CN219187785U - Microphone spare part hole blocking detector - Google Patents

Abstract

The application discloses a microphone spare part hole blocking detector relates to the technical field that microphone spare part detected. A microphone part hole blocking detection machine comprises a workbench, wherein a feeding area, a detection area, a defective product storage area and a good product storage area are sequentially arranged on the workbench from one end to the other end; the workbench is provided with a mounting frame positioned in the detection area, and the mounting frame is provided with a detection piece for detecting the inner hole of the rubber block with the hole; the workbench is further provided with a support frame, the support frame is provided with a first moving assembly for moving the rubber block with holes from the feeding area to the detection area, and the support frame is also provided with a second moving assembly for moving the rubber block with holes from the detection area to the defective product storage area and the good product storage area. The application can improve the efficiency of detecting the inner hole of the rubber block with the hole.

Description

Microphone spare part hole blocking detector

Technical Field

The application relates to the field of microphone part detection, in particular to a microphone part hole blocking detector.

Background

The microphone is the energy conversion device that converts sound signal into the signal of telecommunication, contains a foraminiferous rubber piece in the equipment spare part of microphone, needs to detect foraminiferous rubber piece's hole jam condition before the microphone equipment generally, detects that the hole does not block up the back foraminiferous rubber piece and just can participate in the equipment of follow-up microphone, at present to the hole whether stifled hole detection mode of foraminiferous rubber piece usually detects foraminiferous rubber piece hole one by one with the detection utensil for the workman, and detection efficiency is lower to foraminiferous rubber piece hole one by one, wastes time and energy.

Disclosure of Invention

In order to improve the efficiency to foraminiferous rubber block hole detection, this application provides a microphone spare part stifled hole detection machine.

The application provides a microphone spare part hole blocking detector adopts following technical scheme:

the microphone part hole blocking detection machine comprises a workbench, wherein a feeding area, a detection area, a defective product storage area and a good product storage area are sequentially arranged on the workbench from one end to the other end;

the workbench is provided with a mounting frame positioned in the detection area, and the mounting frame is provided with a detection piece for detecting the inner hole of the rubber block with the hole; the workbench is further provided with a support frame, the support frame is provided with a first moving assembly for moving the perforated rubber block from the feeding area to the detection area, and the support frame is also provided with a second moving assembly for moving the perforated rubber block from the detection area to the defective product storage area and the good product storage area.

Through adopting above-mentioned technical scheme, can place a plurality of foraminiferous rubber blocks in the loading district, then drive first removal subassembly work can remove the foraminiferous rubber block in the loading district to the detection zone in, later start the detection piece and can detect foraminiferous rubber block, if the testing result is qualified, then the second removes the subassembly and can remove the foraminiferous rubber block that is located the detection zone to the yields and deposit the district, if the testing result is unqualified, then the second removes the subassembly and can remove the foraminiferous rubber block that is located the detection zone to the defective products and deposit the district, and this kind of automatic detection's mode has improved the efficiency to foraminiferous rubber block hole detection.

In a specific implementation mode, the workbench is located in the feeding area, the defective product storage area and the good product storage area are all provided with linear modules, the output end of each linear module is provided with a bearing plate, and each bearing plate is provided with a plurality of storage boxes for placing the rubber blocks with holes.

By adopting the technical scheme, in the feeding area, a plurality of rubber blocks with holes are respectively arranged in a plurality of storage boxes, when the rubber blocks with holes in one storage box are moved by the first moving assembly, the rubber blocks with holes in other storage boxes are all prepared, and the linear modules are driven to sequentially move the storage boxes to the moving positions of the first moving assembly; in the defective product storage area and the good product storage area, when the second moving assembly fully fills the storage box with the rubber blocks with holes, the linear module is driven to move the fully filled storage box away, and meanwhile, the empty storage box is moved to a position where the second moving assembly is to be placed with the rubber blocks with holes.

In a specific embodiment, a cartridge is inserted into each of the cartridges, and the cartridge can be pulled out upward from the cartridge.

Through adopting above-mentioned technical scheme, set up a pluggable filling box in the storage box for dress foraminiferous rubber piece and unload foraminiferous rubber piece are all comparatively convenient.

In a specific embodiment, the side wall of the cartridge is notched through to the interior of the cartridge.

By adopting the technical scheme, the gap can enable workers to observe the internal condition of the filling box from the outside, so that whether the filling box is internally provided with the rubber block with the hole or not can be conveniently confirmed.

In a specific embodiment, the first moving assembly and the second moving assembly are identical in structure; the first moving assembly comprises a first sliding table cylinder, a second sliding table cylinder and an adsorption piece, wherein the first sliding table cylinder is arranged on the supporting frame, the second sliding table cylinder is arranged on the output end of the first sliding table cylinder, the adsorption piece is arranged on the output end of the second sliding table cylinder, the first sliding table cylinder is used for driving the adsorption piece to do transverse movement, the second sliding table cylinder is used for driving the adsorption piece to do vertical movement, and the adsorption piece is used for adsorbing the rubber block with the hole.

Through adopting above-mentioned technical scheme, adopt first slip table cylinder and second slip table cylinder to drive the absorbing member and realized automatic transport to foraminiferous rubber piece, the absorbing member can adsorb foraminiferous rubber piece, and absorbing mode can avoid causing structural damage to foraminiferous rubber piece at the in-process of removing foraminiferous rubber piece as far as possible.

In a specific embodiment, the detection member is a CCD camera.

Through adopting above-mentioned technical scheme, the CCD camera can be convenient for high-efficient take a photograph the detection to foraminiferous rubber piece.

In a specific implementation mode, a supporting block is arranged below the detection piece on the workbench, a pit is formed in the upper end face of the supporting block, a glass plate covering the pit is arranged at the top end of the supporting block, and a light-emitting piece for emitting light towards the direction of the glass plate is arranged at the bottom end of the pit.

Through adopting above-mentioned technical scheme, can place foraminiferous rubber piece on the glass board, thereby the luminous piece can send light towards the glass board and avoid the CCD camera to be too black and can't accomplish the detection to foraminiferous rubber piece owing to the environment.

In a specific embodiment, the luminescent member is a blue luminescent plate.

Through adopting above-mentioned technical scheme, the penetration power of blue light is stronger for the CCD camera can carry out more accurate detection to the hole of foraminiferous rubber piece.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the method comprises the steps that a plurality of porous rubber blocks can be placed in a feeding area, then a first moving assembly is driven to work, the porous rubber blocks in the feeding area can be moved into a detection area, then a detection piece is started to detect the porous rubber blocks, if the detection result is qualified, a second moving assembly can move the porous rubber blocks in the detection area to a good product storage area, if the detection result is unqualified, the second moving assembly can move the porous rubber blocks in the detection area to a defective product storage area, and the automatic detection mode improves the efficiency of detecting the inner holes of the porous rubber blocks;

2. in the feeding area, a plurality of rubber blocks with holes are placed in a plurality of storage boxes, when the rubber blocks with holes in one storage box are moved by the first moving assembly, the rubber blocks with holes in other storage boxes are all prepared, and the storage boxes can be sequentially moved to the moving position of the first moving assembly by driving the linear module; in the defective product storage area and the good product storage area, when the second moving assembly fills the storage box with the rubber blocks with holes, the filled storage box can be removed by driving the linear module, and the empty storage box is moved to the position where the rubber blocks with holes are to be placed of the second moving assembly;

3. the charging box which can be pulled out and inserted is arranged in the storage box, so that the charging of the rubber block with the hole and the discharging of the rubber block with the hole are convenient.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a microphone component plugging detector according to an embodiment of the present application.

Fig. 2 is a schematic diagram of a structure for embodying within a detection zone.

Fig. 3 is an exploded view for embodying a light emitting member.

Fig. 4 is a schematic diagram of a structure for embodying a first mobile component.

Fig. 5 is a schematic diagram of a structure for embodying the number of linear modules.

Fig. 6 is a schematic structural view for embodying a magazine.

Reference numerals illustrate: 1. a work table; 11. a feeding area; 12. a detection zone; 13. a defective product storage area; 14. good product storage areas; 15. a mounting frame; 151. a detecting member; 16. a support frame; 17. a first moving assembly; 171. a first slipway cylinder; 172. a second slipway cylinder; 173. an absorbing member; 18. a second moving assembly; 2. a support block; 21. pit; 22. a glass plate; 23. a light emitting member; 3. a linear module; 31. a carrying plate; 32. a storage box; 33. a cartridge; 331. and (5) a notch.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses a microphone spare part hole blocking detector. Referring to fig. 1, the microphone part hole blocking detector comprises a workbench 1, wherein a feeding area 11, a detection area 12, a defective product storage area 13 and a defective product storage area 14 are sequentially arranged on the workbench 1 from left to right. Referring to fig. 2, a mounting frame 15 is disposed on the workbench 1 and located in the detection area 12, a detection member 151 for detecting the inner hole of the rubber block with a hole is disposed on the mounting frame 15, the detection member 151 is a CCD camera, and the shooting direction of the CCD camera is downward. The workbench 1 is also provided with a support frame 16 which spans from the feeding area 11 to the good product storage area 14, and the support frame 16 is provided with a first moving assembly 17 and a second moving assembly 18 in sequence from left to right.

Referring to fig. 1, a supporting block 2 is fixedly arranged below a detecting member 151 on a workbench 1, and in combination with fig. 3, a pit 21 is formed in the upper end face of the supporting block 2, a glass plate 22 covering the pit 21 is arranged at the top end of the supporting block 2, a light emitting member 23 for emitting light towards the direction of the glass plate 22 is arranged at the bottom end of the pit 21, the light emitting member 23 is a blue light emitting plate for continuously emitting light, the wavelength and penetrating power of the blue light are strong, and whether the inner hole of a rubber block with a hole is blocked or not can be detected by a CCD camera conveniently.

When detecting whether the holes of the hole rubber blocks are blocked, firstly, a plurality of hole rubber blocks are placed in the feeding area 11, then the first moving assembly 17 is driven to work to move the hole rubber blocks in the feeding area 11 to the glass plate 22 one by one, after the hole rubber blocks are positioned on the glass plate 22, the detecting piece 151 is started to detect the hole rubber blocks, if the detection result is qualified, the second moving assembly 18 works to move the hole rubber blocks on the glass plate 22 to the good product storage area 14, and if the detection result is unqualified, the second moving assembly 18 can move the hole rubber blocks on the glass plate 22 to the bad product storage area 13.

Referring to fig. 4, the first moving assembly 17 and the second moving assembly 18 are identical in structure and are symmetrically disposed, and the structure of the first moving assembly 17 is taken as an example: the first moving assembly 17 includes a first sliding table cylinder 171, a second sliding table cylinder 172, and an adsorbing member 173, the first sliding table cylinder 171 is disposed on the support frame 16 near the feeding area 11, the second sliding table cylinder 172 is disposed on the output end of the first sliding table cylinder 171, and the adsorbing member 173 is disposed on the output end of the second sliding table cylinder 172.

Referring to fig. 4, the direction of the lateral movement of the suction member 173 by the first slide table cylinder 171 is the x-axis, the direction transverse to the x-axis and perpendicular to the x-axis is the y-axis, and the direction vertical to the x-axis and perpendicular to the y-axis is the z-axis. The first sliding table cylinder 171 is used for driving the absorbing member 173 to move in the x-axis direction, the second sliding table cylinder 172 is used for driving the absorbing member 173 to move in the z-axis direction, the absorbing member 173 is a sucker manipulator in the embodiment of the present application, and the absorbing member 173 is used for absorbing a rubber block with holes.

Referring to fig. 5, two linear modules 3 are disposed in the feeding area 11 on the workbench 1, one linear module 3 is disposed in the defective product storage area 13, two linear modules 3 are disposed in the defective product storage area 14, the linear modules 3 are not described in detail in the prior art, each linear module 3 is disposed along the y-axis direction, a bearing plate 31 is horizontally disposed at the output end of each linear module 3, and a plurality of storage boxes 32 for placing rubber blocks with holes are mounted on each bearing plate 31 through screws.

It should be noted that: referring to fig. 3 and 4, the perforated rubber blocks in a row of cartridges 32 located under the travel path of the suction member 173 on each carrier plate 31 are first grasped, the grasping sequence may be left to right, and when the perforated rubber blocks in the row of cartridges 32 are grasped, the linear module 3 starts to sequentially move the other cartridges 32 under the travel path of the suction member 173. The suction members 173 put the rubber blocks with holes into the plurality of cartridges 32 in the defective product storage area 13 and the defective product storage area 14 in the same manner as described above.

Some specific structures on the storage box 32 in the embodiment of the present application are as follows:

referring to fig. 6, a cartridge 33 is inserted into each of the cartridges 32, and the cartridge 33 can be pulled up from the cartridge 32 to facilitate loading or unloading of the rubber block with holes; the side wall of the storage box 32 is provided with a notch 331 penetrating into the filling box 33, and the notch 331 can facilitate workers to observe whether the filling box 33 is internally provided with a rubber block with holes or not.

The implementation principle of the microphone part hole blocking detector provided by the embodiment of the application is as follows: firstly, the perforated rubber blocks are required to be placed in a plurality of storage boxes 32 of the feeding area 11, then the first sliding table cylinder 171 and the second sliding table cylinder 172 are driven to drive the adsorbing piece 173 to move so as to adsorb and move the perforated rubber blocks in the feeding area 11 onto the upper end face of the glass plate 22, at this time, the detecting piece 151 starts to detect the perforated rubber blocks, if the detection result is qualified, the second moving component 18 works to move the perforated rubber blocks on the glass plate 22 into the storage boxes 32 of the good product storage area 14, and if the detection result is unqualified, the second moving component 18 moves the perforated rubber blocks on the glass plate 22 into the storage boxes 32 of the bad product storage area 13.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a microphone spare part hole blocking detector, includes workstation (1), its characterized in that: a feeding area (11), a detection area (12), a defective product storage area (13) and a defective product storage area (14) are sequentially arranged on the workbench (1) from one end to the other end;

a mounting frame (15) is arranged on the workbench (1) and positioned in the detection area (12), and a detection piece (151) for detecting the inner hole of the rubber block with the hole is arranged on the mounting frame (15); the workbench (1) is further provided with a support frame (16), the support frame (16) is provided with a first moving assembly (17) for moving the rubber block with the hole from the feeding area (11) to the detection area (12), and the support frame (16) is further provided with a second moving assembly (18) for moving the rubber block with the hole from the detection area (12) to the defective product storage area (13) and the good product storage area (14).

2. The microphone component hole plugging detector according to claim 1, wherein: the automatic feeding device is characterized in that the workbench (1) is arranged in the feeding area (11), the defective product storage area (13) and the defective product storage area (14) are respectively provided with a linear module (3), the output end of the linear module (3) is provided with a bearing plate (31), and each bearing plate (31) is provided with a plurality of storage boxes (32) for placing rubber blocks with holes.

3. The microphone component hole plugging detector according to claim 2, wherein: each storage box (32) is internally inserted with a filling box (33), and the filling box (33) can be pulled out upwards from the storage box (32).

4. A microphone component hole plugging detector as defined in claim 3, wherein: the side wall of the storage box (32) is provided with a notch (331) penetrating into the filling box (33).

5. The microphone component hole plugging detector according to claim 1, wherein: the first moving assembly (17) and the second moving assembly (18) are identical in structure; the first moving assembly (17) comprises a first sliding table cylinder (171), a second sliding table cylinder (172) and an adsorption piece (173), the first sliding table cylinder (171) is arranged on the supporting frame (16), the second sliding table cylinder (172) is arranged on the output end of the first sliding table cylinder (171), the adsorption piece (173) is arranged on the output end of the second sliding table cylinder (172), the first sliding table cylinder (171) is used for driving the adsorption piece (173) to transversely move, the second sliding table cylinder (172) is used for driving the adsorption piece (173) to vertically move, and the adsorption piece (173) is used for adsorbing the rubber block with the hole.

6. The microphone component hole plugging detector according to claim 1, wherein: the detecting piece (151) is a CCD camera.

7. The microphone component hole plugging detector according to claim 2, wherein: the workbench (1) is provided with a bearing block (2) positioned below the detection piece (151), a pit (21) is formed in the upper end face of the bearing block (2), a glass plate (22) covered by the pit (21) is arranged at the top end of the bearing block (2), and a light-emitting piece (23) used for emitting light towards the direction of the glass plate (22) is arranged at the bottom end of the pit (21).

8. The microphone component hole plugging detector according to claim 7, wherein: the luminous element (23) is a blue luminous plate.

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