CN216990736U - Microphone gasket rigging equipment - Google Patents

Abstract

The utility model discloses microphone gasket assembling equipment, which belongs to the technical field of microphone assembly and comprises an assembling table, wherein a linear material channel is arranged on the assembling table, a gasket assembling mechanism is fixedly arranged above the linear material channel, a first material blocking cylinder and a second material blocking cylinder are arranged on the assembling table at a position close to the feeding end of the linear material channel at intervals, the first material blocking cylinder and the second material blocking cylinder stretch alternately and are used for automatically grouping shell vibrating diaphragm assemblies of gaskets to be assembled, a variable-pitch conveying mechanism is arranged in front of the assembling table and is used for moving the grouped shell vibrating diaphragm assemblies to the position of the gasket assembling mechanism and simultaneously expanding the arrangement interval of the shell vibrating diaphragm assemblies to facilitate assembly, and a material belt feeding mechanism is arranged in front of the gasket assembling mechanism and is used for driving a gasket material belt to continuously feed in a stepping manner.

Description

Microphone gasket rigging equipment

Technical Field

The utility model relates to the technical field of microphone assembly, in particular to microphone gasket assembly equipment.

Background

At present, in the microphone assembly, the assembly of gasket is carried out after the assembly vibrating diaphragm in the shell usually, and current gasket rigging equipment has degree of automation not high, relies on artificial not enough too much, leads to the assembly efficiency of microphone to be lower.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides microphone gasket assembling equipment which can automatically assemble microphone gaskets and is beneficial to improving the microphone assembling efficiency.

In order to solve the technical problems, the technical scheme adopted by the utility model is as follows:

a microphone gasket rigging equipment, includes the workstation, its characterized in that: the assembly table is arranged on the workbench, a linear material channel is arranged on the assembly table and used for conveying the shell vibrating diaphragm assembly, and a gasket assembly mechanism is arranged above the assembly table;

the gasket assembly mechanism comprises

The connecting seat is fixedly arranged on the assembling table, a material belt penetrating groove is formed in the bottom of the connecting seat, a sliding column is fixedly connected to the connecting seat, and the sliding column is vertically arranged;

the stamping cylinder is vertically arranged at the top of the connecting seat;

the stamping plate is fixedly connected to the lower end of a piston rod of the stamping cylinder and is in sliding connection with the sliding column;

a row of first punches and a row of second punches are fixedly connected to the bottom surface of the punching plate, the number of the second punches is equal to that of the first punches, and the diameter of the second punches is smaller than that of the first punches;

the assembly table is provided with an outer punched hole matched with the first punch, the outer punched hole vertically corresponds to the linear material channel, and the assembly table is provided with an inner punched hole matched with the second punch;

one side of the connecting seat is provided with a material belt feeding mechanism which comprises

The sliding guide rod is fixedly connected to the connecting seat, and the length direction of the sliding guide rod is perpendicular to the linear material channel;

the fixed table is fixedly arranged on the sliding guide rod, a first material belt cavity is formed in the fixed table, and a first clamping plate is arranged in the first material belt cavity in a sliding mode;

the first clamping cylinder is arranged on the fixed table and used for driving the first clamping plate to slide up and down;

the sliding table is arranged on the sliding guide rod in a sliding mode, a second material belt cavity is formed in the sliding table, and a second clamping plate is arranged in the first material belt cavity in a sliding mode;

the second clamping cylinder is arranged on the sliding table and used for driving the second clamping plate to slide up and down;

the pushing cylinder is arranged on the fixed table, a piston rod of the pushing cylinder is fixedly connected to the sliding table, and the telescopic stroke of the pushing cylinder is equal to the distance between the first punch and the second punch.

As a preferable technical scheme, one side of the assembly table is provided with a variable-pitch conveying mechanism, and the variable-pitch conveying mechanism comprises

The first sliding plate is connected to the workbench in a sliding mode, and the sliding direction of the first sliding plate is parallel to the linear material channel;

the feeding cylinder is arranged on the workbench and used for driving the first sliding plate to slide;

the second sliding plate is connected to the first sliding plate in a sliding mode, and the sliding direction of the second sliding plate is perpendicular to the linear material channel;

the clamping cylinder is arranged on the first sliding plate and used for driving the second sliding plate to slide;

the straight strip plate is fixedly connected to the second sliding plate;

the clamping plates are arranged on the straight strip plate at equal intervals, and the telescopic stroke of the feeding cylinder is equal to the distance between two adjacent clamping plates;

a plurality of arc-shaped clamping grooves for clamping a shell vibrating diaphragm assembly are arranged on each clamping plate at equal intervals, and the number of the arc-shaped clamping grooves on each clamping plate is equal to that of the first punches;

the distance between the clamping grooves in each clamping plate is gradually increased according to the conveying direction of the shell vibrating diaphragm assembly, and the distance between the clamping grooves in one clamping plate closest to the gasket assembling mechanism is equal to the arrangement distance of the first punches.

As a preferred technical scheme, one end of the assembling table is provided with a first material blocking cylinder and a second material blocking cylinder, and the distance between a piston rod of the first material blocking cylinder and a piston rod of the second material blocking cylinder is equal to the integral multiple of the diameter of the shell vibrating diaphragm assembly;

when the first material blocking cylinder and the second material blocking cylinder are in an extension state, piston rods on the first material blocking cylinder and the second material blocking cylinder can be intersected with the linear material channel;

and when the first material blocking cylinder and the second material blocking cylinder are in a contraction state, piston rods on the first material blocking cylinder and the second material blocking cylinder are not intersected with the linear material channel.

As a preferred technical scheme, a straight vibration conveyor is further arranged on the workbench and used for conveying the shell vibration membrane assembly assembled in the front-end procedure to the straight material channel.

As the preferred technical scheme, be equipped with on the assembly bench and collect the chamber, collect the chamber with interior intercommunication that punches a hole, it is provided with the collection box to collect the intracavity can be dismantled.

As a preferred technical scheme, one end of the linear material channel is provided with a blanking section, and the blanking section is arranged in a downward inclined mode along the conveying direction of the shell vibrating diaphragm assembly.

As a preferred technical scheme, an inclined material receiving disc is further arranged on the workbench and is arranged below the blanking section.

By adopting the technical scheme, compared with the prior art, the utility model has the following advantages:

1. through the first material blocking cylinder and the second material blocking cylinder which are arranged on the assembling table and stretch out and draw back alternately, the shell vibrating diaphragm assemblies can be automatically grouped according to a certain number at one end of the feeding of the straight line material channel, the number of each group of shell vibrating diaphragm assemblies is matched with the first punch, so that a plurality of shell vibrating diaphragm assemblies can be assembled once by punching the gasket assembling mechanism, and the assembling efficiency is improved.

2. Through the continuous cycle work of displacement conveying mechanism, can assemble the position that every group shell vibrating diaphragm subassembly of straight line material way one end removed to gasket assembly devices to at the in-process of carrying, the interval of shell vibrating diaphragm subassembly is gradually enlarged to the grip blocks that displacement conveying mechanism accessible a plurality of double-layered groove intervals are different, makes shell vibrating diaphragm subassembly arrange at the assembly position with suitable interval, makes things convenient for gasket assembly devices to assemble.

3. The material belt feeding mechanism and the gasket assembling mechanism are matched to work, so that continuous stepping feeding of the gasket material belt in the assembling process can be realized.

Drawings

FIG. 1 is a schematic structural diagram of a microphone pad mounting apparatus according to the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is a rear view of the assembly table of the present invention;

FIG. 4 is a schematic top view of the clamping plate of the present invention;

FIG. 5 is a schematic structural view of a gasket assembling mechanism and a tape feeding mechanism according to the present invention;

FIG. 6 is a schematic front view of the connecting socket of the present invention;

fig. 7 is a schematic bottom view of the stamping plate according to the present invention.

In the figure, the position of the upper end of the main shaft,

10-a workbench; 20-a direct vibration conveyor; 30-an assembly table; 31-a linear material channel; 311-blanking section; 32-punching outside; 33-punching inside; 34-a collection chamber; 35-a collection box; 36-a first material blocking cylinder; 37-a second material blocking cylinder; 40-a variable pitch conveying mechanism; 41-a first sliding plate; 42-a feed cylinder; 43-a second sliding plate; 44-a clamping cylinder; 45-straight lath; 46-a clamping plate; 461-arc-shaped clamping groove; 50-a shim assembly mechanism; 51-a connection seat; 511-the material belt penetrates through the groove; 512-sliding column; 52-a ram cylinder; 53-punching the plate; 531-a first punch; 532-a second punch; 60-a material belt feeding mechanism; 61-a sliding guide; 62-a fixed table; 621-a first belt chamber; 63-a first clamping plate; 64-a first clamping cylinder; 65-a push cylinder; 66-a slide table; 661-second belt chamber; 67-a second clamping plate; 68-a second clamping cylinder; 70-a receiving tray; 80-a housing diaphragm assembly.

Detailed Description

The utility model will be described more fully hereinafter with reference to the accompanying drawings.

As shown in fig. 1-7, a microphone pad assembling apparatus includes a workbench 10, a direct vibration conveyor 20, an assembling table 30 and a receiving tray 70 are sequentially disposed on the workbench 10 from right to left, a linear material channel 31 is disposed on the assembling table 30 along the left-right direction, the right end of the linear material channel 31 corresponds to the direct vibration conveyor 20, the direct vibration conveyor 20 conveys a casing diaphragm assembly 80 assembled by a front-end process to the linear material channel 31, a blanking section 311 is disposed at the left end of the linear material channel 31, the blanking section 311 is inclined downward from right to left, the receiving tray 70 is inclined below the blanking section 311, the receiving tray 70 is detachably connected to the workbench 10, so that the casing diaphragm assembly 80 is collected and transferred to a next process after assembling the pad, and the conveying direction of the casing diaphragm assembly 80 on the linear material channel 31 is from right to left.

A first material blocking cylinder 36 and a second material blocking cylinder 37 are fixedly arranged at the right end of the assembling table 30, piston rods on the first material blocking cylinder 36 and the second material blocking cylinder 37 are crossed with the linear material channel 31 in an extension state, the piston rods on the first material blocking cylinder 36 and the second material blocking cylinder 37 are not crossed with the linear material channel 31 in a contraction state, the first material blocking cylinder 36 is arranged at the left side of the second material blocking cylinder 37, the spacing distance between the piston rod on the first material blocking cylinder 36 and the piston rod on the second material blocking cylinder 37 is equal to the sum of the diameters of five shell diaphragm assemblies 80, when the assembling table works, the first material blocking cylinder 36 and the second material blocking cylinder 37 alternately stretch, when the first material blocking cylinder 36 extends and the second material blocking cylinder 37 contracts, the shell diaphragm assemblies 80 from the straight vibrating conveyor 20 are blocked at the positions of the piston rods on the first material blocking cylinder 36, and then the second material blocking cylinder 37 extends, the left five shell diaphragm assemblies 80 of the piston rod on the second material blocking cylinder 37 are separated from the right shell diaphragm assembly 80, then the first material blocking cylinder 36 contracts, at the moment, the state of the left five shell diaphragm assemblies 80 of the piston rod on the second material blocking cylinder 37 is a state to be clamped, the shell diaphragm assemblies 80 in the state to be clamped are clamped and move leftwards by the variable-pitch conveying mechanism 40 on one side of the assembling table 30, the first material blocking cylinder 36 and the second material blocking cylinder 37 continue to work circularly, the first material blocking cylinder 36 and the second material blocking cylinder 37 are used for automatically grouping the shell diaphragm assemblies 80, the distance between the piston rod on the first material blocking cylinder 36 and the piston rod on the second material blocking cylinder 37 determines the number of each group of shell diaphragm assemblies 80, and in the embodiment, the number of each group of shell diaphragm assemblies 80 is five.

The variable-pitch conveying mechanism 40 is arranged in front of the assembly table 30 and comprises a first sliding plate 41, a feeding cylinder 42, a second sliding plate 43 and a clamping cylinder 44, wherein the first sliding plate 41 is arranged on the workbench 10 in a left-right sliding manner, the feeding cylinder 42 is fixedly arranged on the workbench 10, a piston rod on the feeding cylinder 42 is fixedly connected with the first sliding plate 41, the first sliding plate 41 is driven to slide left and right by the extension and contraction of the feeding cylinder 42, the second sliding plate 43 is connected with the first sliding plate 41 in a front-back sliding manner, the clamping cylinder 44 is fixedly arranged on the first sliding plate 41, a piston rod on the clamping cylinder 44 is fixedly connected with the second sliding plate 43, the second sliding plate 43 is driven to slide back and forth by the clamping cylinder 44, a straight strip plate 45 is fixedly connected with the second sliding plate 43, five clamping plates 46 are fixedly connected with the straight strip plate 45 at equal intervals left and right, the height position of the clamping plates 46 corresponds to the outer shell diaphragm assembly 80 on the straight material channel 31, the center-to-center distance between two adjacent clamping plates 46 is D1, five equidistant arc-shaped clamping grooves 461 are arranged on the rear side edge of each clamping plate 46, the distance between the arc-shaped clamping grooves 461 on the first clamping plate 46 is the clamping groove distance D1, the distance between the arc-shaped clamping grooves 461 on the second clamping plate 46 is D2, the distance between the arc-shaped clamping grooves 461 on the third clamping plate 46 is D3, the clamping groove distance on the fourth clamping plate 46 is D4, the clamping groove distance on the fifth clamping plate 46 is D5, and the size relationship is D5> D4> D3> D2> D1.

Taking the conveying process of a set of shell diaphragm assemblies 80 as an example, to explain the working principle of the variable-pitch conveying mechanism 40, when the first sliding plate 41 is at the right side limit and the second sliding plate 43 is at the front side limit, the state of the variable-pitch conveying mechanism 40 is the initial state, the rightmost clamping plate 46 corresponds to the front and back of the set of shell diaphragm assemblies 80 to be clamped, the clamping cylinder 44 extends to drive the second sliding plate 43, the straight bar plate 45 and the clamping plate 46 to move backwards, the arc-shaped clamping groove 461 on the rightmost clamping plate 46 clamps the set of shell diaphragm assemblies 80 to be clamped, the feeding cylinder 42 extends, the telescopic stroke of the feeding cylinder 42 is equal to D1, therefore, the distance for pushing the set of shell diaphragm assemblies 80 to move leftwards is equal to D1, the clamping cylinder 44 contracts, the feeding cylinder 42 contracts, the variable-pitch conveying mechanism 40 returns to the initial state, at this time, the set of shell diaphragm assemblies 80 corresponds to the right second clamping plate 46 forwards and backwards, from the initial state, the variable pitch delivery mechanism 40 completes one cycle of operation.

The clamping cylinder 44 and the feeding cylinder 42 in the variable-pitch conveying mechanism 40 continue to work circularly, the right second clamping plate 46 continues to push the set of shell diaphragm assemblies 80 to move leftward by a distance D1, because the distance D2 between the clamping grooves of the right second clamping plate 46 is greater than the distance D1 between the clamping grooves of the rightmost clamping plate 46, when the right second clamping plate 46 clamps the set of shell diaphragm assemblies 80, the set of shell diaphragm assemblies 80 are distributed to the left and right sides, the arrangement pitch of the set of shell diaphragm assemblies 80 is once expanded, after five working cycles of the variable-pitch conveying mechanism 40, the distance that the whole set of shell diaphragm assemblies 80 moves leftward is five times D1, and meanwhile, the arrangement pitch of the set of shell diaphragm assemblies 80 is expanded by four stages, and the arrangement pitch of each shell diaphragm assembly 80 becomes D5.

When the first sliding plate 41 is limited at the left side and the second sliding plate 43 is limited at the rear side, the housing diaphragm assembly 80 held by the leftmost arc-shaped clamping plate is in a state to be assembled, a gasket assembling mechanism 50 is arranged on the assembly table 30 at a position corresponding to the leftmost arc-shaped clamping plate at the time, the gasket assembling mechanism 50 comprises a connecting seat 51 fixedly mounted on the assembly table 30, a vertical punching cylinder 52 is fixedly arranged at the top of the connecting seat 51, a punching plate 53 is fixedly connected to the lower end of a piston rod on the punching cylinder 52, a vertical sliding column 512 is fixedly connected to the connecting seat 51, the punching plate 53 is slidably connected to the sliding column 512, a row of first punches 531 and a row of second punches 532 are fixedly connected to the bottom surface of the punching plate 53, the number of the first punches 531 and the number of the second punches 532 are five, the distance between every two adjacent first punches 531 is equal to d5, five outer punching holes 32 matched with the first punches 531 are arranged on the assembly table 30, the outer punched holes 32 are arranged above the shell diaphragm assemblies 80 to be assembled and correspond to the shell diaphragm assemblies 80 to be assembled one by one, the second punches 532 are arranged behind the first punches 531, the five second punches 532 correspond to the five first punches 531 front and back, the front and back distances between the first punches 531 and the second punches 532 are D2, the diameter of the second punches 532 is slightly smaller than that of the first punches 531, and the assembly table 30 is provided with five inner punched holes 33 matched with the second punches 532.

A material belt penetrating groove 511 is formed in the bottom of the connecting seat 51, the gasket material belt penetrates through the material belt penetrating groove 511, a material belt feeding mechanism 60 is arranged in front of the connecting seat 51, the material belt feeding mechanism 60 comprises a sliding guide rod 61, a fixed table 62 and a sliding table 66, the sliding guide rod 61 is arranged in the front-back direction, the rear end of the sliding guide rod 61 is fixedly connected to the front side surface of the connecting seat 51, the fixed table 62 is fixedly connected to the sliding guide rod 61, the sliding table 66 is slidably connected to the sliding guide rod 61, the sliding table 66 is arranged in front of the fixed table 62, a first material belt cavity 621 is formed in the fixed table 62, a second material belt cavity 661 is formed in the sliding table 66, the gasket material belt penetrates through the first material belt cavity 621 and the second material belt cavity 661 respectively, a first clamping plate 63 which can slide up and down is arranged above the gasket material belt in the first material belt cavity 621, a first clamping cylinder 64 is fixedly arranged on the fixed table 62, a piston rod on the first clamping cylinder 64 is fixedly connected with the first clamping plate 63, by means of the cooperation of the first clamping plate 63 and the bottom surface of the first tape cavity 621, when the first clamping cylinder 64 is extended, the fixing table 62 clamps the gasket material tape, when the first clamping cylinder 64 contracts, the fixing table 62 loosens the gasket material belt, a second clamping plate 67 which slides up and down is arranged above the gasket material belt in the second material belt cavity 661, a second clamping cylinder 68 is fixedly arranged on the sliding table 66, a piston rod on the second clamping cylinder 68 is fixedly connected with the second clamping plate 67, and by means of the matching of the second clamping plate 67 and the bottom surface of the second material belt cavity 661, when the second clamping cylinder 68 extends, the sliding table 66 clamps the gasket material belt, when the second clamping cylinder 68 contracts, the sliding table 66 loosens the gasket material belt, a pushing cylinder 65 is arranged between the fixed table 62 and the sliding table 66, the cylinder body of the pushing cylinder 65 is fixedly connected to the fixed table 62, and the piston rod of the pushing cylinder 65 is fixedly connected with the sliding table 66.

Setting the first clamping cylinder 64 to extend, the second clamping cylinder 68 to contract, the contraction state of the push cylinder 65 as the initial state of the tape feeding mechanism 60, at this time, the gasket tape is clamped by the fixed table 62, when the tape feeding mechanism 60 in the initial state is in operation, firstly, the second clamping cylinder 68 extends, the sliding table 66 clamps the gasket tape, then, the first clamping cylinder 64 contracts, the fixed table 62 releases the gasket tape, the push cylinder 65 extends, the sliding table 66 slides forwards, the sliding table 66 drives the gasket tape to step forwards once, as the expansion stroke of the push cylinder 65 is equal to D2, the stepping distance of the gasket tape is equal to D2, then, the first clamping cylinder 64 extends, the fixed table 62 clamps the gasket tape, the gasket tape is prevented from retracting, the second clamping cylinder 68 contracts, the sliding table 66 releases the gasket tape, the push cylinder 65 contracts to pull the sliding table 66 backwards, thus, the material strip feeding mechanism 60 completes one working cycle, and the gasket material strip can be driven to continuously feed in a stepping manner along with the continuous cycle work of the material strip feeding mechanism 60.

When a set of shell diaphragm assemblies 80 is in a to-be-assembled state and the material belt feeding mechanism 60 is in an initial state, the stamping cylinder 52 extends to drive the first punch 531 and the second punch 532 on the stamping plate 53 to stamp downwards, the first punch 531 cooperates with the outer punching hole 32 to stamp out the outer circle of the annular gasket and press the annular gasket into the shell diaphragm assemblies 80, the set of shell diaphragm assemblies 80 completes the gasket assembly, meanwhile, the second punch 532 cooperates with the inner punching hole 33 to pre-stamp out the inner holes of the next row of annular gaskets to be assembled, then the stamping cylinder 52 contracts, the first punch 531 and the second punch 532 are lifted, the material belt feeding mechanism 60 drives the gasket material belt to step forwards once, the stepping distance of the gasket material belt and the front-back distance between the first punch 531 and the second punch 532 are both D2, therefore, the position of the pre-stamped inner holes on the material belt gasket moves to be right below the first punch 531, meanwhile, the working cycle of the variable-pitch conveying mechanism 40 is once, the next set of shell diaphragm assemblies 80 enters a to-be-assembled state, the stamping cylinder 52 drives the first punch 531 and the second punch 532 to perform stamping action again, and continuous and automatic assembly of the gasket and the shell diaphragm assemblies 80 can be realized through continuous cycle work of the variable-pitch conveying mechanism 40, the gasket assembling mechanism 50 and the material belt feeding mechanism 60 and cooperation of action time of the three.

The assembly table 30 is provided with a collecting cavity 34, the collecting cavity 34 is communicated with the inner punched hole 33, a collecting box 35 is detachably arranged in the collecting cavity 34, waste sheets blanked by the second punch 532 fall into the collecting box 35 in the collecting cavity 34, and the collecting box 35 can be conveniently detached and cleaned.

After the assembly of the shell diaphragm assembly 80 in the state to be assembled is completed, the shell diaphragm assembly is pushed to the left by the leftmost clamping plate 46 to the blanking section 311 along with the continuous action of the variable pitch conveying mechanism 40, and then falls into the receiving tray 70.

The foregoing shows and describes the general principles, principal features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed.

Claims (7)

1. Microphone pad mounting apparatus comprising a table (10), characterized in that: an assembly table (30) is arranged on the workbench (10), a linear material channel (31) is arranged on the assembly table (30), the linear material channel (31) is used for conveying the shell diaphragm assembly (80), and a gasket assembly mechanism (50) is arranged above the assembly table (30);

the gasket fitting mechanism (50) comprises

The assembling platform comprises a connecting seat (51) fixedly arranged on the assembling platform (30), a material belt penetrating groove (511) is formed in the bottom of the connecting seat (51), a sliding column (512) is fixedly connected to the connecting seat (51), and the sliding column (512) is vertically arranged;

the stamping cylinder (52) is vertically arranged at the top of the connecting seat (51);

the stamping plate (53) is fixedly connected to the lower end of a piston rod of the stamping cylinder (52), and the stamping plate (53) is connected with the sliding column (512) in a sliding mode;

a row of first punches (531) and a row of second punches (532) are fixedly connected to the bottom surface of the punching plate (53), the number of the second punches (532) is equal to that of the first punches (531), and the diameter of the second punches (532) is smaller than that of the first punches (531);

the assembly table (30) is provided with an outer punched hole (32) matched with the first punch (531), the outer punched hole (32) vertically corresponds to the linear material channel (31), and an inner punched hole (33) matched with the second punch (532) is arranged on the assembly table (30);

a material belt feeding mechanism (60) is arranged on one side of the connecting seat (51), and the material belt feeding mechanism (60) comprises

The sliding guide rod (61) is fixedly connected to the connecting seat (51), and the length direction of the sliding guide rod (61) is perpendicular to the linear material channel (31);

the fixing table (62) is fixedly arranged on the sliding guide rod (61), a first material belt cavity (621) is formed in the fixing table (62), and a first clamping plate (63) is arranged in the first material belt cavity (621) in a sliding mode;

the first clamping cylinder (64) is arranged on the fixed table (62) and used for driving the first clamping plate (63) to slide up and down;

the sliding table (66) is arranged on the sliding guide rod (61) in a sliding mode, a second feeding belt cavity (661) is formed in the sliding table (66), and a second clamping plate (67) is arranged in the first feeding belt cavity (621) in a sliding mode;

the second clamping cylinder (68) is arranged on the sliding table (66) and is used for driving the second clamping plate (67) to slide up and down;

the pushing cylinder (65) is arranged on the fixing table (62), a piston rod of the pushing cylinder (65) is fixedly connected to the sliding table (66), and the telescopic stroke of the pushing cylinder (65) is equal to the distance between the first punch (531) and the second punch (532).

2. A microphone pad mounting apparatus as claimed in claim 1, wherein: one side of the assembly table (30) is provided with a variable-pitch conveying mechanism (40), and the variable-pitch conveying mechanism (40) comprises

The first sliding plate (41) is connected to the workbench (10) in a sliding mode, and the sliding direction of the first sliding plate (41) is parallel to the linear material channel (31);

the feeding air cylinder (42) is arranged on the workbench (10) and is used for driving the first sliding plate (41) to slide;

the second sliding plate (43) is connected to the first sliding plate (41) in a sliding mode, and the sliding direction of the second sliding plate (43) is perpendicular to the linear material channel (31);

the clamping cylinder (44) is arranged on the first sliding plate (41) and is used for driving the second sliding plate (43) to slide;

a straight strip plate (45) fixedly connected to the second sliding plate (43);

the clamping plates (46) are arranged on the straight strip plate (45) at equal intervals, and the telescopic stroke of the feeding cylinder (42) is equal to the distance between two adjacent clamping plates (46);

a plurality of arc-shaped clamping grooves (461) for clamping the shell diaphragm assembly (80) are equidistantly arranged on each clamping plate (46), and the number of the arc-shaped clamping grooves (461) on each clamping plate (46) is equal to that of the first punches (531);

the distance between the clamping grooves on the clamping plates (46) is gradually increased according to the conveying direction of the shell diaphragm assembly (80), and the distance between the clamping grooves on one clamping plate (46) closest to the gasket assembly mechanism (50) is equal to the arrangement distance of the first punches (531).

3. A microphone pad mounting apparatus as claimed in claim 1, wherein: a first material blocking cylinder (36) and a second material blocking cylinder (37) are arranged at one end of the assembling table (30), and the distance between a piston rod of the first material blocking cylinder (36) and a piston rod of the second material blocking cylinder (37) is equal to the integral multiple of the diameter of the shell vibrating diaphragm assembly (80);

when the first material blocking cylinder (36) and the second material blocking cylinder (37) are in an extension state, piston rods on the first material blocking cylinder and the second material blocking cylinder can be intersected with the linear material channel (31);

and piston rods on the first material blocking cylinder (36) and the second material blocking cylinder (37) are not intersected with the linear material channel (31) in a contraction state.

4. A microphone pad mounting apparatus as claimed in claim 1, wherein: the workbench (10) is also provided with a direct vibration conveyor (20) for conveying the shell vibrating diaphragm assembly (80) assembled in the front end procedure to the linear material channel (31).

5. A microphone pad mounting apparatus as claimed in claim 1, wherein: be equipped with on assembly bench (30) and collect chamber (34), collect chamber (34) with interior punching a hole (33) intercommunication, can dismantle in collecting chamber (34) and be provided with collection box (35).

6. A microphone pad mounting apparatus as claimed in claim 1, wherein: one end of the linear material channel (31) is provided with a blanking section (311), and the blanking section (311) is arranged in a downward inclined mode along the conveying direction of the shell vibrating diaphragm component (80).

7. A microphone pad mounting apparatus as claimed in claim 6, wherein: an inclined material receiving disc (70) is further arranged on the workbench (10), and the material receiving disc (70) is arranged below the blanking section (311).

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