A compact, portable in-line heat press machine that holds the upper heated platen horizontal and laterally aligned with the lower platen is provided. The lower frame has front and rear pivot joints on each side of such frame to accommodate linkage arms pivotally attached to it and the upper frames which has similar pivot joints. As such the upper heated platen is lifted up and straight back with respect to the lower platen assembly which completely clears the lower platen for unobstructed loading/unloading of lower platen while keeping the upper platen assembly in a horizontal position. When the upper platen is moved into the lower position, a locking mechanism affixes the upper and lower platen assemblies so that the platen actuators can cause a linear movement between them thus causing a pressing action.

The present invention relates to a press part (1,20,30,40) for supporting a mould part for encapsulating electronic components mounted on a carrier comprising a press block (2, 42), which press block comprises a contact surface (3), a side (4) facing away from the contact surface and at least one side wall (5) connecting the contact surface (3) and the side (4) facing away from the contact surface(3), wherein the press block (2, 42) comprises at least two opposed elements (6a, 6b, 21a, 21b, 31a, 31b, 31c, 31d, 44) protruding from the side wall (5), and wherein the side wall (5) transposes via only a recess (7) into each of the protruding elements (6a, 6b, 21a 21b, 31a 31b, 31c 31d 44). The present invention further relates to a press comprising the press part of the present invention.

A system for transforming rotating motion into linear motion may include an output gear and an output link coupled to the output gear. A shared link may be coupled to the output link and coupled to a rod. An arm may be coupled to the shared link and to a rotating drive. An idle gear may be coupled to the output gear and to a stationary gear. Once rotation has started with the rotating drive, the output gear and idle gear may rotate around the stationary gear while the output link pivots and translates through space with the output gear. The shared link may drive the rod in a linear direction while receiving stabilizing supporting forces from the output link. The intermediate link may be coupled to the output link with a pin. The pin may also couple the intermediate link to the arm.

A crowning method is applied to a bending process by a press brake comprising an upper table and a lower table as being vertically opposed to each other, wherein the lower table comprises slits respectively opened in right and left directions, to bend a workpiece put and deviated rightward or leftward on the lower table so as to extend the workpiece over at least one of upper portions of the slits, the crowning method comprising: deforming end sides of the upper portions of the slits of the lower table so as to warp the one of the upper portions upward to carry out a crowning regulation.

A fine blanking press includes a press frame with two or more guide elements extending along a vertical axis, a press ram including a ram plate section configured to carry a fine blanking tool and two or more guide sections positioned on the two opposing side surfaces of the ram plate section. The ram plate section includes an upper surface, lower surface, and two opposing side surfaces. The two or more guide sections are structured to guide movement of the press ram relative to a press frame of the fine blanking press during a fine blanking process. The two or more guide sections extend in a vertical direction to a level that is higher than the upper surface of the ram plate section.

A hot forming tool includes a top tool and a bottom tool, both of which can be moved towards each other. When the hot forming tool is closed, a mold cavity is formed between the top tool and the bottom tool, with the top tool and/or the bottom tool being divided into at least two segments. The hot forming tool has one segment designed as a heating segment. The heating segment includes a compensating element on a side thereof opposite the mold cavity, to compensate for a thermal expansion of the heating segment in the press stroke direction.

An apparatus for manufacturing masonry blocks, comprising a shoe, a backup plate, a plurality of buffers disposed between the shoe and the backup plate, a plurality of snubbers disposed between the shoe and the backup plate and wherein a relaxed height of the plurality of buffers is equal to or less than a height of the plurality of snubbers.

A press brake is equipped with an upper table provided so as to be vertically movable at an upper part of a main frame and holding a punch tool on a lower side thereof, and a lower table provided at a lower part of the main frame and holding a die tool on an upper side thereof. A pair of slits extending symmetrically in a lateral direction are formed in the lower table, and an end portion of each slit on an outer side in the lateral direction is opened. An elastic member is provided in the end portion of each slit on the outer side in the lateral direction. The elastic member is configured to be switchable between a load-receiving state for receiving a bending load acting on the lower table and a released state in which the load-receiving state has been released.

A press ram for a fine blanking press comprises a ram plate section configured to carry a fine blanking tool and at least two guide sections positioned on opposing sides of the ram plate section. The ram plate section comprises an upper surface, a lower surface, and two opposing side surfaces. The at least two guide sections of the ram plate section are configured to guide movement of the press ram relative to a press frame during a fine blanking process. The at least two guide sections extend in a vertical direction to a level that is higher than the upper side of the ram plate section.

A press machine includes upper and lower crankshafts having the same amount of eccentricity and driven in opposite directions with a phase difference of 180 degrees, a slide and a bolster rotatably connected to eccentric parts of the upper and lower crankshafts, respectively, a parallel maintaining mechanism configured to maintain a parallelism between the slide and the bolster, and a clamp mechanism including an upper clamp attached to the slide and a lower clamp attached to the bolster. The slide and the bolster move toward/away from each other and advance/retreat together along a feed direction of a material in accordance with rotational driving of the upper and lower crankshafts. The clamp mechanism clamps the material when the slide and the bolster move toward each other and unclamps the material forwardly fed while being clamped when the slide and the bolster move away from each other.