DE3124931A1 - Deburring machine - Google Patents

Abstract

The cut edges of edged material and bar material, in particular the cut edges of pipes, are deburred by means of rotating steel-wire brushes which, made to rotate via only one drive, are rotated around the drive axis and around the entire system itself. This is achieved in that the plate holding the brushes is configured as a rotatably mounted planetary-gear carrier of a planetary-gear mechanism, a planetary gear, which meshes in the sun gear, driving the brushes via its journal, designed as a rotatable shaft, and an associated bevel-gear mechanism, and a second planetary gear, meshing with the toothed gear rim, being configured as a counterweight system. The end machining, in particular of pipes, can thus be carried out more thoroughly and in a shorter period of time, smooth running of the entire apparatus being ensured by the counteweight system. <IMAGE>

Description

The invention relates to a device for

Deburring of the cut edges of edging and rod material, in particular the cut edges of pipes with rotating steel wire trimmings and brushes placed on a slower rotating disc.

In the manufacture of tubes, square tubes and profile material as well as their processing, further processing occurs at the dividing surfaces and cut edges and ridges hindering transport. These burrs are in known deburring machines removed by rotating steel wire brushes that rotate quickly on their own axis Rotate and rotate at right angles to the arranged on a plate at the same time their axis are rotated more slowly. Here are the well-known deburring machines for pipes provided with a single brush to adapt to the different Pipe radii can be moved on the disc. Disadvantage of the known Deburring machine is that for driving the brush and driving the disc different drives are required. The associated manufacturing and Maintenance effort is considerable, especially since different engines are different because of the different Speeds must be used. Another disadvantage is that the tubes perpendicular to the axis of rotation of the brushes and thus parallel to the one on the brush arranged steel wires are fed to the brush. This is what makes it special difficult to safely remove the protruding burrs on the inside of the pipe wall.

The invention is based on the object of a simply driven Device for deburring with multiple rotating and at right angles to its axis at the same time to create rotating brushes, with the brushes under different Angles to the pipe wall should work.

The object is achieved according to the invention in that the disc is designed as a rotatably mounted planet carrier of a planetary gear, a planetary gear that meshes in the sun gear, designed as a rotatable shaft via its Pins and an associated bevel gear drive the brushes and a second one planet gear meshing in the ring gear is designed as a counterweight system.

With such a device can be in an excellent manner End machining and cutting edge machining are carried out in which the pipe ends can be safely freed from all burrs using the brushes. About the planetary gear it is possible to get by with a single drive and still use the entire system as well as rotating the brush holder and brushes themselves.

As a result, not only the end machining can be carried out in a shorter time, but at the same time it is more thorough and versatile. A quiet course the system is ensured by the counterweight system.

To have several brushes at the same time and also sufficiently large brushes to be able to arrange, the drive system must be sufficiently in front of the planet carrier be arranged.

This is done with a simultaneous favorable transmission of the driving forces achieved by placing the shaft of the planetary gear in the standpipe housing that connects to the planetary gear carrier is connected, is rotatably mounted and in which an internal and an im Sun gear meshing gear driven drive shaft for the bevel gear is available. Both waves are over at the same time but at different speeds the sun gear driven so that the brushes as desired despite the same drive rotate much faster than the drive system self.

The different speeds are achieved by that on the sun gear shaft connected to the drive three gears with different Radius are arranged one behind the other.

While two gears are used to drive the shaft or

the drive shaft of the bevel gear is used via the third Gear acts on the counterweight system.

The differences in speed of rotation can thereby be varied further be that between the sun gear and the drive shaft for the bevel gear an intermediate gear is arranged.

The planet carrier is expediently rotatable in a housing stored. The housing that leads and encompasses the planetary gear carrier is used here at the same time as a protective housing and is designed so that it is of sufficient depth offers the possibility, according to the invention, the counterweight system on the underside and the drive system for the brushes on top of the planetary gear carrier to arrange. This provides a possibility in an advantageous manner, the drive system far enough to form the planet carrier above.

The planet carrier itself rotates within the housing, whereby for this purpose, the ring gear is formed with internal teeth in the housing, in which a gear wheel of the counterweight system. This creates a uniform and unbalance Guaranteed free rotation, expediently the sun gear shaft in the housing and is rotatably mounted in the planet carrier.

According to one embodiment of the invention it is provided that the counterweight system from the assigned Gear of the sun gear meshing gear and there are two equally large meshing gears, one gear sits on the pin of the large gear and meshes the other gear in the ring gear.

About the combination of the large and the associated small gears the desired gear ratio can be set easily and at the same time due to the size and thickness of the gears, a weight compensation for the brushes driving and load-bearing drive system can be achieved.

Depending on the training and number of brushes and associated parts it may be useful to have a solid body in the area of the journal of the counterweight system to be arranged connected to the planet carrier. This solid can be through Material or its size adapted to the respective conditions for weight compensation contribute. To simplify its assembly and at the same time for secure attachment The solid body is held in place by trunnion rings, which are placed on the trunnions of the counterweight system co-forming gears are formed.

To increase the stability and to ensure that the entire system runs smoothly to ensure, it is advisable that the standpipe housing is lying on the side, has struts supported on the planetary gear carrier.

The invention is particularly characterized in that a deburring machine is created, which only requires a single drive. Due to the advantageous It is the training of the planetary gear and the assignment of the bevel gear possible to drive several, preferably three brushes at the same time and evenly and at the same time the system rotates several times to train. This enables optimal processing of the ends, especially of pipes, which is more complete, more even and faster than before.

Further details and advantages of the subject matter of the invention result from the following description of the accompanying drawing, in which a preferred Embodiment shown with the necessary details and parts is. They show: FIG. 1 a schematic sketch of the deburring machine, FIG. 2 a partial section and FIG. 3 is a partial front view of the deburring machine.

Essential parts of the device for end machining shown in Fig. 1, preferably of pipes, the planetary gear 1 and the drive 2. In Fig. 1 refers to the representation of further details, such as the protective housing, the dedusting or suction and the like are dispensed with. Is shown in the Fig. 1 to 3 essentially the drive system.

The sun gear 3 of the planetary gear 1 is acted upon via the drive 2. On the sun gear shaft 4 sit three gears 5, 6,7 with different radii.

The gears 5, 6, 7 are on the one hand the drive system 10 and on the other hand assigned to the counterweight system 11 or mesh with gears of these systems.

The sun gear 3 are thus in the illustrated embodiment assigned two planet gears, the planet gear 13, the drive system 1o and the planetary gear 22 forms the counterweight system 11. Parts of Drive system 1o are the gears 15, 16 seated on the shaft 14, wherein the gear 15 is seated on the drive shaft, not shown in detail here, which in turn is rotatably arranged within the shaft 14. The gear 15 is Driven by the gearwheel 6 and the intermediate gearwheel 15. This applies to that Bevel gear 17 with the brushes 18, 19, which are thus at a predetermined speed rotate around their axes. The gear 16 meshes with the gear 7 of the sun gear 3 and has otherwise has a considerably larger radius than the gear 15. The shaft 14 and the drive shaft, not shown in FIG. 1, thus rotate differently.

The end of the sun gear shaft 4 is mounted in the planet gear carrier 20. The pins 23, 26, which belong to the counterweight system 11, are also mounted there.

The counterweight system 11 is seated on the pin 23 on the Gears 24, 27 and formed by the gear 25 seated on the pin 26. The gear 25 meshes with the ring gear 28 and thus drives the planetary gear carrier 20 with it the individual units arranged thereon around the sun gear shaft 4.

The individual parts of the drive system are 1o on the top 29 and the individual parts of the counterweight system 11 on the bottom 30 of the planetary gear carrier 20 is arranged.

Fig. 2 shows an embodiment of the device for deburring of cut edges, here for weight compensation and stability important additional details of the device are shown. The drive 2 is externally flanged to the housing designated 40. The sun gear shaft is over him 4th driven, on which the gears 5, 6, 7 sit, and the is mounted both in the housing 40 and in the planetary gear carrier 20. The gears 5, 6, 7 have different diameters and mesh with the individual gears of the drive system 1o or counterweight system 11. It is made clear here, that the shaft 1'4 is rotatably arranged within a standpipe housing 32, wherein this standpipe housing has struts 33 for reinforcement. These struts 33 are connected to the planet carrier 20. At the end, the shaft 14 has a support plate 35, on which the bevel gear 17 is arranged or attached. Driven the bevel gear 17 via the drive shaft 34, which is equipped with the gear 15 and is set in rotation via the intermediate gear 21 and the gear 6.

The entire planet carrier 20 with its structures such as the standpipe housing 32 is guided and stored in the housing 40. The bearings 37, 38 and the Seal 39. The housing 40 is designed like pliers, so that an expedient and a construction requiring little space is possible.

The planetary gear carrier 20 carries the counterweight system 11 on it forming side a solid body 42 which is locked via the pin rings 43, 44. If necessary, this solid body can be adapted to the particular circumstances or be exchanged for another corresponding solid.

Fig. 3 shows the assignment of the individual gears to the sun gear 3, it being made clear that the drive system 1o as well as the counterweight system 11 form the planet gears rolling in the sun gear. They are supported in the depicted Example in gear rim 28 of the housing 40.

An adjustment to different pipe diameters is only possible with large ones Differences required. By replacing the bevel gear with the Such an adjustment is possible without great effort with brushes sitting on it.

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Claims (12)

Deburring machine P a t e n t a n s p r ü c h e U Device for the Deburring of the cut edges of folded and bar material, especially the cut edges of pipes, with rotating, a steel wire facing and on one Brushes that rotate more slowly, so that they can be used c h n e t that the disc as a rotatably mounted planet carrier (20) of a planetary gear (1) is formed, wherein a planet gear (13) which meshes in the sun gear (3) over its pin designed as a rotatable shaft (14) and an associated bevel gear (17) drives the brushes (18, 19) and a second planetary gear meshing with the toothed ring (28) (22) is designed as a counterweight system (11). 2. Apparatus according to claim 1, characterized in that the shaft (14) of the planetary gear (13) in the standpipe housing (32), which is connected to the planetary gear carrier (20) is connected, is rotatably mounted and an internal and via an im Sun gear (3) meshing gear (15) driven drive shaft (34) for the bevel gear (17). 3. Apparatus according to claim 1, characterized in that on the with the drive (2) connected sun gear shaft (4) with three gears (5,6,7) different radius are arranged one behind the other. 4. Apparatus according to claim 1 and claim 3, characterized in that that between the sun gear (3 or 6) and drive shaft (34) for the bevel gear (17) an intermediate gear (21) is arranged. 5. Apparatus according to claim 1, d a d u r c h g e k e n n z e i c h n e t that the planet carrier (20) is rotatably mounted in a housing (40). 6. Apparatus according to claim 1 and claim 5, characterized in that that the ring gear (28) is formed with internal teeth in the housing (40), wherein meshes a gear (25) of the counterweight system (11) in the ring gear. 7. Apparatus according to claim 1 and claim 3, d a d u r c h g e It is not indicated that the sun gear shaft (4) is in the housing (40) and in the planet gear carrier (20) is rotatably mounted. 8. Apparatus according to claim 1 and claim 2, characterized in that that the counterweight system (11) on the underside (30) and the drive system (10) for the brushes (18, 19) on the top (29) of the planet carrier (20) are. 9. Apparatus according to claim 1, characterized in that the counterweight system (11) from the gear (27) meshing in the assigned gear (5) of the sun gear (3) and two equally sized gears (24, 25) meshing with one another, wherein the one gear (24) sits on the pin (23) of the large gear (27) and the other Gear (25) meshes in the gear (24) and in the ring gear (28). 10. Apparatus according to claim 1 and claim 9, characterized in that that in the area of the pin (23, 26) of the counterweight system (11) a solid body (42) is arranged connected to the planet carrier (20). 11. The device according to claim lo, characterized in that the Solid body (42) is held by trunnion rings (43, 44) which are placed on the trunnion (23, 26) formed with the gears (24, 25, 27) forming the counterweight system (11) are. 12. The device according to claim 2, characterized in that the Standpipe housing (32) lying laterally on the planetary gear carrier (20) Has struts (33).