Patent application number | Description | Published |
20120076889 | FLOWING DIRECTION REGULATOR AND THE MOULD WITH THE SAME - A flowing direction regulator and a mould with the same are provided. The flowing direction regulator is applied to a glue-dispensing runner of a plastic product for adjusting the flowing direction of the melt material in the runner. The flowing direction regulator includes a retaining portion and an extending portion extending outward from the retaining portion and entering into the runner. The flowing direction regulator can modify the width of the runner, so that effectively adjusting the melt plastic flow, resolving the problem of the different pressure needed by the different location of the plastic product, and effectively reducing the gas lines of the plastic-feeding location. The flowing direction regulator has a simple structure and a low cost, and can be conveniently operated. Moreover, the present mould can avoid to be taken apart and again fixed, thereby reducing the adjusting time, improving the working efficiency, and reducing the cost. | 03-29-2012 |
20120082746 | MOLD HAVING SLIDE - A mold having slide is disclosed, including an upper mold plate, a lower mold plate mating with the upper mold plate, a slanted guide post, a slide, and a locating mechanism. The slanted guide post is mounted on the upper mold plate. The slide and the locating mechanism are both mounted on the lower mold plate. The locating mechanism has a locating stop. The locating stop is fixed to the lower mold plate. The locating stop has a pull rod movably mounted thereto with one end of the pull rod fixed to the slide. A compression spring is located between an opposite end of the pull rod and the locating stop. The mold can effectively prevent the slide from undesired move-back and thus being incorrectly positioned so as to eliminate the potential risk of damage of the mold by the slanted guide post. | 04-05-2012 |
20120082747 | INJECTION MOLD FORMING A PRODUCT HAVING A BARBED STRUCTURE - A mold for making a product having a barbed structure at an intermediate position thereof has a stationary mold including a fixing board, a mold board, a core, an oblique block, a limiting element, and an elastic element. The mold board has a trough and a limiting chute. The core has a cavity and a slide chute. The oblique block having a hole communicating the cavity is movably disposed in the slide chute. An end of the block is extendable out of the cavity and an opposite end forms an accommodating hole. The limiting element includes a limiting end extending into the accommodating hole and a fixing end movably disposed in the limiting chute. The elastic element of which one end is against the accommodating hole and an opposite end is set against the trough is disposed in the accommodating hole. | 04-05-2012 |
20120082752 | PLASTIC INJECTION MOLD - A plastic injection mold is provided for use in a mold injection machine. The plastic injection mold includes a stationary mold member, a movable mold member mating the stationary mold member, an ejection mechanism disposed on the movable mold member, and a resetting device mounted to the movable mold member. The resetting device is provided to ensure complete return of ejector elements that constitute the ejection mechanism back to the home position before the plastic injection mold is to be closed again. As such, damage caused by undesired impact between of the ejector elements and other mold elements can be avoided, thereby ensuring operation safety of the plastic injection mold in a closing operation. | 04-05-2012 |
20120084964 | ASSEMBLING METHOD OF AN INJECTION MOLD - An assembling method of an injection mold includes the steps of: disposing guide rods and a ejection pin plate on a punch template; inserting guide bushes into the ejection pin plate; inserting ejection pins respectively into the ejection pin plate and the punch template; fastening a ejection pin fixing plate to the ejection pin plate; fastening a die fixing plate and spacer plates to the punch template, and inserting the other ends of the guide rods into the die fixing plate; and disposing a press plate into the die fixing plate, and fastening the guide rods to the die fixing plate by tightening screws. The assembling method set the guide rods first o achieve a positioning function before ejection pin plate is assembled, and thereby capable of effectively eliminating the problems of deformation of the ejection pin plate, breaking of the ejection pin, and abrasion occurring in the return stroke. | 04-12-2012 |
20120088005 | SELF-ADJUSTING ANGLED EJECTOR - Provided is a self-adjusting angled ejector including an angled ejector base, a fixing member, an angled ejector pin and two adjusting plates. The angled ejector pin disposes an undercut-forming portion projecting on an upper end thereof. A lower end of the angled ejector pin is received in a groove of the angled ejector base and is detachably fixed on it. The two adjusting plates form a rotating region therebetween for pivotally positioning the angled ejector base. When ejecting the product, the angled ejector base can rotate to adjust the angle of the angled ejector pin for preventing the angled ejector pin from being bent or broken. Moreover, the mould need not be disassembled when mounting or dismounting the angled ejector pin, thereby saving the assembling or disassembling time of the mould, improving the production efficiency of the mould, and reducing the man power and material resources. | 04-12-2012 |
20120088008 | INJECTION MOLD - Disclosed is an injection mold, comprising a moving half, a fixed half and a plurality of bearing plates positioned therebetween. The moving half comprises a moving half plate and a moving half core positioned thereon. The fixed half comprises a fixed half plate and a fixed half cavity positioned thereon. The bearing plates are positioned on one of the fixed half plate and the moving half plate and a bearing surface is formed thereon. The moving half core and the fixed half cavity contact with each other partially to form an arrangement surface. With the bearing plates positioned therebetween, the bearing surface and the arrangement surface can undertake the closing mold pressure generated by an injection molding machine together for reducing the arrangement surface area. The molding is easy and cost drops to improve productivity. The closing mold balance of the entire injection mold can be preferably ensured. | 04-12-2012 |
20120091314 | MOLD - A mold includes a static mold, a static-mold ejector mechanism, a dynamic mold mating with the static mold, and a dynamic-mold ejector mechanism. The static mold has a static-mold moving-space and a positioning-rod hole. The static-mold ejector mechanism is movably mounted in the static mold and includes a static-mold ejector plate mounted in the static-mold moving-space, at least one static-mold ejector component, at least one positioning-rod movably received in the positioning-rod hole, and at least one static-mold spring. The static-mold ejector component and the positioning-rod are mounted on the static-mold ejector plate. The static-mold spring can push the static-mold ejector plate to drive the positioning-rod against the dynamic mold. The mold prevents the finished-product from sticking in a static mold with the arrangement of the static-mold ejector mechanism, which provides the static-mold spring to push the static-mold ejector plate to drive the static-mold ejector component to push the finished-product out. | 04-19-2012 |
20120100239 | SWITCHING WARE - Disclosed is a switching ware, employed in a mold having a cope plate, a middle template and a lower die. The switching ware comprises a trip lever, a trip limit element and at least one spring. The trip lever is installed on the cope plate. A trip limit controller is fixedly installed on the lower die and has a clipping plate formed in the middle of the trip lever. The trip limit element is slidably installed inside the open slot. The trip limit element can extend out of the open slot to reach against the clipping plate and the trip limit controller can push the trip limit element to slide in the open slot. The mold can complete the operation of closing mold in a specific sequence with the switching ware of the present invention. The structure of the switching ware is simple, safe, reliable and with low failure probability. | 04-26-2012 |
20120100244 | PLASTIC INJECTION MOLD - A plastic injection mold includes a stationary mold member, a movable mold member, an unloading mechanism, and a movable platen operating mechanism. The movable platen operating mechanism includes an elastic element and a stopping connection element. The elastic part element has an end coupled to an ejector plate and an opposite end positioned against the movable platen by extending through a receiving hole defined in an auxiliary platen. The movable platen is coupled to the auxiliary platen by the stopping element in a relatively movable manner. With the movable platen operating mechanism disposed on the movable mold member, ejection of a molded product from the mold can be carried out in a two-stage process, assuring successful and intact release of the product from the mold without causing undesired deformation. | 04-26-2012 |
20120107440 | MOLD WITH SLIDERS - Disclosed is a mold with sliders employed for molding a plastic product having a first lateral bulge and a second lateral bulge in different directions. The mold comprises a fixed half, an angle pin, a moving half, a main slider and a tilted slider. The angle pin comprises an angle pin body with two opposite forcing surfaces. The main slider comprises a tilted slide track corresponding to the second lateral bulge. A pin slot is formed on the main slider. Two weighted surfaces are formed on the main slider at the opposite two sides of the pin slot. The angle pin body can slidably dip into the pin slot and the driving guide slot. By acting on the tilted slider and then on the main slider with the angle pin body, the mold can respectively complete the procedure of pulling out laterally bulges aslant and horizontally. | 05-03-2012 |
20120107441 | MOLD HAVING PUSH-OUT STRUCTURE - Disclosed is a mold, comprising a fixed half, a moving half, a push-out structure and a return protection system. The moving half has a pressing part. The push-out structure is installed on the fixed half. The push-out structure comprises a push-out element and a push-out plate. The return protection system comprises a return pin and an elastic element, installed between the return pin and the push-out element. The pressing part can press against the return pin. With the elastic element, the return pin can drive the push-out structure. It can prevent the moving half to interfere the push-out element and to impact the fixed half. Accordingly, the lifetimes of the push-out structure and the parting planes of the mold can be extended to reduce the maintenance cost. Noise caused by closing mold with high speed can be prevented to raise the stability and the productivity of manufacture. | 05-03-2012 |
20120107447 | PLASTIC INJECTION MOLD - A plastic injection mold includes a female mold, a male mold mateable with the female mold, and two ejection mechanisms. The ejection mechanisms are coupled to the ejector plate. Each ejection mechanism includes a slanted ejector lever and a hook portion projecting sideways from one end of the slanted ejector lever. When a product has hook like portions is molded with the injection mold, the slanted ejector levers are movable in both horizontal and vertical directions at the same time to help easily releasing the molded product from the mold thereby improving production efficiency. | 05-03-2012 |