CN113146461B - Honing machine tool and honing production line - Google Patents

Abstract

The embodiment of the invention provides a honing machine tool and a honing production line, and relates to the technical field of machining, wherein the honing machine tool drives a second moving mechanism to move in a first preset direction through a first moving mechanism, so that a third moving mechanism arranged on the second moving mechanism drives a honing main shaft to move in the first preset direction; the third moving mechanism is moved in a second preset direction through the second moving mechanism, so that the honing main shaft is moved in the second preset direction; and driving the honing main shaft to move in a third preset direction through a third moving mechanism. Therefore, the honing main shaft can move in three directions, the freedom degree of movement of the honing main shaft is higher, a workpiece can be precisely honed, and the precision of a workpiece part hole is ensured.

Description

Honing machine and honing production line

Technical Field

The invention relates to the technical field of machining, in particular to a honing machine tool and a honing production line.

Background

The honing process is mainly used for finishing precision holes of parts in the industries of engine manufacturing, hydraulic valve body processing, compressors and the like, and the processed part holes are high in geometric precision. Honing machine tools are commonly used in honing processes, and the honing machine tools are also machining equipment frequently used in repairing engine cylinder bores and cylinder liners.

In the prior art, a main shaft of a honing machine tool can only move in two directions, and the degree of freedom of movement is low, so that the precision of a machined part hole is low.

Disclosure of Invention

The object of the present invention includes, for example, providing a honing machine and a honing line, the main shaft of which can move in three directions, the degree of freedom of movement is high, and the machining accuracy is high.

Embodiments of the invention may be implemented as follows:

in a first aspect, the present invention provides a honing machine comprising:

a frame;

the first moving mechanism is arranged on the rack;

the second moving mechanism is arranged on the first moving mechanism and can move along a first preset direction under the driving of the first moving mechanism;

the third moving mechanism is arranged on the second moving mechanism and can move along a second preset direction under the driving of the second moving mechanism;

the honing main shaft is arranged on the third moving mechanism and can move along a third preset direction under the driving of the third moving mechanism, wherein any two of the first preset direction, the second preset direction and the third preset direction are perpendicular to each other.

In an alternative embodiment, the honing machine comprises:

at least two first moving mechanisms, at least one second moving mechanism is arranged on each first moving mechanism, one third moving mechanism is arranged on each second moving mechanism, and one honing main shaft is arranged on each third moving mechanism.

In an alternative embodiment, the first moving mechanism comprises:

the first sliding table is movably arranged on the rack, and the second moving mechanism is arranged on the first sliding table;

the first driving piece is arranged on the rack and used for driving the first sliding table to slide along a first preset direction so as to drive the honing main shaft to move along the first preset direction.

In an alternative embodiment, the second moving mechanism comprises:

the second sliding table is movably arranged on the first moving mechanism, and the third moving mechanism is arranged on the second sliding table;

and the second driving piece is arranged on the first moving mechanism and used for driving the second sliding table to slide along the second preset direction so as to drive the honing main shaft to move along the second preset direction.

In an alternative embodiment, the third movement mechanism comprises:

the third sliding table is movably arranged on the second moving mechanism, and the honing main shaft is arranged on the third sliding table;

and the third driving piece is arranged on the second moving mechanism and used for driving the third sliding table to slide along the third preset direction so as to drive the honing main shaft to move along the third preset direction.

In an alternative embodiment, the honing machine further comprises a feed mechanism, the feed mechanism comprising:

the material rack is movably arranged on the rack;

the transverse driving part is arranged on the rack and used for driving the material rack to move along the second preset direction;

and the lifting driving piece is arranged on the rack and used for driving the material rack to move along the third preset direction.

In an alternative embodiment, the transverse drive comprises:

the fourth driving source is arranged on the rack;

the fourth driving source is connected with the material rack through the fourth screw pair;

a nut of the fourth screw pair is provided with a limiting hole, the material rest is provided with a limiting column, and the limiting column penetrates through the limiting hole; the lifting driving piece can drive the limiting column to move between a first position and a second position relative to the limiting hole;

when the limiting column is located at the first position, the distance between the material rack and the rack in the third preset direction is smaller than the distance between the material rack and the rack in the third preset direction when the limiting column is located at the second position.

In a second aspect, the present invention provides a honing line comprising a honing machine as described in any one of the preceding embodiments.

In an alternative embodiment, the honing line further comprises a tumble drying apparatus comprising:

a load bearing support;

the clamping mechanism is arranged on the bearing bracket and is used for clamping the honed workpiece;

the turnover mechanism is arranged on the bearing support and used for driving the clamping mechanism to rotate;

and the blowing mechanism is arranged on the bearing bracket and used for blowing air to the honed workpiece.

In an alternative embodiment, the blowing mechanism comprises:

the fan is arranged on the bearing bracket;

and the first end of the air pipe is communicated with the air outlet of the fan, and the second end of the air pipe points to the clamping mechanism.

The beneficial effects of the embodiment of the invention include, for example:

the first moving mechanism drives the second moving mechanism to move in a first preset direction, so that a third moving mechanism arranged on the second moving mechanism drives the honing main shaft to move in the first preset direction; the third moving mechanism is moved in a second preset direction through the second moving mechanism, so that the honing main shaft is moved in the second preset direction; and driving the honing main shaft to move in a third preset direction through a third moving mechanism. Therefore, the honing main shaft can move in three directions, the freedom degree of movement of the honing main shaft is higher, a workpiece can be precisely honed, and the precision of a workpiece part hole is ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Figure 1 is a schematic view of a honing machine according to an embodiment of the invention;

figure 2 is a schematic view of a beam, first movement mechanism, second movement mechanism, third movement mechanism and honing spindle combination of an embodiment of the invention from a first perspective;

figure 3 is a schematic view of a combination of a beam, a first movement mechanism, a second movement mechanism, a third movement mechanism and a honing spindle of an embodiment of the invention from a second perspective;

FIG. 4 is a schematic view of a feed table according to an embodiment of the invention;

FIG. 5 is a schematic view of a lift mechanism according to an embodiment of the present invention;

figure 6 is a schematic view of a honing line according to an embodiment of the invention from a first perspective;

figure 7 is a schematic view of a honing line according to an embodiment of the invention from a second perspective;

FIG. 8 is a schematic view of a detecting device according to an embodiment of the present invention at a first viewing angle;

FIG. 9 is a schematic view of a detecting device under a second viewing angle according to an embodiment of the present invention;

FIG. 10 is a schematic view of an embodiment of the tumble drying apparatus of the present invention from a first perspective;

fig. 11 is a schematic view of a tumble drying apparatus according to an embodiment of the present invention from a second viewing angle.

Icon: 1-honing the machine tool; 11-a frame; 110-a lathe bed; 112-a portal frame; 1121-upright column; 1123-beam; 12-a first movement mechanism; 120-a first slide; 122 — a first drive member; 1221-a first drive source; 1223-a first lead screw pair; 13-a second moving mechanism; 130-a second slide table; 132-a second drive member; 1321 — a second drive source; 1323-a second lead screw pair; 14-a third movement mechanism; 140-a third sliding table; 142-a third drive member; 1421-third drive source; 1423-third lead screw pair; 15-honing the main shaft; 16-a feeding mechanism; 160-feeding support; 162-a material rack; 164-a transverse drive; 1641-fourth drive source; 1643-fourth lead screw pair; 166-a lifting drive; 1661-a first link; 1663-a second link; 1664-third link; 1665-first swing arm; 3-pre-honing detection system; 33-a detection device; 330-measuring head bracket; 332-a first probe slide; 334-a second probe slide; 336-a probe head; 5-overturning the drying device; 51-a carrier support; 52-opening and closing the door; 53-a clamping mechanism; 55-turnover mechanism; 57-a blowing mechanism; 570-a fan; 572-air duct; 7-workpiece.

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 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. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without inventive step based on the embodiments of the present invention, are within the scope of protection of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that, if the terms "upper", "lower", "inner", "outer", etc. are used to indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings or the orientation or positional relationship which the product of the present invention is used to usually place, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the appearances of the terms "first," "second," and the like, if any, are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

It should be noted that the features of the embodiments of the present invention may be combined with each other without conflict.

The honing process is mainly used for finishing precision holes of parts in the industries of engine manufacturing, hydraulic valve body processing, compressors and the like, and the geometric precision of the processed part holes is high. A common honing process is a honing machine, and the honing machine is also a machining device frequently used for repairing engine cylinder bores and cylinder sleeves.

In the prior art, a main shaft of a honing machine tool can only move in two directions, so that the precision of a machined part hole is low.

The inventors have studied to provide the following examples to improve the above-mentioned drawbacks.

The embodiment of the invention provides a honing machine tool 1, and the honing machine tool 1 can be used for processing part holes of parts such as engine manufacturing, hydraulic valve body processing, compressors and the like. The honing machine 1 can be used for machining part holes of parts such as engine manufacturing, hydraulic valve body machining, compressors and the like. The honing machine 1 includes a frame 11, a first moving mechanism 12, a second moving mechanism 13, a third moving mechanism 14, and a honing spindle 15. The first moving mechanism 12 is provided to the frame 11. The second moving mechanism 13 is disposed on the first moving mechanism 12, and the first moving mechanism 12 can drive the second moving mechanism 13 to move along a first preset direction. The third moving mechanism 14 is disposed on the second moving mechanism 13, and the second moving mechanism 13 can drive the third moving mechanism 14 to move along a second predetermined direction. The honing main shaft 15 is arranged on the third moving mechanism 14, and the third moving mechanism 14 can drive the honing main shaft 15 to move along a third preset direction, wherein any two of the first preset direction, the second preset direction and the third preset direction are perpendicular to each other.

That is, in the embodiment of the present invention, the first moving mechanism 12 drives the second moving mechanism 13 to move in the first preset direction, so that the third moving mechanism 14 arranged on the second moving mechanism 13 drives the honing spindle 15 to move in the first preset direction; moving the third moving mechanism 14 in a second preset direction by the second moving mechanism 13, thereby moving the honing spindle 15 in the second preset direction; the honing spindle 15 is driven to move in a third preset direction by the third moving mechanism 14. Therefore, the honing main shaft 15 moves in three directions, the freedom degree of movement of the honing main shaft 15 is higher, the workpiece 7 can be honed more accurately, and the precision of part holes of the workpiece 7 is guaranteed.

The honing machine 1 of the embodiment of the invention will be described in more detail below:

it should be noted that, in the present embodiment, the first preset direction is along the Y-axis direction of the honing machine 1, the second preset direction is along the X-axis direction of the honing machine 1, and the third preset direction is along the Z-axis direction of the honing machine 1. Namely, the first moving mechanism 12 can move the honing main shaft 15 longitudinally in the Y-axis direction, the second moving mechanism 13 can move the honing main shaft 15 transversely in the X-axis direction, and the third moving mechanism 14 can move the honing main shaft 15 vertically in the Z-axis direction, the X-axis, Y-axis and Z-axis standard coordinate systems. Of course, in other embodiments, the first preset direction and the second preset direction may be interchanged, that is, the first preset direction is along the X-axis direction, and the second preset direction is along the Y-axis direction, so that the first moving mechanism 12 can move the honing spindle 15 transversely along the X-axis direction, and the second moving mechanism 13 can move the honing spindle 15 longitudinally along the Y-axis direction.

Referring to fig. 1, in the present embodiment, the frame 11 includes a bed 110 and a gantry 112 disposed on the bed 110, and the bed 110 mainly plays a role of bearing to bear the gantry 112, the first moving mechanism 12, the second moving mechanism 13, the third moving mechanism 14 and the honing spindle 15 thereon. The gantry 112 is a door-shaped structure formed by two columns 1121 disposed on the bed 110 and a beam 1123 straddling the two columns 1121, and the columns 1121 are disposed on the bed 110 at a position away from the operator to avoid occupying too much area of the processing area on the bed 110. Each of the columns 1121 extends in the Z direction, and the cross beam 1123 is provided in the X direction at an end of the column 1121 remote from the bed 110. Of course, in other embodiments, the gantry 112 may be an integrally formed door-like structure such as a cast or marble.

Referring to fig. 2 and 3, in the present embodiment, the honing machine 1 includes at least two first moving mechanisms 12, at least one second moving mechanism 13 is provided on each first moving mechanism 12, one third moving mechanism 14 is provided on each second moving mechanism 13, and one honing spindle 15 is provided on each third moving mechanism 14. The honing machine 1 thus has at least two honing spindles 15, each honing spindle 15 being capable of honing the workpiece 7 to be machined, each honing spindle 15 being able to work independently to perform a given machining action. The workpiece 7 passes through the respective honing spindles 15 in sequence, so that a plurality of successive processes are sequentially completed by the respective honing spindles 15, for example, one honing spindle 15 performs rough honing on the workpiece 7, and the other honing spindle 15 performs finish honing on the workpiece 7. The honing spindles 15 of one first moving mechanism 12 can also collectively perform the same process, thereby improving the production efficiency.

Specifically, the honing machine 1 includes two first moving mechanisms 12, two second moving mechanisms 13 are provided on each first moving mechanism 12, one third moving mechanism 14 is provided on each second moving mechanism 13, and one honing spindle 15 is provided on each third moving mechanism 14, so that the entire honing machine 1 has four honing spindles 15, the four honing spindles 15 include a first honing spindle 15, a second honing spindle 15, a third honing spindle 15, and a fourth honing spindle 15 arranged in sequence, the first honing spindle 15 and the second honing spindle 15 are located on one first moving mechanism 12, and the third honing spindle 15 and the fourth honing column are located on the other first moving mechanism 12. Each main shaft can work independently so as to ensure the processing efficiency and the processing precision.

The first moving mechanism 12 includes a first sliding table 120 and a first driving element 122, and the first sliding table 120 is movably disposed on the frame 11. Specifically, the first slide table 120 is used to set the second moving mechanism 13, the third moving mechanism 14, and the honing spindle 15. A first slide rail along the Z-axis direction is disposed on the cross beam 1123, and the first sliding table 120 is slidably disposed on the first slide rail through a slider, so that the first sliding table 120 can slide on the cross beam 1123 along the Y-axis direction under the action of the first driving element 122, where the first slide rail may be a hard rail or a linear rail.

The first driving element 122 is disposed on the frame 11, and is configured to drive the first sliding table 120 to slide along a first preset direction, so as to drive the honing main shaft 15 to move along the first preset direction, that is, drive the honing main shaft 15 to move along the Y-axis direction. The first driving member 122 includes a first driving source 1221 and a first lead screw pair 1223. The first driving source 1221, which may be a motor, is provided to the frame 11, i.e., the cross beam 1123, for supplying power. The lead screw of the first lead screw pair 1223 is connected with the output end of the first driving source 1221, and the nut of the first lead screw pair 1223 is connected with the first sliding table 120, so that the first driving source 1221 is in transmission connection with the first sliding table 120, and the first sliding table 120 is driven by the first driving source 1221 to slide on the cross beam 1123 along the Y-axis direction, so that the honing main shaft 15 moves along the Y-axis direction.

The second moving mechanism 13 is disposed on the first sliding table 120, and the second moving mechanism 13 includes a second sliding table 130 and a second driving member 132. The second sliding table 130 is movably disposed on the first moving mechanism 12, specifically, the second sliding table 130 is used for disposing the third moving mechanism 14 and the honing spindle 15, a second slide rail along the X-axis direction is disposed on the first sliding table 120, and the second sliding table 130 is slidably disposed on the second slide rail through a slider, so that the second sliding table 130 can slide on the first sliding table 120 along the X-axis direction under the action of the second driving element 132, wherein the second slide rail may be a hard rail or a linear rail.

The second driving element 132 is disposed on the first moving mechanism 12, and is configured to drive the second sliding table 130 to slide along a second preset direction, so as to drive the honing main shaft 15 to move along the second preset direction, that is, drive the honing main shaft 15 to move along the X-axis direction. The second driver 132 includes a second driving source 1321 and a second lead screw pair 1323. The second driving source 1321, which may be a motor, is provided to the first moving mechanism 12, i.e., to the first slide table 120, for supplying power. The lead screw of the second lead screw pair 1323 is connected with the output end of the second driving source 1321, and the nut of the second lead screw pair 1323 is connected with the second sliding table 130, so that the second driving source 1321 is in transmission connection with the second sliding table 130, and the second sliding table 130 is driven by the second driving source 1321 to slide on the first sliding table 120 along the X-axis direction, so that the honing main shaft 15 moves along the X-axis direction.

The third moving mechanism 14 is disposed on the second sliding table 130, and the third moving mechanism 14 includes a third sliding table 140 and a third driving element 142. The third slide table 140 is movably provided to the second moving mechanism 13, and the honing main shaft 15 is provided on the third slide table 140 to move in the Z-axis direction together with the third slide table 140. Specifically, the third sliding table 140 is used for setting the honing main shaft 15, a third slide rail along the Z-axis direction is arranged on the second sliding table 130, and the third sliding table 140 is slidably arranged on the third slide rail through a slider, so that the third sliding table 140 can slide on the third sliding table 140 along the Z-axis direction under the action of the third driving member 142 to drive the honing main shaft 15 to move along the Z-axis direction. The third slide rail can be a hard rail or a linear rail.

The third driving element 142 is disposed on the second moving mechanism 13, and is configured to drive the third sliding table 140 to slide along a third preset direction, so as to drive the honing spindle 15 to move along the third preset direction. The third driving member 142 includes a third driving source 1421 and a third screw assembly 1423. The third driving source 1421, which may be a motor, is provided to the second moving mechanism 13, i.e., to the second slide table 130, for supplying power. The lead screw of the third lead screw assembly 1423 is connected to the third driving source 1421, and the nut of the third lead screw assembly 1423 is connected to the third sliding table 140, so that the third driving source 1421 is in transmission connection with the third sliding table 140, and the third sliding table 140 is driven by the third driving source 1421 to slide on the first sliding table 120 along the Z-axis direction, so that the honing main shaft 15 moves along the Z-axis direction.

Referring again to fig. 1, the honing machine 1 further includes a feed mechanism 16, and the feed mechanism 16 is used for carrying and conveying the workpiece 7. The feeding device comprises a feeding support 160, a material rack 162, a transverse driving element 164 and a lifting driving element 166. The feeding support 160 is disposed on the bed 110 along the X-axis direction, and mainly plays a role of bearing, and is used for disposing the rack 162, the transverse driving member 164, and the lifting driving member 166.

Referring to fig. 4 and 5, the lifting driving member 166 is disposed on the frame 11 for driving the material shelf 162 to move along a third predetermined direction. The lift drive 166 includes a fifth drive source, a linkage, a first set of swing arms 1665, and a second set of swing arms. The fifth driving source may be a motor, which is disposed on the frame 11, i.e., on the feeding support 160, for providing power. The first and second sets of swing arms 1665 and 1665 are respectively located on both sides of the material rest 162, the first set of swing arms 1665 includes a plurality of first swing arms 1665, the second set of swing arms includes a plurality of second swing arms, and the first swing arms 1665 and the second swing arms correspond to each other in the Y-axis direction. A first end of the first swing arm 1665 and a first end of the second swing arm are rotatably coupled to the frame 11, i.e., to the feeder shoe 160, and a plurality of support rollers are rotatably coupled between a second end of the first swing arm 1665 and a second end of the second swing arm, the plurality of support rollers forming a bearing surface for the carrier 162. In addition, a plurality of first 1665 or second 1664 swing arms are coupled at second ends thereof by a third link 1664, the second end of each swing arm being rotatably coupled to the third link 1664.

The rack 162 is movably disposed on the frame 11, that is, the rack 162 is spaced apart from a plurality of rollers. The work or material rest 162 extends along the X direction, is provided with a plurality of trays that are used for bearing work piece 7 on it, and a plurality of trays are along the equidistant distribution of X axle direction, and the tray can rotate on work or material rest 162 to drive work piece 7 and rotate, the specific structure of tray is the same with the structure among the prior art, and no longer repeated here.

A first end of the first link 1661 is connected to an output end of the fifth driving source, a second end of the first link 1661 is rotatably connected to a first end of the second link 1663, a second end of the second link 1663 is rotatably connected to a second end of the first swing arm 1665 or a second end of the second swing arm, and a second end of the second link 1663 and the third link 1664 are rotatable linkages. The connecting rod can thereby be driven by the fifth driving source to swing the first swing arm 1665 and the second swing arm, that is, the first swing arm 1665 swings around the first end thereof, and the second swing arm swings around the second end thereof, so as to raise or lower the material rack 162 on the carrier roller. Of course, in other embodiments, the output of the fifth driving source can also be directly connected to the first end of the first swing arm 1665 or the first end of the second swing arm, so as to directly actuate the first swing arm 1665 to swing around its first end and the second swing arm to swing around its first end.

The transverse driving member 164 is disposed on the frame 11 for driving the rack 162 to move along the second predetermined direction. The transverse driving member 164 includes a fourth driving source 1641 and a fourth screw assembly 1643, wherein the fourth driving source 1641 may be a motor, and is disposed on the frame 11, i.e., on the feeding support 160, for providing power. The lead screw of the fourth lead screw pair 1643 is connected with the output end of a fourth driving source 1641, and the nut of the fourth lead screw pair 1643 is connected with the material rack 162, so that the fourth driving source 1641 is connected with the material rack 162 in a transmission manner. The rack 162 can thus be moved in the X-axis direction by the fourth driving source 1641.

A limiting hole is formed in a nut of the fourth screw rod pair 1643, a limiting column is arranged on the material rack 162, and the limiting column penetrates through the limiting hole. The lift drive 166 is thus able to drive the spacing post between the first and second positions relative to the spacing aperture. When the limiting column is located at the first position, the distance between the rack 162 and the rack 11 in the third preset direction is smaller than the distance between the rack 162 and the rack 11 in the third preset direction when the limiting column is located at the second position. That is, the lift drive 166 is capable of moving the stack 162 in the Z direction, thereby raising or lowering. When the limiting column is located at the first position, the rack 162 is raised to the high position, and when the limiting column is located at the second position, the limiting column is lowered to the low position. In addition, the cooperation of the limiting column and the limiting hole can prevent the material rest 162 from generating axial movement relative to the fourth lead screw pair 1643, so as to ensure that the material rest 162 can be driven by the fourth driving source 1641 and move along the X-axis direction.

In summary, the honing machine 1 of the embodiment of the invention drives the second moving mechanism 13 to move in the first preset direction through the first moving mechanism 12, so that the third moving mechanism 14 arranged on the second moving mechanism 13 drives the honing spindle 15 to move in the first preset direction; the third moving mechanism 14 is moved in a second preset direction by the second moving mechanism 13, so that the honing main shaft 15 is moved in the second preset direction; the honing spindle 15 is driven by the third moving mechanism 14 to move in a third preset direction. Therefore, the honing main shaft 15 moves in three directions, the freedom degree of movement of the honing main shaft 15 is higher, the workpiece 7 can be honed more accurately, and the precision of part holes of the workpiece 7 is guaranteed.

Referring to fig. 6 and 7, an embodiment of the present invention further provides a honing production line, which includes a pre-honing detection system 3, the honing machine 1 and the turning drying device 5, which are sequentially arranged along the transporting direction F of the workpiece 7, wherein the first end of the material rack 162 is provided with a plurality of input rollers, and the plurality of input rollers rotate, so as to receive the workpiece 7 to be processed, which is transmitted from the pre-honing detection system 3. The second end of the stock shelf 162 is provided with an output roller to transfer the honed workpiece 7 to the tumble drying device 5. The pre-honing detection system 3 is used for detecting the workpiece 7 to be machined before honing and judging whether the workpiece 7 to be machined meets the pre-honing requirement or not, so that the unqualified workpiece 7 to be machined is prevented from entering the honing machine tool 1 of the next process. The honing machine 1 is used for honing the workpiece 7 to be machined, which is transmitted from the pre-flight inspection system, to form a part hole with high precision in the workpiece 7. The turnover drying device 5 is used for collecting honing liquid in the machined honed workpiece 7 of the honing machine tool 1, so that the cost is saved, and meanwhile, the honed workpiece 7 is ensured to be clean and dry and the work site is ensured to be clean.

Referring to fig. 8 and 9, in the present embodiment, the pre-honing detection system 3 includes a pre-honing detection support, and a bearing device and a detection device 33 disposed on the pre-honing detection support. The detection device 33 is used for detecting the part hole of the workpiece 7 to be processed before honing; the bearing device corresponds to the first end of the rack 162, and is configured to bear the workpiece 7 to be processed and transfer the workpiece 7 to be processed, which meets the requirements before honing, to the rack 162, where the bearing device is the same as the structure and principle in the prior art, and is not described herein again.

The probing device 33 includes a probe holder 330, a first probe slide 332, a second probe slide 334, and a probe head 336. The stylus holder 330 has a door shape. The first probe sliding table 332 is movably disposed on the probe support 330 through a slide rail pair, and can be driven by a driving motor via a transmission screw to slide along a first preset direction. The second measuring head sliding table 334 is movably arranged on the first side head sliding table through a sliding rail pair, can slide along with the first measuring head sliding table 332 in a first preset direction, and can be driven by the driving motor through the transmission screw rod to slide along a third preset direction. The detecting head 336 is disposed at the bottom end of the second measuring head sliding table 334 and moves along with the second measuring head sliding table 334, that is, the detecting head 336 can move in the first preset direction and the third preset direction.

The probing head 336 is used for probing the workpiece 7 located at the position to be probed to determine whether the part hole of the workpiece 7 meets the pre-honing requirement. The probing tip 336 includes an upper portion having a diameter that is the maximum value required before honing the bore of the workpiece 7, and a lower portion having a diameter that is the minimum value required before honing the bore of the workpiece 7. When the lower measuring part can enter the part hole of the workpiece 7 and the upper measuring part can not enter the part hole of the workpiece 7, the part hole of the workpiece 7 meets the pre-honing requirement, otherwise, the part hole does not meet the pre-honing requirement.

Referring to fig. 10 and 11, the tumble drying apparatus 5 includes a supporting bracket 51, a clamping mechanism 53, a tumble mechanism 55, and a blowing mechanism 57. The carrying bracket 51 corresponds to the second end of the rack 162 and mainly plays a carrying role. The clamping mechanism 53, the turnover mechanism 55 and the blowing mechanism 57 are all arranged on the bearing bracket 51. The bearing support 51 is of a hollow structure, a material passage for passing through the honed workpiece 7 is arranged on the outer wall of the bearing support 51, a switch door 52 is movably arranged on the bearing support 51, and the switch door 52 can close or open the inlet of the material passage under the action of a driving source such as a driving motor, a cylinder, an oil cylinder and the like. A clamping mechanism 53 is located in the carrier support 51 for clamping the honed workpiece 7 from the material passage. The turnover mechanism 55 is arranged in the bearing bracket 51 and is used for driving the clamping mechanism 53 to rotate so as to turn over the honed workpiece 7, thereby realizing the function of turnover and liquid pouring. A blowing mechanism 57 is provided to the carrier bracket 51 for blowing air to the honed workpiece 7 to dry the honed workpiece 7.

In the present embodiment, the blowing mechanism 57 includes a blower 570 and a wind pipe 572, and the blower 570 is disposed on the top of the carrier 51. The first end of the air pipe 572 is communicated with an air outlet of the blower 570, and the second end of the air pipe 572 points to the clamping mechanism 53, so that the air flow introduced from the blower 570 blows the honed workpiece 7, and the drying function is achieved. It should be noted that, when the honed workpiece 7 is clamped in the clamping mechanism 53, the opening and closing door 52 closes the inlet of the material passage, so that a closed space is formed in the bearing bracket 51, and the fan 570 operates to blow out hot air, so that the temperature of the honed workpiece 7 rises, and a drying function is realized. After the completion of the drying, the material passage is opened by opening and closing the door 52 to communicate the space inside the carrier frame 51 with the outside, thereby discharging the hot air while facilitating the recovery of the honing liquid of the next honed workpiece 7 and the drying of the workpiece 7.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. A honing machine, comprising:

a frame;

the first moving mechanism is arranged on the rack;

the second moving mechanism is arranged on the first moving mechanism and can move along a first preset direction under the driving of the first moving mechanism;

the third moving mechanism is arranged on the second moving mechanism and can move along a second preset direction under the driving of the second moving mechanism;

the honing main shaft is arranged on the third moving mechanism and can move along a third preset direction under the driving of the third moving mechanism, wherein any two of the first preset direction, the second preset direction and the third preset direction are mutually vertical;

wherein the honing machine comprises:

at least two first moving mechanisms, wherein each first moving mechanism is provided with at least one second moving mechanism, each second moving mechanism is provided with one third moving mechanism, and each third moving mechanism is provided with one honing main shaft;

the honing machine tool further comprises a feeding mechanism, and the feeding mechanism comprises:

the material rack is movably arranged on the rack;

the transverse driving part is arranged on the rack and used for driving the material rack to move along the second preset direction;

the lifting driving part is arranged on the rack and used for driving the material rack to move along the third preset direction;

wherein the transverse drive comprises:

the fourth driving source is arranged on the rack;

the fourth driving source is connected with the material rack through the fourth screw pair;

a nut of the fourth screw pair is provided with a limiting hole, the material rest is provided with a limiting column, and the limiting column penetrates through the limiting hole; the lifting driving piece can drive the limiting column to move between a first position and a second position relative to the limiting hole;

when the limiting column is located at the first position, the distance between the material rack and the rack in the third preset direction is smaller than the distance between the material rack and the rack in the third preset direction when the limiting column is located at the second position.

2. The honing machine of claim 1, wherein the first moving mechanism comprises:

the first sliding table is movably arranged on the rack, and the second moving mechanism is arranged on the first sliding table;

the first driving piece is arranged on the rack and used for driving the first sliding table to slide along a first preset direction so as to drive the honing main shaft to move along the first preset direction.

3. The honing machine of claim 1, wherein the second moving mechanism comprises:

the second sliding table is movably arranged on the first moving mechanism, and the third moving mechanism is arranged on the second sliding table;

and the second driving piece is arranged on the first moving mechanism and used for driving the second sliding table to slide along the second preset direction so as to drive the honing main shaft to move along the second preset direction.

4. The honing machine of claim 1, wherein the third moving mechanism comprises:

the third sliding table is movably arranged on the second moving mechanism, and the honing main shaft is arranged on the third sliding table;

and the third driving piece is arranged on the second moving mechanism and used for driving the third sliding table to slide along the third preset direction so as to drive the honing main shaft to move along the third preset direction.

5. A honing line, characterized by comprising a honing machine as claimed in any of claims 1 to 4.

6. The honing line of claim 5 further comprising a tumble drying apparatus comprising:

a load bearing support;

the clamping mechanism is arranged on the bearing bracket and is used for clamping the honed workpiece;

the turnover mechanism is arranged on the bearing support and used for driving the clamping mechanism to rotate;

and the blowing mechanism is arranged on the bearing bracket and used for blowing air to the honed workpiece.

7. The honing production line of claim 6, wherein the blowing mechanism comprises:

the fan is arranged on the bearing bracket;

and the first end of the air pipe is communicated with the air outlet of the fan, and the second end of the air pipe points to the clamping mechanism.

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