DE2338110A1 - BRIQUETTING PRESS - Google Patents

Description

DIPL.-ING. H. MARSCH * düsseidobf,

1.INDEMANNSTiIASSX Sl

DIPL.-ING. K. SPARING mailbox "η" TKtBFON (OSlU MM «

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Description of the patent application

Combustion Engineering Inc., Windsor, Conn., USA

concerning
Briquetting press

The invention relates to a press for briquetting Chips «of the like, i.e., metal drilling chips and the like. In particular, the invention relates to a press of the type in which a floating die is in communication with a fixed anvil and a movable punch for compressing the in a fixed spahw container arranged chips are used to form a compact.

Presses for birketting chips, i.e. metal drill chips and the like are already known. There are numerous problems with the known presses, for example alignment of the punch and anvil is difficult to achieve, especially repeated alignment These known presses therefore require a large number of moving parts, which not only increase the acquisition costs the press, but also require considerable maintenance. It has also been shown that such a known press a moving chipboard

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Has container which, as has been found, is difficult to fill _e Furthermore, the properties of the compacts resulting from the known presses are not uniform, that is, their density is not constant over their length.

The invention has for its object to provide a novel and improved briquetting press which the described and other problems of the known briquetting presses eliminated or reduced to a minimum and advantages in production, in the operational sequence, in use and in the end product compared to the known presses, having·

According to the invention this object is achieved by a frame; a container supported by the frame for receiving the chips; an anvil supported by the frame; a ram carried by the frame and movable through the container towards and away from the ambass; one through the Stalk-supported die which is movable between a first and a second location; a facility for Moving the die between the first and second positions with the die in the first position with the end face of the anvil forms a suitable cavity in communication with the container and in alignment with the punch is; and means for moving the punch towards the anvil and into the die cavity so as to remove the chips To move containers into the die cavity and to press them against the anvil to produce a compact, with this device comprises a device for moving the punch port from the anvil and the die as a function of the compact is stripped from its movement from the first position to the second position.

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To achieve the object thus has the briquetting press according to the invention a solid container for shooting clay chips, that is, ·, metal ~ drilling chips and the like at ₀ Furthermore, a fixed anvil and a movable punch are provided which reciprocally horizontally aligned and located at opposite sides of the container are © A die surrounds the anvil and is held by a die holder that has a cylinder. Actuating the cylinder allows the die to be moved between the extended and retracted positions. In the extended position, the die engages a shear ring on the side wall of the container and defines a die cavity with the end surface of the anvil. In the retracted position, the end of the die is withdrawn behind the end of the anvil. "A bearing is provided for the punch in the opposite side wall of the container to keep the punch in alignment with the shear ring and die cavity"

Are the chips in operation _? if necessary or desired, precompacted in the stationary chip container by a ramming cylinder of the anvil the die cavity is formed. Then the stamp is across the. Chip container displaced and penetrates the die. As a result, the pre-compacted & tsk chip material is transferred into the die cavity. The cylinder holding the die in contact with the shear ring is neutralized, allowing the die to move along the axis of the compact. Another movement of the punch towards

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onto the end face of the Amboaseβ and into the die cavity inside compresses the chips located therein between the punch and the anvil, so that a compact is produced · The die does not offer any resistance to lateral forces, so that the full power of the press is used is applied to the opposite ends of the compact. Then the punch is pulled back slightly, whereupon the die holding cylinder is actuated to withdraw the die past the end face of the anvil, whereby the die is stripped from the compact. The compact can then be moved from the end face of the anvil onto a Falling slide. Preferably, a suitable mechanism is provided which rotates the die while the compacts are stripped off in order to reduce the wear of the die to a minimum.

According to the invention, the cylinder carrying the die can "float" by releasing the fluid pressure in the cylinder. AT the time the chips are compacted within the die cavity, the pressure in the cylinder is relieved so that that carried by the cylinder Die floats During chip compaction, the chips come into engagement with the freely floating die and move it slightly in the direction of compaction _o This arrangement minimizes the development of frictional forces between the chips and the side walls of the die, which also reduces the amount required the compression force lost due to friction is reduced. Accordingly, the compression force is used more effectively for compact production. This results in a compact with a more uniform density distribution. In addition, the wear on the die wall due to friction is reduced «

By using a floating die, it is

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possible to bevel the die cavity slightly so that the inside dimensions at the point of entry of the compression The punch in the die is larger and the inside dimensions of the The die near the anvil is smaller. This conical arrangement makes it easier to align the die and the joint. sealing stamp because of the larger die dimensions at the point of the stamp entry facilitates this conical arrangement also the stripping of a compact from the die, since the stripping by withdrawing the die over the fixed anvil, i.e., in the direction in which the die is beveled or tapered

The invention employs a separate die and shear ring so that if the shear ring is severely worn, only the shear ring needs to be replaced. Previously, the die and the seer ring were unitary and both had to be replaced when excessive Wear on one of these parts occurred, _etc.

Accordingly, according to the invention, a new and improved briquetting press is created. Furthermore, the invention achieves the object of creating a new and improved briquetting press which has a stationary chip container and relatively few moving parts. The briquetting press enables a constantly renewed exact alignment of the punch and the anvil. Which can be prepared in the briquetting press erfindungagemäßen compacts have substantially uniform properties, d _o · h, density, where the friction losses are reduced to a minimum in the manufacture of the compacts. The press according to the invention has the advantage that it is relatively easy in

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Can be held. She is also trained that the wear on the various parts of the press is minimal

According to the invention, the press has a stationary container for receiving metal chips. _O The chips are precompacted in the container by a ramming cylinder. O A fixed anvil and a punch are horizontally aligned with one another. located at the opposite ends of the chip container. * A die surrounds the anvil and is carried by a movable cylinder that allows the die to "float". The "movable die holding cylinder works in conjunction with a piston mounted on an anvil Stüt ^ staage is attached "so as to move the die towards the chip container to form a die cavity together with the end face of the anvil and back from the chip container and from the anvil end face. * The punch moves from a retracted position on one side of the Chip containers through the container so as to bring the chips out of the container into the die cavity and press them against the anvil end face, near the other side of the chip container. The cylinder holding the die is neutralized during the last portion of the squeezing stroke allow the die to float, thereby releasing the pressure on the opposite ends of the compact After the punch has been withdrawn, the die is withdrawn, thereby stripping the compact from the die so that it can fall onto a roll-off chute.

Further features and advantages of the invention emerge from the claims and from the following description, in which an exemplary embodiment is explained in detail with reference to the drawings.

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Fig. T

In a perspective view an inventive Briquetting press;

Fig. 2-7

vertical cross-sectional views through the briquetting press, laid through the longitudinal center line of the press, the sequence of operations of the press when producing a compact is shown

The drawing shows a briquetting press, designated as a whole by 10, which has a frame 12 with opposite end walls 14, 16 and a centrally arranged chip container 18 which at its upper end revolves for receiving chips, ie metal chips or the like is. Close to a bottom wall 20 of the clamping container 18 are check extending, aligned in the longitudinal direction of openings Targesehen in which a shear ring 22 or _e a bearing 24 from the attached yet to be described reasons Sindo near DER upper chip container opening by up opposite one another lying side walls of the chip container A ramming cylinder 26 is attached which has a piston 28 with a ramming plate 30 attached to it. It is clear that when the chips fall into the chip container and the ramming cylinder is actuated, the chips through the ramming plate 30 within the container 18 in between the area located near the side wall openings are precompacted

A stamp 32 is attached to one "end of the frame 12, which can move between a retracted and an extended position, as shown in Figures 2 and 3, respectively are · The punch 32 has a piston 34, which is in

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a cylinder 36 attached to the end wall. The punch 32 extends through suitable guides at the inner end of the cylinder 36 and also through the bearing 24 to the punch guide

Near the opposite end of the frame 12 is an anvil support rod 38 at one end on the end wall 14 attached. The anvil support rod 38 carries an anvil 40 at the opposite end. The anvil 40 is opposite the anvil support rod. 38 reduced in diameter · a stationary piston 42 is supported on support rod 38 between the ends thereof and is protected by a die holder having a cylinder 46 connected to the stationary piston 42 cooperates such that the die 44 is advanced between the positions shown in Figures 2 and 5. is withdrawn · The cylinder has suitable devices, for example valves 60, 70, for draining the Pressure at both ends of the cylinder on «Are the valves f open, they allow easy movement of the die 44, as will be described below. Die 44 and anvil 40 are horizontally aligned with shear ring 22 with an anvil end surface 48 is arranged offset from the outer end of the shear ring 22 to the rear distance · The die has a projection, not shown, which cooperates with a groove, also not shown, on the shear ring, whereby the Die and the shear ring in the yet to be described Be aligned with each other again and again

When the die 44 is in the extended position, as shown in Fig. 2, the die 44 and the End surface 48 of anvil 40 communicates with the chips in container 18 through shear ring 22

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standing cavity C. In the retracted position of the die 44 this can with the end surface 48 of the anvil 40 are aligned, as shown in Fig. 5, and is preferably withdrawn behind them *

As best illustrated in Pig x 1 and 2, there are two fluid lines 54 _f 52 at opposite sides of the stationary piston 42 within the cylinder 46 in Compound E These cables should be flexible in order to adapt to the movement of the cylinder 46 · Corresponding Fluid lines, not shown, are provided in cylinder 36 on opposite sides of piston 34. Appropriate valve devices and timers are provided so that the sequence of operations can be achieved in the manner described below.

As shown, the chips are introduced into the chip container 18 through the upper opening. The ramming cylinder 26 is actuated, whereby the chips are pre-compacted within the container 18. As can be seen, the pre-compacted chips lie on the bottom of the container 18 the punch 32 aligned horizontally with the anvil 40 and the anvil. After the chips are precompacted, pressurized fluid enters the cylinder 36 and drives the punch 32 through the chip container 18, causing the precompacted chips to be driven by the shear ring 22 into the cavity C defined by the die 44 and the end face 48 of the anvil 40 (fig. 2) is formed.As soon as the punch end extends through the shear ring 22, the pressure in the cylinder 46 on both sides of the piston 42 is released by opening the valves 60 and 70, so that the die 44 during the "swim" compression of the chips can freely _e the punch 32 further compresses the chips, so that a compact 50 is produced · the swage can

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be slightly chamfered, if so desired, with the wide end facing the chip container 18 so as to ensure alignment of the punch with the die cavity. When the chips have been fully compressed, the punch 32 is withdrawn slightly to relieve the compact and to keep the chip container closed through its shear ring opening as shown in FIG the end face 48 of the anvil remain ₀ TJm to strip the die from the compact, the valve 70 is closed, whereupon pressurized fluid is applied to the side of the piston 42 remote from the die 44 through the conduit 52 to thereby open the cylinder 46 retract into the position shown in Fig. 5 ,. This means that the die 44 is withdrawn behind the end surface 48 of the anvil, so that the die is fully withdrawn from the surroundings of the compact 50. When the die has been fully stripped, the compact 50 can fall freely from the junction onto a roll-out chute, not shown, located below it. Then, on the side of the piston 42 facing the chip container 18, fluid is applied through the line 54, while the opposite side is relieved via the valve 70, as a result of which the cylinder 46 is displaced to the right, as shown in FIG die is aligned 44 with the shear ring 22 and forms the die cavity "After the punch 32 has been once aligned, it is, as shown in Fig. 7, fully retracted, the Apparation described above is repeated _s the operational sequence can be modified _e example the die can be stripped from the compact after the production of the compact, whereupon the punch can then be easily withdrawn in order to ensure that the compact falls onto the roll-off chute. The die is then returned to its position, with the punch in the position above.

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is withdrawn.

The slight retraction of the punch should be sufficient to disengage the punch from the compact, without chips falling from the chip container through the shear ring and possibly interfere with the closing of the die. Appropriate control devices, such as B < Valves may be provided to stop the punch from moving away from the anvil before the punch enters the inner opening of the chip container releases and to hold the punch in the stopped position until the die is in its first sρan receiving position is brought back.

In the preferred embodiment of the invention shown, the die holding cylinder 46 and the die 44 rotated to achieve even wear of the die. The mechanism for rotating the The cylinder and the die may have a toothed roller 56 mounted on a shaft 43 which is rotatable on the frame is supported · The toothed roller 56 is in timmed engagement with a drive toothed roller 58 on the cylinder 46, A hydraulic motor M, timed with the hydraulic system can be used to rotate or gradually advance the Toothed roller 56 are used, whereby de.r cylinder 46 is rotated.

Another method of rotating the die holding cylinder and die is to rotate on the cylinder to attach a note follower, a cam being arranged on the frame. The cam and the cam follower effect together the rotation of the cylinder and thus of the die as a function of the retraction movement of the die, if the compact is stripped from this.

Various modifications and configurations of the described embodiment are within the scope of the invention.

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Example possible The "described embodiments serve only to better illustrate the invention, but do not limit the invention, as expressed in the following claims o All modifications to the exemplary embodiments, which are within the inventive concept and range of equivalences represented by the claims are within the scope of the present invention.

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Claims (1)

Claims 1 «^ press for briquetting chips« dergl ·, know « ^ "- ^ draws through a frame (12); one through the frame supported container (18) for receiving the chips; an anvil (4 40) supported by the frame; a punch (32) carried by the frame which passes through the container (18) towards and away from the anvil (40) is movable; a die (44) supported by the frame and positioned between first and second Location is movable; means (46) for moving the die between the first and second positions, wherein the die (44) in the first position with the end surface (48) of the anvil (40) has a suitable hollow · · space (10) forms which is connected to the container (18) manure is and is aligned with the punch; and means (34) for moving the punch onto the Ambeß back and forth in the die cavity in order to move the chips from the container into the die cavity and this for the production of a pressed part against the Aöaoss pressing, this device comprising a device for moving the punch port from the anvil (40) and the Die (44) from the compact (50) as a function of its movement from the first position into the second position is stripped off " 2nd press according to claim 1, characterized in that the Die (44) surrounds a portion of the anvil (40) and is axially between the first and second anvil with respect to the anvil second position is movable, the die in the second position around the anvil and at a distance after is arranged offset rearward from the end face (48). 409810/0378 3. Press according to claim 2, characterized by a support rod (58) for the anvil (40); a piston (42) attached to the anvil support rod; a cylinder (46) surrounding a portion of the anvil support rod and piston, the die (44) being supported by the cylinder; and pressure flow means (52,54) for extending and retracting the cylinder relative to the pistons so as to move the die between the first and second positions e Press according to one of the preceding claims, characterized characterized in that the container (18) is partially defined by a pair of oppositely disposed side walls is defined; that a shear ring (22) is supported on one of the side walls; that the die (44) in the first position abuts the outer surface of the shear ring (22); that by the opposite Wall of the container a bearing (24) is supported for the stamp; and that the stamp through the warehouse in Sighting on the anvil through the bearing, the container and the shear ring into the die cavity (10) movable is· 5 · Press according to claim 4i, characterized by a device (16, 24) for the axial alignment of the shear ring (22) and the die (44) ο 6 «press according to one of the preceding claims, characterized by a ramming cylinder (30) through the Frame (12) is carried and serves to precompact the chips in the container (18), Ä Presee according to one of the preceding claims, characterized by means (56) for rotating the 409810/0378 -3- Die (44) β 8. Press according to claim 3 or any one of claims 4-7 and claim 3 »characterized by a control device (60, 70) for neutralizing the cylinder after the punch has entered the die cavity, so that the die is floating while the compact is being formed » 9e press according to claim 3 and one of claims 4-7 and claim 3 _P characterized by a control device for stopping the movement of the punch directed by the anvil before the near end of the container is released by the punch while the die is returning to its first position « 409810/0373