DE1646364U - EXHAUST MECHANISM FOR IMPACT MACHINES AND SIMILAR MACHINES. - Google Patents

Description

"Overseas hatefulness for St-Tauchaasohinen and similar machine to The present innovation relates to aotf Machines in which workpieces, usually in the form of a Piece of wire or rod, inserted into a die the, wherein the inner end is in contact with the end of an ejector mandrel and the outer end protrudes from the die, so that they can be subjected to other operations when compressed; during these operations the product is supported against a straight movement by the ejector pin; Means are also provided to move the ejector straight until its outer end reaches a certain and predetermined position, so that the product is ejected after the completion of the work on each workpiece.

With this type of machine it is sometimes important that the outer end of the ejector mandrel does not usually protrude over the end of the die during its outward movement, as it is common for that Werkstüek carrying equipment to be provided that transversely to the end of the trise slide. Furthermore, workpieces can be used in the machine , and Can be used in different lengths / edist necessary, an Eisntellvorriohtung for the Ao-zbossser provide driving means so that the inner position of the outer end of the ejector pin can be adjusted to the exact Entiernung from the end of the die, so that it city bit the product in contact during upsetting or other work process and supports this.

The following is the procedure for adjusting the inner position the end of the ejector pin, which is used to determine the length of the product, as "adjusting" and the act of moving the ejector straight to its exterior End nears the end of the die, referred to as It Operate ft.

So far it has been customary for this species to have two separate regulations to be provided, one for fixing the setting and the other for setting the Distance of movement of the member that actuates the ejector mandrel; but it's in Practice has proven difficult to find workers who accept both of these settings execute exactly what has the consequence that in some cases the drive means so it is set so that it has a greater range of motion than is necessary, and as a result idling occurs in the mechanism. Such idling gets undesirable Noises and wear of the parts as well as instantaneous accelerations from parts of the mechanism.

The present innovation aims to overcome these difficulties and a smooth even acceleration and deceleration of the movement of the Dornes with every work step.

It is common on most machines to have one sliding in the die Use ejector spike and a separate ejector rod that are in alignment with the mandrel and actuates the ejector mandrel. The following are these two Links However, treated as a unit and referred to as "Auastossdorn".

According to the present. An innovation will be the definition of the setting and the corresponding setting of the range of motion of the ejector pin the activity of a single one. Rear actuator causes that on setting and operating members acts, which are connected to a joint mechanism, which is driven by a power Drive member is put into action.

Furthermore, according to the present innovation, a single setting member is used for setting the setting means and operating means for the ejector pin; these means have separate setting and operating levers, which are rotatably attached to a common axis and are able to move against each other without performing a relative movement to each other, to whom the J (eohanis- ma. s is set, the operating lever operates independently an oscillating movement from the adjustment lever when it moves the ejector mandrel and when it moves backwards.

The rebels are connected to each other by a four-bar linkage a member rotatably attached to the operating lever and swinging by one Working lever is operated, which has an arcuate work surface in front of her The operation is concentric with the center where the control and adjustment levers are located are rotatably attached, the adjustment causes a change in the distance between the pin of the working lever and the point of contact between the with the Control lever connected song and the work surface working lever, where the Extent of the movement transmitted by the working lever to the operating lever for the purpose of adapting to the setting of the operating and setting levers automatically will be changed.

The innovation is explained in more detail in the accompanying drawing. in 1 shows a section in side view, FIG. 2 shows a section along line 2-2 in Fig. 1.

In the illustrated design, the machine. a frame which is made up of a number of parts 10, 11, 12, 13, 14, 15, the are interconnected by means not shown.

The parts 10 and 14 are provided with guides for the ejector pin 16, which is attached for the purpose of a straight reciprocating motion and with a flange 17 is provided, on which a spring acts, which is against the inner end one in the part 10 mounted recess 19 is supported and the backward movement of the Ejector causes.

The part 14 is provided with a cylindrical bore 20, 11 the introduced the product and ejected it through the ejector pin 16 will.

The part 12 of the fuselage is provided with a threaded hole 21 in which a threaded sleeve 22 is as Control member is located, which has a non-circular end 23, sc t that it can be rotated to adjust it in a straight line; this sleeve 22 is arranged coaxially to the ejection dome 16. The sleeve is also provided at the end with a flange-like stop 24 and contains a socket 25 in which a. The end of the ejector pin 16 is guided. The part 11 of the frame is supported by a pivot pin 27 in a pair of spaced-apart casings 26 provided. On this pin 27, the settings are around its axis and operating lever mounted for rotational movement.

The actuating lever is in the form of an angle lever which has a primary arm 28 and a secondary arm 29. The primary arm 28 is designed at its end as a fork 30 which includes the ejector pin 16 and an arcuate surface 31, which acts on one side of the flange 17. Against- overlying side 32 of the end of arm 28 is flat. The adjustment lever we. st met at a distance from each other @ an- applied links 33, each of which has the shape of a Has angled lever; these members 33 are so attached. that si ( can rotate around the pin 27 and lie on opposite sides of the operating lever 28, 29. The A control lever has two adjacent primary arms 440 two between these arms a block 35 is attached. The poor 34 terminate in a fork 36, one side 37 of which is flat and acts on the surface 32 of the operating lever, while the other side 38 of the fork is arcuate in shape and acts on the end of the bushing 25 and the flange 24 of the threaded sleeve 22.

The adjustment lever is provided with a secondary arm 39 which in two parts running at a distance from each other is posed. , The secondary arms 29 and 39 are provided with pivot pins 40, 41 .. A link 42 is attached to the pin 41, which is in two adjacent mutually arranged parts is made. The handlebar runs parallel to the secondary arm 39 of the adjustment lever.

The quadrangle also includes a further link 43t of the on the pin 40 and that of the two parts of the handlebar, parallel parallel 42 supported pin 44 is attached. The handlebar 43 runs to the secondary arm 29 of the operating lever.

The handlebar 43 extends beyond the pin 44 and is with a roller 45 is provided which is carried on one by the two parts of the handlebar 42 Bolt 46 is freely rotatable.

The handlebar 42 is also elongated at the opposite end as shown at 47. and provided with a bolt 48 to which three tension springs 49 are attached. The end of one of these dern is on the bolt 48 between the two parts of the Handlebar 42 attached, and the ends of the other two springs encompass the ends of the bolt 48 on the outer sides of the two parts of the handlebar 42.

The part 13 of the frame is provided with two upwardly projecting lugs 50 provided; at the tip of each of these lugs is a bracket 51 attached intermediate these brackets is rotatably mounted on pivot 52, a rocker 53, the one arcuate Bmekfläche 54 hot il the roller 45 is in contact. The printing area 54 is before the operation of the Actuating fog 28, 29 with the axis of the pivot 27 is concentric. On one side (see Fig. 2) is the rocker 53 is provided with an arm 55 which is connected to one of the pivot pins 52 or is provided and terminates at its upper end in a fork 56 in which a Rolle57 is rotatably mounted.

This roller is driven by a drive cam 58 mounted on a drive shaft 59. On the other side, the rocker 53 has an arm 69 that the other Pivot 52 carries or is in communication with this. t, Z Roller 57 is held in contact with lock 58 by compression springs 60. The rocker 53 is provided with a pair of spaced apart lugs 61 which carry a bolt 62 on which three spring-loaded bolts 63 are rotatably mounted; each of these bolts can slide in a tube 64 which has a flange 65 and a pin 66 which is housed in a block 67 fixed to the inner surface of the machine frame. With springs 60 act between the flanges 65 and collars 68 attached to the bilzen 63 so that the rocker 53, as can be seen from FIG. The cam causes nearly half of each to pause Rotation and a smooth even acceleration and deceleration slow movement of the outer wall 16 / iàem working corridor. The lower ends of the springs 49 are at one of the con Solen 51 carried bolt 70 attached. The adjustment lever 34, 39 can by turning the sleeve 22 of the / nidn. circular part 23 can be set such Adjustment changes the position of the outer end of the pusher pin 16 at the inner end of its stroke. These settings Development is transmitted to the operating lever 28,29 due to the fact that the two surfaces 32 and 37 are in contact with one another during the adjustment. Each setting causes a corresponding setting of the length the movement range of the operating lever army like like them is necessary to ensure that the outer end of the ejector pin 16 moves to the selected position with each operation. In addition, idling is avoided and the disadvantages resulting therefrom are eliminated. The settings also cause the role 45 to develop. long to move the pressure surface 54. so that their distance, t from the axis of the pivot 52 is larger or smaller When the roller 45 moves in the direction of the axis mentioned above moved to, the amount of the on the operating lever arm 28 transferred movement according to the made approx. position off.

Claims (3)

P atent claims ejection mechanism for upsetting machines and similar machines in which the starting position of the ejector mandrel as well as the length of the distance by which the ejector spike moves, can be set, characterized in that the single position of the starting position of the discharge dome and / de setting of the distance by which the discharge dome moves, detected by the operation of a single adjustment member that acts on setting and operating members that lead to a t a power-driven drive member actuated joint mechanism nism are connected. 2. Ausstess Mechanism according to claim 1, characterized in that the setting and operating means for the ejection dome have separate setting and operating levers rotatably arranged on a common axis and these levers are able to move against each other without moving relative to each other when the mechanism is adjusted, and. the operating lever is very independent of the setting lever. Movement executes when he moves the ejector and when he moves backwards, the lever mentioned further by a. Quadrangular joints are connected to one another and one of the links is rotatably attached to the operating lever and a swivel gender work lever acts on this, which is an arch-shaped one Abeita surface has that in front of their. Operation with the middle, to which the operating and adjustment levers are rotatably attached, is concentric, wherein further the adjustment is a change in the Distance between the pin of the working lever and the contact point between the link connected to the operating lever and / side surface of the working lever caused by the The extent to which the operating lever is transferred to the operating lever sustained movement for the purpose of adaptation to the setting the operating and adjustment lever is changed automatically. 3. Ejection mechanism according to claim 1 or 2, characterized by separate setting and operating levers which are in contact with each other during the setting and between a flange or collar attached to the ejector and there. At the end of an adjusting sleeve. 4. Ausstess Mechanism according to claims 1 to: marked net by a four-bar linkage which has a control member and working member which are rotatably connected to one another, the control member being rotatably attached to the setting lever and the working member being rotatably attached to the operating lever and the control and working members together with an arm of each lever forming a parallelogram.