the position of the moving part (30) is moved Forward and backward, it will be able to adjust the position in The forward motion of the dungang axis is said to reach the point of contact (12) where the far end of the thrust rod comes into contact with the internal wall of the liquid chamber. According to claim 12, with the far end of the push rod It was created to cover the discharge channel at the point of contact. (12) 1 5. The drip device in accordance with any claim of claim 1 to 14, where the thrusters are adjacent. Rear (45), which is positioned on the side in which the front side (43) retracts, and where the axle positioning mechanism consists of a rear stop (52), which can be confined. Of the reverse motion of the thrust axis by being close to Rear adjoining (45) and rear stop shifting mechanism for making the rear stop (52) move forward and reverse 1 6. Condensate drip set according to any of the claims. Of claims 1 to 15, which, as mentioned above, also contain a resonable component for rocking the axle in the forward direction 1 7. The drip-drop device set in accordance with any of the claims Of claims 1 through 16 where the liquid chamber has a liquid dispenser where the liquid material is ejected and the discharge unit The dropper has an additional component, a liquid feed regulator, for dispensing liquid material to the The liquid dispenser with forward and reverse motion of the push rod 1 8. The drip-drop unit according to any of Claims 1 to 17, which also consists of a mechanism. Pressure control for increasing pressure and reducing the pressure of liquid materials. In the chamber of liquid with the forward and reverse motion of the pressure rod 1 9. Method for releasing droplets to inertial forces on the liquid material by making the axle thrust. It moves forward and stops the forward motion of the push rod in a non-distal state. The distances of the push rod and the inner walls of the liquid chamber do not come into contact, causing the liquid to float. And fall off in a liquid droplet state It is equipped with a liquid container with a discharge port and a push rod with a far end, which Was moved forward and backward within the chamber containing the said liquid, and The far end of the push rod is positioned against the internal wall of the The chamber is in the direction in which the thrust axle moves forward when it is set not to move forward. 2 0. Method of releasing the droplets according to claim 19 by the far end of the thrusters. They are positioned close to the internal walls and discharge chambers of the liquid chamber, which are provided. It is in the direction in which the axle moves forward when it is stopped from moving forward. 2. 1. Method for dropping liquid droplets according to claim 19 or 20, with an adjacent front (43) arrangement which is Provided on the push rod The front stop (51) is positioned as opposed to the anterior adjacent (43), and the front stop is set while the push rod moves forward by directing the front adjacent (43). It comes close to the front stop (51) as mentioned 2 2. By providing a moving part (30) that can move the moving position. Forward and backward and The stop position is adjusted while the push rod is moving forward by shifting the position in the Forward and reverse movement of the front stop (51) within the said moving part (30) 2 3. Method for dripping liquid droplets according to claim 22, whereby the moving part (30) has body Specify locations for locating moving parts (30) and the method has an additional step: Adjustment of the position of the moving parts (30) based on the values indicated by the aforementioned locator 2 4. Method for dropping droplets according to claim 22 or 23 with the provision of piston chambers (61) consisting of Front stop (51) on the surface of the The chamber, positioned opposite the front adjacent surface (43), on the forward side, and The position of the piston chamber (61) is adjusted by shifting the forward movement position. And the reverse of the moving part (30) so that the position of the front stop (51) 2 5. Method of dripping liquid according to claim 22 or 23 where the rear end of This moving part (30) consists of the front stop (51), which is positioned opposite to the The front adjacent surface (43) on the side. This is the forward direction and The method consists of an additional step: adjusting the position of the front stop (51) by shifting the forward and reverse motion of the moving part (30) as mentioned. 2 6. Release method. Liquid drop according to any of claims 22 to 25, with the stop position adjusted while the push rod moves forward, relying on Step one, which is to position the far end of the thrust rod in contact (12), where the far end of the thrust comes into contact with the interior wall of the room. The fluid is filled and the front close (43) and the front stop (51) are in close contact, and the second step, which causes the forward part (30) to move forward and reverse. Is the desired distance while maintaining the close contact between the front contact (43) and the front stop (51) to position the far end of the push rod within the desired distance from Positions of contact (12) 2 7. Drip drop method according to claim 26 where the far end of the push rod is It was built to cover the release channel at the contact position (12), the area at the far end of the axis. The pressure will come into contact with the internal wall of the liquid chamber, and in step one, the position of the Is the far end of the push rod in contact position (12), considering the presence of Or no liquid material flows outside through the discharge chamber 2 8. The drip-release unit in accordance with any of Claims 19 to 27, with the push rod adjacent to the back (45 ) Is on the reverse side of the section The front side (43) has a rear stop (52), which is positioned opposite to the rear adjacent (45) and can move the position in the forward and reverse movement of the melee. Behind it and The scope of the reverse motion of the thrust rod is limited by bringing the rear adjacent (45) closer to the rear stop (52) 2. 9. Method of dripping liquid drop according to one of the claims Of claims 19 through 28, where the liquid chamber has a liquid dispenser where the liquid is dispensed and the liquid is dispensed to the compartment. Dispense liquid material with the forward and reverse motion of the thrust rod 3 0. Method for dripping droplets according to one of Claims 19 to 29, where the liquid material is the liquid material that Contains 3 fillers. 1. Method of dropping droplets according to one of Claims 19 to 30, where the liquid material is pressurized and depressurized in the liquid filling chamber with the movement. Forward and reverse of the push rod