CN214445070U - Compound grinding device of part burr - Google Patents

Abstract

The utility model discloses a part burr composite polishing device, a burr polishing part of the device is detachably arranged on a fixed part; the fixing part comprises a robot connecting rod, a sleeve tool and a pneumatic input shaft set, the rear end of the robot connecting rod is fixedly connected with a tail end joint of the robot, and the front end of the robot connecting rod is fixedly connected with the sleeve tool in a manner of being vertical to the axis of the sleeve tool; the axial hole of the sleeve tool is used for installing and clamping the pneumatic input shaft group; the burr polishing component comprises a pneumatic rotating shaft group, a rigid brush and a flexible brush, wherein the pneumatic rotating shaft group, the rigid brush and the flexible brush rotate coaxially. The device is matched with a robot, the surface roughness of the part after polishing and deburring can be guaranteed firstly, the problem of large space error of the intersection line of a machining plane and a blank surface is solved secondly, and the internal thread of a threaded hole can be prevented from being damaged thirdly, so that all four burr positions can be covered, and manual participation is not needed in the polishing process.

Description

Compound grinding device of part burr

Technical Field

The utility model relates to a machining technology especially relates to a compound grinding device of part burr.

Background

After large-scale complex parts such as a marine high-power diesel engine body, a base and the like are machined, sharp edges of the parts need to be subjected to burr polishing so as to ensure the cleanness of the engine body and avoid accidents such as scratching and cutting of subsequent assembly personnel. For large complex parts, burrs are mainly distributed in four types of positions: 1) the intersection line between the machining plane and the machining plane. Because the machine tool machining precision is higher, the position and the form of the intersecting line can be ensured to be fixed and accurate, and the grinding is relatively simple. 2) The intersection line between the machining plane and the machining hole. Similarly, the position and the form of the intersecting line can be ensured to be fixed and accurate, and the polishing is relatively simple. 3) The intersection of the machined flat surface and the blank surface (e.g., the casting surface). Because the precision of the blank is far lower than that of machining, a large error may occur between the intersection line and the theoretical position of the intersection line. 4) The machining plane intersects with the threaded hole. The position and the form of the intersecting line can be ensured to be fixed and accurate, but the threaded hole is ensured not to be damaged in the polishing process.

At the present stage, the burr of large-scale complicated part is polished mainly to adopt two kinds of schemes: 1) the grinding machine is completed by holding tools such as a pneumatic/electric grinding head, a grinding disc and the like by a bench worker. This scheme advantage is that the flexibility is big, can cover the burr of different grade type, and the shortcoming has that operational environment is abominable (the noise is big, the dust is many), the inefficiency scheduling problem polishes. 2) And (4) simulating the action of a bench worker by using a robot to carry out automatic polishing. The scheme has the advantages of high automation degree and high deburring speed, but has obvious defects, on one hand, due to program setting, the grinding force cannot be adjusted adaptively like manual work, and when the force is high, the surface roughness of parts and the internal structure of a threaded hole are easy to damage; on the other hand, the track cannot accurately track the intersection line of the machining plane and the blank surface, so that the partial deburring work still needs to be finished manually, the work is light, the labor cost is high, and unsafe factors are high.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a part burr composite grinding device, which can solve the problems.

The purpose of the utility model is realized by adopting the following technical scheme:

a part burr composite polishing device comprises a fixing part and a burr polishing part, wherein the burr polishing part is detachably arranged on the fixing part; the fixing part comprises a robot connecting rod, a sleeve tool and a pneumatic input shaft set, the rear end of the robot connecting rod is fixedly connected with a tail end joint of the robot, and the front end of the robot connecting rod is fixedly connected with the sleeve tool in a manner of being vertical to the axis of the sleeve tool; the axial hole of the sleeve tool is used for installing and clamping the pneumatic input shaft group; the burr polishing component comprises a pneumatic rotating shaft group, a rigid brush and a flexible brush; the rigid brush is detachably mounted in a shaft hole of the pneumatic rotating shaft group, the flexible brush is detachably mounted on the outer circular surface of the pneumatic rotating shaft group, and the rigid brush and the flexible brush rotate coaxially.

Preferably, the pneumatic rotating shaft group is detachably mounted at one end of the pneumatic input shaft group, and an air nozzle is arranged at the other end of the pneumatic input shaft group.

Preferably, the front ends of the rigid brush and the flexible brush are arranged in a flush manner.

Preferably, the rigid hairbrush comprises a copper-plated steel wire head and a rigid connecting handle, and the rigid connecting handle is in threaded connection with a central threaded hole in the front end of the pneumatic rotating shaft group through peripheral threads; the flexible brush comprises a flexible brush head and a brush head connecting handle ring, and the brush head connecting handle ring is in threaded connection with external threads on the periphery of the front end of the pneumatic rotating shaft group through internal ring threads.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the grinding device and the grinding method thereof can be suitable for removing burrs at various positions on a complex part, and tools do not need to be replaced in the grinding and deburring process, so that the grinding and deburring range and the working efficiency of the robot are improved.

2. The arrangement mode that the flexible hairbrush (6) is positioned on the outer ring of the rigid hairbrush (5) ensures that the surface roughness of the part is ensured while effective deburring is carried out.

3. Because the distance from the brush head to the threaded hole is small, and the hardness of the brush head is far lower than that of a workpiece, the threaded hole cannot be damaged.

Drawings

Fig. 1 is a schematic structural view of a part burr composite polishing device of the present invention;

FIG. 2 is a cross-sectional view of a burr grinding member;

FIG. 3 is a schematic view of the burr polishing at the intersection between the machining plane and the intersection between the machining plane and the blank plane;

fig. 4 is the utility model discloses to the schematic diagram that intersection line, intersection line department burr between machining plane and the machining hole polished between machining plane and screw hole.

In the figure: 1. a connecting rod; 2. a sleeve tool; 3. a pneumatic input shaft set; 4. a pneumatic rotation shaft set; 5. a rigid brush; 51. plating copper wire ends; 52. a rigid stem; 6. a flexible brush; 61. a flexible brush head; 62. the brush head is connected with the handle ring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

A composite grinding device for part burrs, which is shown in figures 1 and 2, comprises a fixing part and a burr grinding part, wherein the burr grinding part is detachably arranged on the fixing part.

The fixing part comprises a robot connecting rod 1, a sleeve tool 2 and a pneumatic input shaft set 3, the rear end of the robot connecting rod 1 is fixedly connected with the tail end joint of the robot, and the front end of the robot connecting rod is fixedly connected with the sleeve tool 2 in an axis perpendicular mode. The axial hole of the sleeve tool 2 is used for installing and clamping the pneumatic input shaft group 3, and the two do not move relatively in the polishing and deburring process.

In the polishing and deburring process, the robot connecting rod 1 and the sleeve tool 2 move spatially along with the tail end joint of the robot.

Wherein, the burr grinding component comprises a pneumatic rotating shaft group 4, a rigid brush 5 and a flexible brush 6. The rigid brush 5 is detachably mounted in a shaft hole of the pneumatic rotating shaft group 4, the flexible brush 6 is detachably mounted on the outer circular surface of the pneumatic rotating shaft group 4, and the pneumatic rotating shaft group 4, the rigid brush 5 and the flexible brush 6 rotate with the same axis.

Furthermore, the pneumatic rotating shaft group 4 is detachably mounted at one end of the pneumatic input shaft group 3, and an air nozzle 7 is arranged at the other end of the pneumatic input shaft group 3.

The pneumatic input shaft group 3 is used for providing rotary power for the pneumatic rotary shaft group 4, and the axes of the pneumatic input shaft group and the pneumatic rotary shaft group are the same. In the grinding and deburring process, the pneumatic rotating shaft set 4 makes quick rotary motion relative to the pneumatic input shaft set 3.

Further, the front ends of the rigid brush 5 and the flexible brush 6 are arranged in parallel. In the process of polishing and deburring, the pneumatic rotating shaft group 4, the rigid hairbrush 5 and the flexible hairbrush 6 make coaxial rotary motion.

The rigid hairbrush 5 comprises a copper-plated steel wire head 51 and a rigid connecting handle 52, and the rigid connecting handle 52 is in threaded connection with a central threaded hole at the front end of the pneumatic rotary shaft group 4 through peripheral threads. The flexible brush 6 comprises a flexible brush head 61 and a brush head connecting handle ring 62, and the brush head connecting handle ring 62 is in threaded connection with external threads on the periphery of the front end of the pneumatic rotary shaft group 4 through internal ring threads.

Alternatively, the copper-plated steel wire head 51 can be replaced by a steel wire head made of other materials, and the steel wire head is hard and used for removing various burrs, but can cause certain damage to the surface roughness of parts; the brush head of the flexible brush 6 is made of DuPont wires, and the DuPont wires are soft and used for repairing the surface roughness of parts.

The device adopts the same grinding and deburring mode for the intersection line between the machining plane and the machining plane at the four types of burr positions, the intersection line between the machining plane and the machining hole, the intersection line between the machining plane and the blank surface and the intersection line between the machining plane and the threaded hole. The method specifically comprises the following steps: adjusting the axis of the brush to be vertical to the machining plane; starting the pneumatic rotating shaft set 4; pressing down the brush, and further pressing down for a certain distance, generally 3-4 mm, for polishing after the end face of the brush head is attached to the machined plane; in the polishing process, the brush moves along the machining plane, and the brush head is ensured to be capable of contacting the intersection line position of the burrs. The grinding schematic diagram of burrs at two types of positions of the intersection line between the machining plane and the intersection line between the machining plane and the blank surface is shown in the attached figure 3. The grinding schematic diagram of burrs at two positions of an intersection line between a machining plane and a machining hole and an intersection line between the machining plane and a threaded hole is shown in the attached drawing 4.

Because the rigid brush 5 is made of harder materials, burrs of various types can be better removed by pressing the brush head under the surface of a part; the flexible brush 6 is made of softer material and is positioned on the outer ring of the rigid brush 5, so after the burrs of the rigid brush 5 are removed, the flexible brush 6 can further repair the surface roughness of the part; when the grinding machine is used for processing burrs at the intersection line position of the plane and the blank surface, the problem that the error between the actual intersection line and the theoretical position of the actual intersection line is large can be solved due to the large covered area of the brush; when the grinding machine processes the intersection line of the plane and the threaded hole, the distance from the brush head to the threaded hole is small, and the hardness of the brush head is far lower than that of a workpiece, so that the threaded hole cannot be damaged.

The method for polishing the multi-type burrs of the large part by adopting the composite polishing device comprises the following steps.

S1 the robot connecting rod 1 is fixedly connected with the end joint of the robot.

S2, the robot posture is adjusted, so that the axes of the rigid brush 5 and the flexible brush 6 of the composite grinding device are perpendicular to the part machining plane, and the end surfaces of the two brush heads are parallel to the machining plane.

S3, the pneumatic rotating shaft group 4 is started, the end face of the brush is pressed downwards, after the end face of the brush is in contact with the machining plane in a fitting mode, a certain distance is further pressed downwards, the distance is generally 3mm-4mm, at the moment, the rigid brush 5 and the flexible brush 6 are driven to rotate by the pneumatic rotating shaft group 4, the end face of the brush is in contact with burrs, and the deburring function is achieved.

S4, the robot posture is adjusted to drive the rigid brush 5 and the flexible brush 6 to move along the machining plane, and the end face of the brush can cover the edge with burrs. The rigid brush 5 can rotate to remove burrs at the edge intersecting line, and the rotation of the flexible brush 6 can ensure the surface roughness quality of a machined plane.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (4)

1. The utility model provides a compound grinding device of part burr which characterized in that: the device comprises a fixing part and a burr grinding part, wherein the burr grinding part is detachably arranged on the fixing part;

the fixing component comprises a robot connecting rod (1), a sleeve tool (2) and a pneumatic input shaft set (3), the rear end of the robot connecting rod (1) is fixedly connected with a tail end joint of a robot, and the front end of the robot connecting rod is fixedly connected with the sleeve tool (2) in a manner of being vertical to the axis; the axial hole of the sleeve tool (2) is used for installing and clamping the pneumatic input shaft group (3);

the burr grinding component comprises a pneumatic rotating shaft group (4), a rigid brush (5) and a flexible brush (6); rigid brush (5) detachable installs in the shaft hole of pneumatic rotation axis group (4), and flexible brush (6) detachable installs on the outer disc of pneumatic rotation axis group (4), and in the rotation of pneumatic rotation axis group (4), rigid brush (5) and flexible brush (6) with the axle center.

2. The composite sharpening device of claim 1, wherein: the pneumatic rotary shaft group (4) is detachably mounted at one end of the pneumatic input shaft group (3), and the other end of the pneumatic input shaft group (3) is provided with an air nozzle (7).

3. The composite sharpening device of claim 1, wherein: the front ends of the rigid hairbrush (5) and the flexible hairbrush (6) are arranged in parallel.

4. The composite sharpening device of claim 1, wherein: the rigid hairbrush (5) comprises a copper-plated steel wire head (51) and a rigid connecting handle (52), and the rigid connecting handle (52) is in threaded connection with a central threaded hole in the front end of the pneumatic rotating shaft group (4) through peripheral threads; the flexible brush (6) comprises a flexible brush head (61) and a brush head connecting handle ring (62), and the brush head connecting handle ring (62) is in threaded connection with external threads on the periphery of the front end of the pneumatic rotating shaft group (4) through inner ring threads.

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