CN211812064U - Automatic precision machining device for metal piece - Google Patents
Automatic precision machining device for metal piece Download PDFInfo
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- CN211812064U CN211812064U CN201922125533.3U CN201922125533U CN211812064U CN 211812064 U CN211812064 U CN 211812064U CN 201922125533 U CN201922125533 U CN 201922125533U CN 211812064 U CN211812064 U CN 211812064U
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Abstract
The utility model discloses an automatic precision finishing device for metalwork, including first conveying subassembly, second conveying subassembly and third conveying subassembly, the third spout is connected with the collector of installing in third conveyer belt top through a fourth spout, collector one end and third conveying subassembly erection joint, the other end and fourth spout are connected and the downward sloping, but the position board that ends of rotation upwards is installed to the collector both sides, the collector below is provided with the array ware that moves forward along with the third conveyer belt, has a plurality of part storehouses on this array ware, every the at least one end in part storehouse is provided with one and is used for promoting the post that pulls that ends the position board. The utility model discloses not only realized the screening to the spare part, still adjusted the part that is not conform to the requirement, made it accord with subsequent processing requirement, and need not to filter from the head again, improved production efficiency greatly.
Description
Technical Field
The utility model relates to an automatic precision finishing device for metalwork, specifically speaking are can be automatically to the mechanical device of unloading on the minimally invasive surgery chuck part in work piece burring processing.
Background
The minimally invasive surgical chuck part has high requirements on the roughness of the machined surface and the quality of an edge, particularly, the machined surface does not allow any residual machined burr, but a large amount of burrs are inevitably left after machining and are required to be removed, and because a workpiece needs to be machined and inspected in a single piece, an automatic material conveying structure meeting the requirement of single-piece deburring machining needs to be designed according to a deburring machining process to improve the machining efficiency.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an automatic precision finishing device for metalwork, this an automatic precision finishing device for metalwork has not only realized the screening to the part, still adjusts the part that is not conform to the requirement, makes it accord with subsequent processing requirement, and need not to filter from the beginning again, has improved production efficiency greatly.
In order to achieve the above purpose, the utility model adopts the technical scheme that: an automatic precision machining device for a metal piece is used for minimally invasive surgery chuck parts and comprises a base plate, two convex strip portions and two wing clamping portions, wherein the two convex strip portions are arranged on the upper surface of the base plate and are arranged at two edges of the length direction of the base plate in parallel;
when the lower surface of the substrate of the component is contacted with the conveyor belt, the height of the component is H2, the height of the convex strip is H1, the total length of the component is L, the length of the wing clamping part is L1, and the width of the component is W;
the height of the part is H3 when the top surface of the wing portion of the part is in contact with the conveyor belt;
the feeding device comprises a first conveying assembly, a second conveying assembly and a third conveying assembly, wherein the first conveying assembly is higher than the second conveying assembly in height, and the second conveying assembly is higher than the third conveying assembly in height;
the front end of the first conveying assembly is connected with the material box and is used for conveying the parts falling from the material box to the rear side, an adjusting plate is arranged in the middle of the first conveying assembly and is arranged above the first conveying belt along the movement direction of the first conveying belt, and the space above the first conveying belt is divided into two parts in the direction perpendicular to the movement direction of the first conveying belt;
a height limiting plate which is obliquely arranged is arranged on the first conveying assembly and behind the adjusting plate, two ends of the height limiting plate are respectively connected with two side plates of the first conveying assembly, the height limiting plate is arranged above the first conveying belt, the distance between the height limiting plate and the conveying belt is greater than H3 and smaller than H2, the friction coefficient of the height limiting plate is smaller than that of the conveying belt of the first conveying assembly, the first conveying belt arranged at the front end face of the height limiting plate is connected with the second conveying assembly through a first sliding groove and used for conveying parts which do not pass through the height limiting plate and are H2 to the second conveying assembly, and one end, close to the first sliding groove, of the height limiting plate inclines to one side far away from the adjusting plate;
the rear end of the first conveying assembly positioned behind the height limiting plate is connected with the second conveying assembly through a second sliding chute, the second conveying assembly is used for conveying the part with the height H3 passing through the height limiting plate to the second conveying assembly, the second sliding chute is provided with at least two sliding rails with rectangular cross sections, the height H4 of the cross section of each sliding rail is larger than the length L/2 of the part, the width W2 of the cross section of each sliding rail is larger than the width W of the part and smaller than the height H2 of the part, and the front end of the second sliding chute connected with the first conveying assembly is a semicircular sliding chute part;
the second conveying assembly conveys the parts from the second chute and the first chute backwards through a second conveying belt, a screening plate is arranged on the second conveying assembly, the screening plate is positioned behind the joint of the second chute, the first chute and the second conveying belt and is used for screening the parts from the second chute and the first chute, one end face of the screening plate is connected with one side plate of the second conveying assembly, the other end face of the screening plate is an inclined face inclined towards the other side plate of the second conveying assembly, the minimum distance W3 between the inclined face and the other side plate of the second conveying assembly is larger than L1 and smaller than 1.2L 1, and the distance H5 between the lower surface of the screening plate and the second conveying belt is larger than H1 and smaller than 1.5H 1;
the tail end of the second conveying assembly is provided with a baffle which is positioned above the second conveying belt and is arranged in an inclined mode and a third chute connected with the second conveying belt, and the baffle is used for conveying the parts passing through the screening plate to the third conveying assembly;
the third spout is connected with the collector of installing in third conveyer belt top through a fourth spout, collector one end and third conveying assembly erection joint, the other end and fourth spout are connected and the downward sloping, but the stop board of autogiration is installed to the collector both sides, the collector below is provided with the array ware that moves forward along with the third conveyer belt, has a plurality of part storehouses on this array ware, every at least one end in part storehouse is provided with one and is used for promoting the traction column of stopping the board.
The further improved scheme in the technical scheme is as follows:
1. in the above scheme, the adjusting plate is mounted on the first conveying assembly through a horizontal mounting plate.
2. In the scheme, one end of the stop plate is hinged with the collector, and the other end of the stop plate is used for rotating under the action of the traction column.
3. In the above scheme, the first conveyor belt, the second conveyor belt and the third conveyor belt are all driven by motors.
4. In the above scheme, the arrayer moves step by step along with the third conveyor belt.
Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:
1. the utility model discloses an automatic precision finishing device for metalwork, its burring singleton automated processing that is applicable to the high added value part, especially be fit for singleton processing and examine the work piece of requirement entirely, device simple structure is compact, can realize the screening adjustment and the conveying of work piece position appearance, helps minimal access surgery chuck part to realize batchization, flexibility, automated manufacturing, changes the unloading mode of traditional dependence manual work, improves operating efficiency and quality.
2. The utility model discloses an automatic precision finishing device for metalwork, it is located the first conveying subassembly rear end at limit for height board rear is connected with second conveying subassembly through a second spout for highly being H3 part through the limit for height board sends to second conveying subassembly, the second spout has at least two cross-sections and is the slide of rectangle, the cross-sectional height H4 of slide is greater than the length L2 of part, cross-sectional width W2 are greater than the width W of part and are less than the height H2 of part, the front end that the second spout is connected with first conveying subassembly is semi-circular spout portion, through the setting of second spout, has not only realized the screening to the part, still adjusts the part that is not conform to the requirement, makes it accord with subsequent processing requirement, and need not to filter from the head again, has improved production efficiency greatly.
3. The utility model discloses an automatic precision finishing device for metalwork, its third spout all is connected with the collector of installing in third conveyer belt top through a fourth spout with the switching-over dish groove, collector one end and third conveying subassembly erection joint, the other end and fourth spout connection and downward sloping, but the just board of autogiration is installed to the collector both sides, the collector below is provided with the array ware that moves forward along with the third conveyer belt, has a plurality of part storehouses on this array ware, every at least one end in part storehouse is provided with a traction column that is used for promoting just board, has realized transporting step-by-step one by step to arranging the part that accords with follow-up processing requirement, and the processingequipment of being convenient for is got and is processed the clamp of part, improves the operating efficiency.
Drawings
FIG. 1 is a schematic diagram of the structure of the components on which the present invention is based;
FIG. 2 is a schematic diagram of the position and posture state of the part based on the present invention;
FIG. 3 is a schematic structural view of an automatic precision machining apparatus for metal parts according to the present invention;
FIG. 4 is a schematic structural view of a first conveying assembly in the automatic precision machining apparatus of the present invention;
FIG. 5 is a schematic view of a semicircular slide groove portion in the automatic precision machining apparatus of the present invention;
FIG. 6 is a schematic structural view of a second conveying assembly in the automatic precision machining apparatus of the present invention;
FIG. 7 is a side view of a second conveying assembly of the automatic precision machining apparatus of the present invention;
FIG. 8 is a schematic structural view of a third conveying assembly in the automatic precision machining apparatus of the present invention;
fig. 9 is the local structure diagram of the third conveying assembly in the automatic precision machining device of the present invention.
In the above drawings: 1. A first transfer assembly; 2. a second transfer assembly; 3. a third transfer assembly; 4. a second chute; 401. a semicircular chute part; 5. a first chute; 7. a third chute; 10. a part; 101. a substrate; 102. a raised strip portion; 103. a clip part; 11. a first conveyor belt; 12. an adjustment plate; 13. a height limiting plate; 21. a second conveyor belt; 22. screening the plate; 23. a baffle plate; 31. a third conveyor belt; 41. a fourth chute; 42. a stop plate; 43. a collector; 44. an arrayer; 45. a traction column; 46. and a part bin.
Detailed Description
Example 1: an automatic precision machining device for a metal piece is used for a minimally invasive surgery chuck part 10, wherein the part 10 comprises a base plate 101, two convex strip portions 102 and two clamping wing portions 103, the two convex strip portions 102 are arranged on the upper surface of the base plate 101, the two convex strip portions 102 are arranged on two edges of the length direction of the base plate 101 in parallel, and the two clamping wing portions 103 are positioned at one end of the base plate 101 and are respectively connected with the two convex strip portions 102;
when the lower surface of the substrate 101 of the component 10 contacts with the conveyor belt, the height of the component 10 is H2, the height of the raised strip 102 is H1, the total length of the component 10 is L, the length of the wing clamping part 103 is L1, and the width of the component 10 is W;
the height of the part 10 is H3 when the top surface of the clip wing 103 of the part 10 is in contact with the conveyor belt;
the feeding device comprises a first conveying assembly 1, a second conveying assembly 2 and a third conveying assembly 3, wherein the height of a first conveyor belt 11 of the first conveying assembly 1 is higher than that of a second conveyor belt 21 of the second conveying assembly 2, and the height of the second conveyor belt 21 of the second conveying assembly 2 is higher than that of a third conveyor belt 31 of the third conveying assembly 3;
the front end of the first conveying assembly 1 is connected with the material box and is used for conveying the parts falling from the material box to the rear, an adjusting plate 12 is arranged in the middle of the first conveying assembly 1, the adjusting plate 12 is arranged above the first conveying belt 11 along the movement direction of the first conveying belt 11, and the space above the first conveying belt 11 is divided into two parts in the direction perpendicular to the movement direction of the first conveying belt 11;
a height limiting plate 13 which is obliquely arranged is arranged on the first conveying assembly 1 and behind the adjusting plate 12, two ends of the height limiting plate 13 are respectively connected with two side plates of the first conveying assembly 1, the height limiting plate 13 is arranged above the first conveying belt 11, the distance between the height limiting plate 13 and the conveying belt is larger than H3 and smaller than H2, the friction coefficient of the height limiting plate 13 is smaller than that of the conveying belt of the first conveying assembly 1, the first conveying belt 11 arranged on the front end surface of the height limiting plate 13 is connected with the second conveying assembly 2 through a first sliding groove 5 and used for conveying parts 10 which do not pass through the height limiting plate 13 and are H2 to the second conveying assembly 2, and one end, close to the first sliding groove 5, of the height limiting plate 13 inclines to one side far away from the adjusting plate 12;
the rear end of the first conveying assembly 1 positioned behind the height limiting plate 13 is connected with the second conveying assembly 2 through a second chute 4, the second chute 4 is used for conveying the parts 10 with the height H3 passing through the height limiting plate 13 to the second conveying assembly 2, the second chute 4 is provided with at least two chutes with rectangular sections, the section height H4 of each chute is larger than the length L/2 of each part 10, the section width W2 of each chute is larger than the width W of each part 10 and is smaller than the height H2 of each part 10, and the front end of the second chute 4 connected with the first conveying assembly 1 is a semicircular chute part 401;
the second conveying assembly 2 conveys the parts 10 from the second chute 4 and the first chute 5 to the rear through the second conveyor belt 21, a screening plate 22 is arranged on the second conveying assembly 2, the screening plate 22 is positioned behind the joint of the second chute 4 and the first chute 5 with the second conveyor belt 21 and is used for screening the parts 10 from the second chute 4 and the first chute 5, one end surface of the screening plate 22 is connected with one side plate of the second conveying assembly 2, the other end surface of the screening plate 22 is an inclined surface inclined towards the other side plate of the second conveying assembly 2, the minimum distance W3 between the inclined surface and the other side plate of the second conveying assembly 2 is greater than L1 and less than 1.2L 1, and the distance H5 between the lower surface of the screening plate 22 and the second conveyor belt 21 is greater than H1 and less than 1.5H 1;
the tail end of the second conveying component 2 is provided with a baffle 23 which is positioned above the second conveying belt 21 and is arranged obliquely and a third chute 7 connected with the second conveying belt 21, and the baffle 23 is used for conveying the parts 10 passing through the screening plate 22 to the third conveying component 3;
the third chute 7 is connected with a collector 43 arranged above the third conveyor belt 31 through a fourth chute 41, one end of the collector 43 is connected with the third conveying assembly 3, the other end of the collector 43 is connected with the fourth chute 41 and inclines downwards, stop plates 42 capable of rotating upwards are arranged on two sides of the collector 43, an arraying device 44 moving forwards along with the third conveyor belt 31 is arranged below the collector 43, a plurality of part bins 46 are arranged on the arraying device 44, and at least one end of each part bin 46 is provided with a traction column 45 used for pushing the stop plate 42.
The adjusting plate 12 is mounted on the first conveying assembly 1 through a horizontal mounting plate; the stop plate 42 is hinged to the collector 43 at one end and is adapted to rotate under the action of a traction column 45 at the other end.
Example 2: an automatic precision machining device for a metal piece is used for a minimally invasive surgical chuck part 10, as shown in fig. 1, the part 10 comprises a base plate 101, two convex strip portions 102 and two wing clamping portions 103, wherein the two convex strip portions 102 are arranged on the upper surface of the base plate 101, the two convex strip portions 102 are arranged on two edges of the length direction of the base plate 101 in parallel, and the two wing clamping portions 103 are arranged at one end of the base plate 101 and are respectively connected with the two convex strip portions 102;
as shown in fig. 2, there are four possible positions of the part, when the lower surface of the base plate 101 of the part 10 contacts the conveyor belt, the height of the part 10 is H2, the height of the ridge 102 is H1, the total length of the part 10 is L, the length of the clip wing 103 is L1, and the width of the part 10 is W;
the height of the part 10 is H3 when the top surface of the clip wing 103 of the part 10 is in contact with the conveyor belt;
the feeding device comprises a first conveying assembly 1, a second conveying assembly 2 and a third conveying assembly 3, wherein the height of a first conveyor belt 11 of the first conveying assembly 1 is higher than that of a second conveyor belt 21 of the second conveying assembly 2, the height of the second conveyor belt 21 of the second conveying assembly 2 is higher than that of a third conveyor belt 31 of the third conveying assembly 3, and the blanking assembly 8 is connected to the rear end of the third conveying assembly 3;
the front end of the first conveying assembly 1 is connected with the material box and is used for conveying the parts falling from the material box to the rear, an adjusting plate 12 is arranged in the middle of the first conveying assembly 1, the adjusting plate 12 is arranged above the first conveying belt 11 along the movement direction of the first conveying belt 11, and the space above the first conveying belt 11 is divided into two parts in the direction perpendicular to the movement direction of the first conveying belt 11;
a height limiting plate 13 which is obliquely arranged is arranged on the first conveying assembly 1 and behind the adjusting plate 12, two ends of the height limiting plate 13 are respectively connected with two side plates of the first conveying assembly 1, the height limiting plate 13 is arranged above the first conveying belt 11, the distance between the height limiting plate 13 and the conveying belt is larger than H3 and smaller than H2, the friction coefficient of the height limiting plate 13 is smaller than that of the conveying belt of the first conveying assembly 1, the first conveying belt 11 arranged on the front end surface of the height limiting plate 13 is connected with the second conveying assembly 2 through a first sliding groove 5 and used for conveying parts 10 which do not pass through the height limiting plate 13 and are H2 to the second conveying assembly 2, and one end, close to the first sliding groove 5, of the height limiting plate 13 inclines to one side far away from the adjusting plate 12;
the rear end of the first conveying assembly 1 positioned behind the height limiting plate 13 is connected with the second conveying assembly 2 through a second chute 4, the second chute 4 is used for conveying the parts 10 with the height of H3 passing through the height limiting plate 13 to the second conveying assembly 2, the second chute 4 is provided with at least two chutes with rectangular sections, the section height H4 of each chute is larger than the length L/2 of each part 10, the section width W2 of each chute is larger than the width W of each part 10 and is smaller than the height H2 of each part 10, and the front end of the second chute 4 connected with the first conveying assembly 1 is a semicircular chute part 401 and used for turning the low-posture parts with the height of H3 into high-posture parts with the height of H2 in the sliding process;
the second conveying assembly 2 conveys the parts 10 from the second chute 4 and the first chute 5 to the rear through the second conveyor belt 21, a screening plate 22 is arranged on the second conveying assembly 2, the screening plate 22 is positioned behind the joint of the second chute 4 and the first chute 5 with the second conveyor belt 21 and is used for screening the parts 10 from the second chute 4 and the first chute 5, one end surface of the screening plate 22 is connected with one side plate of the second conveying assembly 2, the other end surface of the screening plate 22 is an inclined surface inclined towards the other side plate of the second conveying assembly 2, the minimum distance W3 between the inclined surface and the other side plate of the second conveying assembly 2 is greater than L1 and less than 1.2L 1, and the distance H5 between the lower surface of the screening plate 22 and the second conveyor belt 21 is greater than H1 and less than 1.5H 1;
the tail end of the second conveying component 2 is provided with a baffle 23 which is positioned above the second conveying belt 21 and is arranged obliquely and a third chute 7 connected with the second conveying belt 21, and the baffle 23 is used for conveying the parts 10 passing through the screening plate 22 to the third conveying component 3;
the third chute 7 is connected with a collector 43 arranged above the third conveyor belt 31 through a fourth chute 41, one end of the collector 43 is connected with the third conveying assembly 3, the other end of the collector 43 is connected with the fourth chute 41 and inclines downwards, stop plates 42 capable of rotating upwards are arranged on two sides of the collector 43, an arraying device 44 moving forwards along with the third conveyor belt 31 is arranged below the collector 43, a plurality of part bins 46 are arranged on the arraying device 44, and at least one end of each part bin 46 is provided with a traction column 45 used for pushing the stop plate 42.
The first conveyor belt 11, the second conveyor belt 21 and the third conveyor belt 31 are all driven by a motor; the above-mentioned arrayer 44 moves stepwise with the third conveyor belt 31.
When the part conveying device is used, parts in the material box fall onto the first conveying belt, when the parts pass through the adjusting plate, the adjusting plate gives a perturbation to the parts, the postures of the parts are adjusted to be one of 4 poses, the parts in the 4 poses move backwards to the height limiting plate along with the first conveying belt, the parts in the two poses with the height H3 pass through the height limiting plate, the parts in the two poses with the height H2 slide down to the second conveying belt through the first sliding chute, the parts in the two poses with the height H2 move backwards to the screening plate along with the second conveying belt, the parts in one pose with the front clamping wing part pass through the screening plate and slide down to the third conveying assembly through the third sliding chute, and therefore the parts in the only pose required by subsequent processing are obtained;
further, the parts which do not pass through the height limiting plate and are in two poses with the height H2 pass through the second chute, are adjusted to be parts with the height H3 and are also conveyed to the second conveyor belt for subsequent screening;
parts with unique poses required by subsequent processing are arranged in the collector one by one, the traction column pushes the stop plate to rotate along with the stepping forward movement of the arraying device, and the parts fall into the part bin one by one.
When the automatic precision machining device for the metal piece is adopted, the automatic precision machining device is suitable for automatic machining of deburring single pieces of parts with high added values, particularly suitable for machining single pieces and fully inspecting required workpieces, has a simple and compact structure, can realize screening, adjustment and transmission of workpiece poses, can meet the requirement of fixed machining working beats, is beneficial to realizing batch, flexible and automatic manufacturing of minimally invasive surgery chuck parts, changes the traditional feeding and discharging mode depending on manual operation, and improves the operating efficiency and quality;
in addition, through the arrangement of the second sliding groove, not only is the screening of parts realized, but also the parts which do not meet the requirements are adjusted, so that the parts meet the subsequent processing requirements, the screening from the beginning is not needed, and the production efficiency is greatly improved;
meanwhile, the parts which are well arranged and meet the follow-up processing requirements are transported step by step one by step, the clamping and processing of the parts by the processing device are facilitated, and the operation efficiency and quality are improved.
The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.
Claims (5)
1. The utility model provides an automatic precision finishing device for metalwork which characterized in that: the minimally invasive surgical chuck part (10) comprises a base plate (101), two convex strip parts (102) and two clamping wing parts (103), wherein the two convex strip parts (102) are arranged on the upper surface of the base plate (101), the two convex strip parts (102) are arranged at two edges of the length direction of the base plate (101) in parallel, and the two clamping wing parts (103) are positioned at one end of the base plate (101) and are respectively connected with the two convex strip parts (102);
when the lower surface of the substrate (101) of the component (10) is contacted with the conveyor belt, the height of the component (10) is H2, the height of the convex strip part (102) is H1, the total length of the component (10) is L, the length of the wing clamping part (103) is L1, and the width of the component (10) is W;
the height of the part (10) is H3 when the top surface of the wing portion (103) of the part (10) contacts the conveyor belt;
the processing device comprises a first conveying assembly (1), a second conveying assembly (2) and a third conveying assembly (3), wherein the height of a first conveyor belt (11) of the first conveying assembly (1) is higher than that of a second conveyor belt (21) of the second conveying assembly (2), and the height of the second conveyor belt (21) of the second conveying assembly (2) is higher than that of a third conveyor belt (31) of the third conveying assembly (3);
the front end of the first conveying assembly (1) is connected with the material box and used for conveying the parts falling from the material box to the rear, an adjusting plate (12) is arranged in the middle of the first conveying assembly (1), the adjusting plate (12) is arranged above the first conveying belt (11) along the movement direction of the first conveying belt (11), and the space above the first conveying belt (11) is divided into two parts in the direction perpendicular to the movement direction of the first conveying belt (11);
a height limiting plate (13) which is obliquely arranged is arranged on the first conveying assembly (1) and behind the adjusting plate (12), two ends of the height limiting plate (13) are respectively connected with two side plates of the first conveying assembly (1), the height limiting plate (13) is arranged above the first conveying belt (11), the distance between the height limiting plate (13) and the conveyor belt is larger than H3 and smaller than H2, the friction coefficient of the height limiting plate (13) is smaller than that of the conveyor belt of the first conveying assembly (1), the first conveyor belt (11) positioned at the front end surface of the height limiting plate (13) is connected with the second conveying assembly (2) through a first chute (5), for feeding parts (10) of height H2 that have not passed through the height-limiting plate (13) to the second transfer assembly (2), one end of the height limiting plate (13) close to the first sliding chute (5) inclines to one side far away from the adjusting plate (12);
the rear end of a first conveying assembly (1) positioned behind the height limiting plate (13) is connected with a second conveying assembly (2) through a second sliding chute (4) and is used for conveying the parts (10) with the height of H3 passing through the height limiting plate (13) to the second conveying assembly (2), the second sliding chute (4) is provided with at least two sliding ways with rectangular sections, the section height H4 of each sliding way is larger than the length L/2 of each part (10), the section width W2 of each sliding way is larger than the width W of each part (10) and is smaller than the height H2 of each part (10), and the front end of the second sliding chute (4) connected with the first conveying assembly (1) is a semicircular sliding chute (401);
the second conveying component (2) conveys the parts (10) from the second chute (4) and the first chute (5) to the rear through a second conveying belt (21), the second conveying component (2) is provided with a screening plate (22), the screening plate (22) is positioned behind the joint of the second chute (4), the first chute (5) and the second conveying belt (21), for screening the parts (10) coming from the second chute (4) and the first chute (5), one end face of the screening plate (22) is connected with one side plate of the second conveying assembly (2), the other end face of the screening plate (22) is an inclined surface inclined towards the other side plate of the second conveying assembly (2), and the minimum distance W3 between the inclined surface and the other side plate of the second conveying assembly (2) is more than L1 and less than 1.2L 1, the distance H5 between the lower surface of the screen plate (22) and the second conveyor belt (21) is greater than H1 and less than 1.5 × H1;
the tail end of the second conveying component (2) is provided with a baffle (23) which is positioned above the second conveying belt (21) and is arranged in an inclined mode and a third chute (7) connected with the second conveying belt (21) and used for conveying the parts (10) passing through the screening plate (22) to the third conveying component (3);
the third chute (7) is connected with a collector (43) arranged above the third conveyor belt (31) through a fourth chute (41), one end of the collector (43) is connected with the third conveying assembly (3), the other end of the collector is connected with the fourth chute (41) and inclines downwards, a stop plate (42) capable of rotating upwards is arranged on two sides of the collector (43), an array device (44) moving forwards along with the third conveyor belt (31) is arranged below the collector (43), a plurality of part bins (46) are arranged on the array device (44), and each part bin (46) is provided with a traction column (45) used for pushing the stop plate (42) at least one end.
2. The automated precision machining apparatus for metal parts of claim 1, wherein: the adjusting plate (12) is arranged on the first conveying assembly (1) through a horizontal mounting plate.
3. The automated precision machining apparatus for metal parts of claim 1, wherein: one end of the stop plate (42) is hinged with the collector (43), and the other end of the stop plate is used for rotating under the action of the traction column (45).
4. The automated precision machining apparatus for metal parts of claim 1, wherein: the first conveyor belt (11), the second conveyor belt (21) and the third conveyor belt (31) are all driven by a motor.
5. The automated precision machining apparatus for metal parts of claim 1, wherein: the arrayer (44) moves in steps with the third conveyor belt (31).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201922125533.3U CN211812064U (en) | 2019-12-02 | 2019-12-02 | Automatic precision machining device for metal piece |
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CN201922125533.3U CN211812064U (en) | 2019-12-02 | 2019-12-02 | Automatic precision machining device for metal piece |
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CN211812064U true CN211812064U (en) | 2020-10-30 |
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CN201922125533.3U Active CN211812064U (en) | 2019-12-02 | 2019-12-02 | Automatic precision machining device for metal piece |
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2019
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