CN211580201U - Automatic survey equipment of speaker curve - Google Patents

Abstract

The utility model relates to a technical field of automatic curve measurement of flat plate class or ultra-thin class speaker, concretely relates to automatic equipment of measuring speaker curve, this equipment includes board, the feed mechanism, detection mechanism and the unloading mechanism of locating the board, feed mechanism and unloading mechanism are located the both ends of detection mechanism respectively, feed mechanism is used for shifting the work piece that is located the outside conveyer belt to detection mechanism, detection mechanism is used for carrying out the curve detection to the work piece, unloading mechanism is used for carrying the work piece that is located detection mechanism to the outside; one end of the detection mechanism, which is close to the feeding mechanism, is also provided with a material pushing mechanism, and the material pushing mechanism is used for pushing the workpiece to the other end from one end of the detection mechanism.

Description

Automatic survey equipment of speaker curve

Technical Field

The utility model relates to an automatic curved technical field of survey of flat plate class or ultra-thin class speaker, concretely relates to automatic survey curved equipment of speaker.

Background

The current flat plate type or ultrathin type loudspeaker needs to be subjected to curve detection when leaving the factory, and after a workpiece is manually grabbed and placed in a detection device, the workpiece is sorted, so that the efficiency is low, and manpower is wasted.

Disclosure of Invention

In order to overcome the shortcoming and the deficiency that exist among the prior art, the utility model aims to provide an automatic survey curved equipment of speaker can detect labour saving and time saving to the work piece automatically.

The utility model discloses a realize through following technical scheme:

the equipment for automatically measuring the loudspeaker curve comprises a machine table, a feeding mechanism, a detecting mechanism and a discharging mechanism, wherein the feeding mechanism, the detecting mechanism and the discharging mechanism are arranged on the machine table, the feeding mechanism and the discharging mechanism are respectively positioned at two ends of the detecting mechanism, the feeding mechanism is used for transferring a workpiece positioned on an external conveying belt to the detecting mechanism, the detecting mechanism is used for carrying out curve detection on the workpiece, and the discharging mechanism is used for conveying the workpiece positioned on the detecting mechanism to the outside; one end of the detection mechanism, which is close to the feeding mechanism, is also provided with a material pushing mechanism, and the material pushing mechanism is used for pushing the workpiece to the other end from one end of the detection mechanism.

The feeding mechanism comprises a feeding rack, a feeding transverse moving mechanism, a feeding lifting mechanism and a first feeding sucker and a second feeding sucker which are arranged at intervals, the feeding transverse moving mechanism is arranged on the feeding rack, the feeding transverse moving mechanism is used for driving the feeding lifting mechanism to transversely move, and the feeding lifting mechanism is respectively used for driving the first feeding sucker and the second feeding sucker to lift; and a feeding transition groove is also arranged below the feeding frame.

The feeding transverse moving mechanism comprises a feeding transverse moving slide rail, a feeding transverse moving slide block, a feeding transverse moving plate and a feeding transverse moving cylinder, the feeding transverse moving slide rail and the feeding transverse moving cylinder are arranged on the feeding rack, the feeding transverse moving slide block is arranged on the feeding transverse moving slide rail in a sliding mode, the feeding transverse moving plate is arranged on the feeding transverse moving slide block, the output end of the feeding transverse moving cylinder is connected with the feeding transverse moving plate, and the feeding lifting mechanism is arranged on the feeding transverse moving plate.

Wherein the feeding lifting mechanism comprises a first feeding lifting slide rail, a first feeding lifting slide block, a first feeding sucker, a first feeding lifting cylinder, a second feeding lifting slide rail, a second feeding lifting slide block, a second feeding sucker and a second feeding lifting cylinder, the first feeding lifting slide rail, the first feeding lifting cylinder, the second feeding lifting slide rail and the second feeding lifting cylinder are all arranged on the feeding transverse moving mechanism, the first feeding lifting slide block is arranged on the first feeding lifting slide rail in a sliding manner, the second feeding lifting slide block is arranged on the second feeding lifting slide rail in a sliding manner, the first feeding sucker is arranged on the first feeding lifting slide block, the second feeding sucker is arranged on the second feeding lifting slide block, the output end of the first feeding lifting cylinder is connected with the first feeding sucker, and the output end of the second feeding lifting cylinder is connected with the second feeding sucker.

The pushing mechanism comprises a pushing cylinder, a pushing slide rail and a pushing slide block, the pushing cylinder and the pushing slide rail are arranged on the machine table, the pushing slide block is arranged on the pushing slide rail in a sliding mode, and the output end of the pushing cylinder is connected with the pushing slide block.

The machine table is further provided with a first ejector rod, and the first ejector rod is opposite to the material pushing sliding block.

The detection mechanism comprises a detection slideway and a detection device, and the feeding mechanism and the discharging mechanism are respectively positioned at two ends of the detection slideway; the upper end of the detection slide is provided with a detection through hole which is opposite to the detection device.

The blanking mechanism comprises a blanking rack, a blanking transverse moving mechanism, a blanking lifting mechanism and a first blanking sucker and a second blanking sucker which are arranged at intervals, the blanking transverse moving mechanism is arranged on the blanking rack, the blanking transverse moving mechanism is used for driving the blanking lifting mechanism to transversely move, and the blanking lifting mechanism is respectively used for driving the first blanking sucker and the second blanking sucker to lift; a blanking transition groove is further formed below the blanking rack, a defective product pushing mechanism is further arranged at one end, close to the blanking mechanism, of the detection mechanism, the material pushing mechanism comprises a defective product pushing cylinder, a defective product pushing slide rail and a defective product pushing slide block, the defective product pushing cylinder and the defective product pushing slide rail are both arranged on the machine table, the defective product pushing slide block is arranged on the defective product pushing slide rail in a sliding mode, and the output end of the defective product pushing cylinder is connected with the defective product pushing slide block; the machine table is further provided with a second ejector rod, and the second ejector rod is opposite to the defective product pushing sliding block.

The blanking transverse moving mechanism comprises a blanking transverse moving slide rail, a blanking transverse moving slider, a blanking transverse moving plate and a blanking transverse moving cylinder, the blanking transverse moving slide rail and the blanking transverse moving cylinder are arranged on the blanking rack, the blanking transverse moving slider is arranged on the blanking transverse moving slide rail in a sliding mode, the blanking transverse moving slider is arranged on the blanking transverse moving plate, the output end of the blanking transverse moving cylinder is connected with the blanking transverse moving plate, and the blanking lifting mechanism is arranged on the blanking transverse moving plate.

Wherein the blanking lifting mechanism comprises a first blanking lifting slide rail, a first blanking lifting slide block, a first blanking sucker, a first blanking lifting cylinder, a second blanking lifting slide rail, a second blanking lifting slide block, a second blanking sucker and a second blanking lifting cylinder, the first blanking lifting slide rail, the first blanking lifting cylinder, the second blanking lifting slide rail and the second blanking lifting cylinder are all arranged on the blanking transverse moving mechanism, the first blanking lifting slide block is arranged on the first blanking lifting slide rail in a sliding way, the second blanking lifting slide block is arranged on the second blanking lifting slide rail in a sliding way, the first blanking sucker is arranged on the first blanking lifting slide block, the second blanking sucker is arranged on the second blanking lifting slide block, the output end of the first blanking lifting cylinder is connected with the first blanking sucker, and the output end of the second blanking lifting cylinder is connected with the second blanking sucker.

The utility model has the advantages that:

the efficiency of the planometer type or ultrathin type loudspeaker curve is increased: the utility model discloses an automatic survey equipment of speaker curve through being provided with feed mechanism, detection mechanism and unloading mechanism, is detected by feed mechanism automatic feeding to detection mechanism to carry out the unloading letter sorting by unloading mechanism to the work piece that has detected, promoted detection efficiency.

Drawings

The present invention is further explained by using the drawings, but the embodiments in the drawings do not constitute any limitation to the present invention, and for those skilled in the art, other drawings can be obtained according to the following drawings without any inventive work.

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a part of the structure of the feeding mechanism, the pushing mechanism and the detecting mechanism.

Fig. 3 is a partial structural schematic diagram of the blanking mechanism and the defective product pushing mechanism.

Reference numerals

A machine table-1, a feeding mechanism-2, a feeding frame-21,

a feeding traversing mechanism-22, a feeding traversing slide-rail-221, a feeding traversing slide-block-222, a feeding traversing plate-223, a feeding traversing cylinder-224,

a feeding lifting mechanism-23, a first feeding lifting slide rail-231, a first feeding lifting slide block-232, a first feeding lifting cylinder-233, a second feeding lifting slide rail-234, a second feeding lifting slide block-235, a second feeding lifting cylinder-237,

a first feeding suction cup-24, a second feeding suction cup-26, a feeding transition groove-27,

a detection mechanism-3, a detection slideway-31, a detection device-32, a detection through hole-33,

a blanking mechanism-4, a blanking frame-41,

a blanking transverse moving mechanism-42, a blanking transverse sliding rail-421, a blanking transverse sliding block-422, a blanking transverse plate-423, a blanking transverse moving cylinder-424, a blanking lifting mechanism-43, a first blanking lifting sliding rail-431, a first blanking lifting sliding block-432, a first blanking lifting cylinder-433, a second blanking lifting sliding rail-434, a second blanking lifting sliding block-435, a second blanking lifting cylinder-437,

a first blanking suction cup-44, a second blanking suction cup-45, a blanking transition groove-46,

a material pushing mechanism-5, a material pushing cylinder-51, a material pushing slide rail-52, a material pushing slide block-53, a first ejector rod-54,

a defective product pushing mechanism-6, a defective product pushing cylinder-61, a defective product pushing slide rail-62, a defective product pushing slide block-63 and a second ejector rod-64.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The present invention can also be implemented or applied through other different specific embodiments, and various details in the present specification can be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention.

It should be noted that the structures shown in the drawings are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used for limiting the practical limitations of the present invention, so that the modifications or adjustments of any structure do not have the essential meaning in the art, and the technical contents disclosed in the present invention should still fall within the scope that the functions and the achievable objects of the present invention can be achieved without affecting the present invention.

As shown in fig. 1 to 3, an apparatus for automatically measuring a loudspeaker curve includes a machine table 1, a feeding mechanism 2, a detecting mechanism 3, and a discharging mechanism 4, which are disposed on the machine table 1, wherein the feeding mechanism 2 and the discharging mechanism 4 are respectively disposed at two ends of the detecting mechanism 3, the feeding mechanism 2 is configured to transfer a workpiece disposed on an external conveyor belt to the detecting mechanism 3, the detecting mechanism 3 is configured to perform curve detection on the workpiece, and the discharging mechanism 4 is configured to convey the workpiece disposed on the detecting mechanism 3 to the outside; one end of the detection mechanism 3, which is close to the feeding mechanism 2, is further provided with a material pushing mechanism 5, and the material pushing mechanism 5 is used for pushing the workpiece from one end of the detection mechanism 3 to the other end.

Specifically, the equipment of this embodiment for automatically surveying the loudspeaker curve is through being provided with feed mechanism 2, detection mechanism 3 and unloading mechanism 4, is detected to detection mechanism 3 by 2 automatic feeding of feed mechanism to carry out the unloading letter sorting by unloading mechanism 4 to the work piece that has detected, promoted detection efficiency.

Specifically, the feeding mechanism 2 comprises a feeding rack 21, a feeding transverse moving mechanism 22, a feeding lifting mechanism 23, and a first feeding sucker 24 and a second feeding sucker 26 which are arranged at intervals, the feeding transverse moving mechanism 22 is arranged on the feeding rack 21, the feeding transverse moving mechanism 22 is used for driving the feeding lifting mechanism 23 to transversely move, and the feeding lifting mechanism 23 is respectively used for driving the first feeding sucker 24 and the second feeding sucker 26 to lift; a feeding transition groove 27 is further arranged below the feeding frame 21. The workpieces are simultaneously adsorbed by the first feeding sucker 24 and the second feeding sucker 26, and are placed in the feeding transition groove 27, so that the feeding time can be saved, and the detection efficiency is improved.

Specifically, the feeding traversing mechanism 22 includes a feeding traversing slide rail 221, a feeding traversing slide block 222, a feeding traversing plate 223 and a feeding traversing cylinder 224, the feeding traversing slide rail 221 and the feeding traversing cylinder 224 are both disposed on the feeding rack 21, the feeding traversing slide block 222 is slidably disposed on the feeding traversing slide rail 221, the feeding traversing plate 223 is disposed on the feeding traversing slide block 222, an output end of the feeding traversing cylinder 224 is connected to the feeding traversing plate 223, and the feeding lifting mechanism 23 is disposed on the feeding traversing plate 223.

Specifically, the feeding lifting mechanism 23 includes a first feeding lifting slide rail 231, a first feeding lifting slide block 232, a first feeding suction cup 24, a first feeding lifting cylinder 233, a second feeding lifting slide rail 234, a second feeding lifting slide block 235, a second feeding suction cup 26 and a second feeding lifting cylinder 236, wherein the first feeding lifting slide rail 231, the first feeding lifting slide rail 233, the second feeding lifting slide rail 234 and the second feeding lifting cylinder 236 are all disposed on the feeding traversing mechanism 22, the first feeding lifting slide block 232 is slidably disposed on the first feeding lifting slide rail 231, the second feeding lifting slide block 235 is slidably disposed on the second feeding lifting slide rail 234, the first feeding suction cup 24 is disposed on the first feeding lifting slide block 232, the second feeding suction cup 26 is disposed on the second feeding lifting slide block 235, an output end of the first feeding lifting slide block 233 is connected to the first feeding suction cup 24, the output end of the second feeding lifting cylinder 236 is connected with the second feeding suction cup 26. Through the cooperation of the feeding traversing mechanism 22 and the feeding lifting mechanism 23, the first feeding sucker 24 and the second feeding sucker 26 are controlled in the biaxial direction respectively, so as to achieve the purpose of quick feeding.

Specifically, the pushing mechanism 5 includes a pushing cylinder 51, a pushing slide rail 52 and a pushing slide block 53, the pushing cylinder 51 and the pushing slide rail 52 are both disposed on the machine table 1, the pushing slide block 53 is slidably disposed on the pushing slide rail 52, an output end of the pushing cylinder 51 is connected with the pushing slide block 53, the machine table 1 is further provided with a first ejector rod 54, and the first ejector rod 54 is opposite to the pushing slide block 53. The pushing cylinder 51 drives the pushing slider 53 to push the workpiece from one end of the detection mechanism 3 to the other end.

Specifically, the detection mechanism 3 includes a detection slide 31 and a detection device 32, and the feeding mechanism 2 and the discharging mechanism 4 are respectively located at two ends of the detection slide 31; the upper end of the detection slide way 31 is provided with a detection through hole 33 which is opposite to the detection device 32. It should be noted that, in the present embodiment, the detecting device 32 is a conventional technology, and the working principle thereof is not described herein again.

Specifically, the blanking mechanism 4 comprises a blanking frame 41, a blanking transverse moving mechanism 42, a blanking lifting mechanism 43, and a first blanking suction cup 44 and a second blanking suction cup 45 which are arranged at intervals, the blanking transverse moving mechanism 42 is arranged on the blanking frame 41, the blanking transverse moving mechanism 42 is used for driving the blanking lifting mechanism 43 to transversely move, and the blanking lifting mechanism 43 is respectively used for driving the first blanking suction cup 44 and the second blanking suction cup 45 to lift; a blanking transition groove 46 is further formed below the blanking frame 41, a defective product pushing mechanism 6 is further arranged at one end, close to the blanking mechanism 4, of the detection mechanism 3, the pushing mechanism 5 comprises a defective product pushing cylinder 61, a defective product pushing slide rail 62 and a defective product pushing slide block 63, the defective product pushing cylinder 61 and the defective product pushing slide rail 62 are both arranged on the machine table 1, the defective product pushing slide block 63 is slidably arranged on the defective product pushing slide rail 62, and the output end of the defective product pushing cylinder 61 is connected with the defective product pushing slide block 63; the machine table 1 is further provided with a second ejector rod 64, and the second ejector rod 64 is over against the defective product pushing slide block 63. The first blanking sucker 44 and the second blanking sucker 45 can suck the workpiece at the same time, and the workpiece is placed in the blanking transition groove 46, so that the blanking time can be saved, and the detection efficiency can be improved; in addition, when the workpiece detected by the detection mechanism 3 belongs to a defective product, the defective product pushing cylinder 61 can drive the defective product pushing slide block 63 to push the workpiece out of the detection mechanism 3, so that the sorting efficiency is improved.

Specifically, the blanking transverse moving mechanism 42 includes a blanking transverse moving slide rail 421, a blanking transverse moving slide block 422, a blanking transverse moving plate 423 and a blanking transverse moving cylinder 424, the blanking transverse moving slide rail 421 and the blanking transverse moving cylinder 424 are both disposed on the blanking frame 41, the blanking transverse moving slide block 422 is slidably disposed on the blanking transverse moving slide rail 421, the blanking transverse moving plate 423 is disposed on the blanking transverse moving slide block 422, an output end of the blanking transverse moving cylinder 424 is connected with the blanking transverse moving plate 423, and the blanking lifting mechanism 43 is disposed on the blanking transverse moving plate 423.

Specifically, the blanking lifting mechanism 43 comprises a first blanking lifting slide rail 431, a first blanking lifting slide block 432, a first blanking suction cup 44, a first blanking lifting cylinder 433, a second blanking lifting slide rail 434, a second blanking lifting slide block 435, a second blanking suction cup 45 and a second blanking lifting cylinder 437, wherein the first blanking lifting slide rail 431, the first blanking lifting cylinder 433, the second blanking lifting slide rail 434 and the second blanking lifting cylinder 437 are all arranged on the blanking traversing mechanism 42, the first blanking lifting slide block 432 is slidably arranged on the first blanking lifting slide rail 431, the second blanking lifting slide block 435 is slidably arranged on the second blanking lifting slide rail 434, the first blanking suction cup 44 is arranged on the first blanking lifting slide block 432, the second blanking suction cup 45 is arranged on the second blanking lifting slide block 435, the output end of the first blanking lifting cylinder 433 is connected with the first blanking suction cup 44, the output end of the second discharging lifting cylinder 437 is connected with the second discharging sucker 45. Through the cooperation of the feeding transverse moving mechanism 42 and the feeding lifting mechanism 43, the first feeding sucker 44 and the second feeding sucker 45 are controlled in the two-axis direction respectively, so as to achieve the purpose of quick feeding.

It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention, and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. The utility model provides an automatic survey equipment of speaker curve, includes board (1), its characterized in that: the automatic feeding device is characterized by further comprising a feeding mechanism (2), a detecting mechanism (3) and a discharging mechanism (4) which are arranged on the machine table (1), wherein the feeding mechanism (2) and the discharging mechanism (4) are respectively located at two ends of the detecting mechanism (3), the feeding mechanism (2) is used for transferring a workpiece located on an external conveying belt to the detecting mechanism (3), the detecting mechanism (3) is used for carrying out curve detection on the workpiece, and the discharging mechanism (4) is used for conveying the workpiece located on the detecting mechanism (3) to the outside; one end, close to the feeding mechanism (2), of the detection mechanism (3) is further provided with a material pushing mechanism (5), and the material pushing mechanism (5) is used for pushing the workpiece to the other end from one end of the detection mechanism (3).

2. The apparatus for automatically measuring a loudspeaker curve according to claim 1, wherein: the feeding mechanism (2) comprises a feeding rack (21), a feeding transverse moving mechanism (22), a feeding lifting mechanism (23), and a first feeding sucker (24) and a second feeding sucker (26) which are arranged at intervals, wherein the feeding transverse moving mechanism (22) is arranged on the feeding rack (21), the feeding transverse moving mechanism (22) is used for driving the feeding lifting mechanism (23) to transversely move, and the feeding lifting mechanism (23) is respectively used for driving the first feeding sucker (24) and the second feeding sucker (26) to lift; a feeding transition groove (27) is also arranged below the feeding rack (21).

3. The apparatus for automatically measuring a loudspeaker curve according to claim 2, wherein: the feeding transverse moving mechanism (22) comprises a feeding transverse moving slide rail (221), a feeding transverse moving slide block (222), a feeding transverse moving plate (223) and a feeding transverse moving cylinder (224), the feeding transverse moving slide rail (221) and the feeding transverse moving cylinder (224) are arranged on the feeding rack (21), the feeding transverse moving slide block (222) is arranged on the feeding transverse moving slide rail (221) in a sliding mode, the feeding transverse moving plate (223) is arranged on the feeding transverse moving slide block (222), the output end of the feeding transverse moving cylinder (224) is connected with the feeding transverse moving plate (223), and the feeding lifting mechanism (23) is arranged on the feeding transverse moving plate (223).

4. The apparatus for automatically measuring a loudspeaker curve according to claim 2, wherein: the feeding lifting mechanism (23) comprises a first feeding lifting slide rail (231), a first feeding lifting slide block (232), a first feeding sucker (24), a first feeding lifting cylinder (233), a second feeding lifting slide rail (234), a second feeding lifting slide block (235), a second feeding sucker (26) and a second feeding lifting cylinder (236), wherein the first feeding lifting slide rail (231), the first feeding lifting cylinder (233), the second feeding lifting slide rail (234) and the second feeding lifting cylinder (236) are all arranged on the feeding transverse moving mechanism (22), the first feeding lifting slide block (232) is arranged on the first feeding lifting slide rail (231) in a sliding manner, the second feeding lifting slide block (235) is arranged on the second feeding lifting slide rail (234) in a sliding manner, the first feeding sucker (24) is arranged on the first feeding lifting slide block (232), and the second feeding sucker (26) is arranged on the second feeding lifting slide block (235), the output end of the first feeding lifting cylinder (233) is connected with the first feeding sucker (24), and the output end of the second feeding lifting cylinder (236) is connected with the second feeding sucker (26).

5. The apparatus for automatically measuring a loudspeaker curve according to claim 1, wherein: the pushing mechanism (5) comprises a pushing cylinder (51), a pushing slide rail (52) and a pushing slide block (53), the pushing cylinder (51) and the pushing slide rail (52) are both arranged on the machine table (1), the pushing slide block (53) is arranged on the pushing slide rail (52) in a sliding manner, and the output end of the pushing cylinder (51) is connected with the pushing slide block (53).

6. The apparatus for automatically measuring a loudspeaker curve according to claim 5, wherein: the machine table (1) is further provided with a first ejector rod (54), and the first ejector rod (54) is over against the material pushing sliding block (53).

7. The apparatus for automatically measuring a loudspeaker curve according to claim 1, wherein: the detection mechanism (3) comprises a detection slide way (31) and a detection device (32), and the feeding mechanism (2) and the discharging mechanism (4) are respectively positioned at two ends of the detection slide way (31); the upper end of the detection slide way (31) is provided with a detection through hole (33) which is just opposite to the detection device (32).

8. The apparatus for automatically measuring a loudspeaker curve according to claim 1, wherein: the blanking mechanism (4) comprises a blanking rack (41), a blanking transverse moving mechanism (42), a blanking lifting mechanism (43) and a first blanking sucker (44) and a second blanking sucker (45) which are arranged at intervals, the blanking transverse moving mechanism (42) is arranged on the blanking rack (41), the blanking transverse moving mechanism (42) is used for driving the blanking lifting mechanism (43) to transversely move, and the blanking lifting mechanism (43) is respectively used for driving the first blanking sucker (44) and the second blanking sucker (45) to lift; a blanking transition groove (46) is further arranged below the blanking rack (41), a defective product pushing mechanism (6) is further arranged at one end, close to the blanking mechanism (4), of the detection mechanism (3), the pushing mechanism (5) comprises a defective product pushing cylinder (61), a defective product pushing slide rail (62) and a defective product pushing slide block (63), the defective product pushing cylinder (61) and the defective product pushing slide rail (62) are both arranged on the machine table (1), the defective product pushing slide block (63) is arranged on the defective product pushing slide rail (62) in a sliding mode, and the output end of the defective product pushing cylinder (61) is connected with the defective product pushing slide block (63); the machine table (1) is further provided with a second ejector rod (64), and the second ejector rod (64) is opposite to the defective product pushing sliding block (63).

9. The apparatus for automatically profiling a loudspeaker according to claim 8, wherein: unloading sideslip mechanism (42) are including unloading sideslip slide rail (421), unloading sideslip slider (422), unloading sideslip board (423) and unloading sideslip cylinder (424), unloading frame (41) are all located to unloading sideslip slide rail (421) and unloading sideslip cylinder (424), unloading sideslip slider (422) slide to be set up in unloading sideslip slide rail (421), unloading sideslip slider (422) are located to unloading sideslip board (423), the output and the unloading sideslip board (423) of unloading sideslip cylinder (424) are connected, unloading sideslip board (423) are located to unloading elevating system (43).

10. The apparatus for automatically profiling a loudspeaker according to claim 8, wherein: the blanking lifting mechanism (43) comprises a first blanking lifting slide rail (431), a first blanking lifting slide block (432), a first blanking sucker (44), a first blanking lifting cylinder (433), a second blanking lifting slide rail (434), a second blanking lifting slide block (435), a second blanking sucker (45) and a second blanking lifting cylinder (437), the first blanking lifting slide rail (431), the first blanking lifting cylinder (433), the second blanking lifting slide rail (434) and the second blanking lifting cylinder (437) are all arranged on the blanking transverse moving mechanism (42), the first blanking lifting slide block (432) is arranged on the first blanking lifting slide rail (431) in a sliding manner, the second blanking lifting slide block (435) is arranged on the second blanking lifting slide rail (434) in a sliding manner, the first blanking sucker (44) is arranged on the first blanking lifting slide block (432), and the second blanking sucker (45) is arranged on the second blanking lifting slide block (435), the output end of the first blanking lifting cylinder (433) is connected with a first blanking sucker (44), and the output end of the second blanking lifting cylinder (437) is connected with a second blanking sucker (45).

Images