CN114273732B - Multistation high accuracy automated processing equipment is used in muffler production - Google Patents

Abstract

The invention discloses multi-station high-precision automatic processing equipment for silencer production, which comprises a chamfering machine, wherein a fixing seat is arranged on the chamfering machine and is fixedly connected with a bottom plate; the driving assembly is arranged on the bottom plate; the moving assembly is arranged above the bottom plate and connected with the driving assembly; the cleaning component is arranged on the moving component and is connected with the driving component, the multi-station high-precision automatic processing equipment for silencer production relates to the technical field of silencer production, and solves the problem that chips generated when chamfering the silencer by an original chamfering machine can fall into all corners of the equipment through the matching operation of the driving component, the moving component and the cleaning component, so that follow-up difficult cleaning is caused.

Description

Multistation high accuracy automated processing equipment is used in muffler production

Technical Field

The invention relates to the technical field of silencer production, in particular to multi-station high-precision automatic processing equipment for silencer production.

Background

The muffler refers to an air flow pipeline with noise transmission, and can attenuate or reflect noise in the pipeline by using a pipeline with a sound absorption lining, an elbow, a pipeline with suddenly changed sectional area and other discontinuous acoustic impedance and other noise reduction devices, wherein the former is called a resistive muffler, and the latter is called a resistive muffler, and also has an impedance composite muffler.

At present, after the muffler is manufactured, the muffler is placed into chamfering equipment to be subjected to chamfering sequentially, the muffler is placed into the chamfering equipment, after both ends of the muffler are chamfered, the muffler is uniformly collected, but when the muffler is chamfered, a large amount of scraps can fall down, and the scraps can fall into corners of a machine, so that the later cleaning is inconvenient. Therefore, we propose a multi-station high-precision automatic processing device for silencer production.

Disclosure of Invention

The invention aims to provide multi-station high-precision automatic processing equipment for silencer production, which solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: multistation high accuracy automated processing equipment is used in muffler production includes: the chamfering machine is provided with a fixing seat and is fixedly connected with a bottom plate; further comprises: the driving assembly is arranged on the bottom plate; the moving assembly is arranged above the bottom plate and connected with the driving assembly; the cleaning assembly is arranged on the moving assembly and is connected with the driving assembly, and therefore the problem that chips generated when chamfering a silencer by an original chamfering machine can fall into all corners of equipment, and follow-up cleaning difficulty is caused is solved.

Preferably, the driving assembly comprises a mounting seat which is arranged on the bottom plate and fixedly connected with the bottom plate, a motor is fixedly connected to the mounting seat, a coupler is fixedly connected to the output end of the motor, a first rotating shaft is fixedly connected to the motor through the coupler, and a gear column is fixedly connected to the first rotating shaft, so that the driving assembly and the cleaning assembly can be driven to operate simultaneously.

Preferably, the movable assembly comprises a reciprocating screw rod fixedly connected with the first rotating shaft, one end of the reciprocating screw rod, which is far away from the first rotating shaft, is rotationally connected with a first fixed block fixedly connected with the bottom plate, and is in threaded connection with a first movable block, a sliding box which is fixedly connected with the chamfering machine in sliding connection is arranged on the first movable block, a second movable block which is fixedly connected with the first rotating shaft in sliding connection is arranged at the bottom end of the sliding box, a plurality of groups of electrifying seats are fixedly connected with the inner wall of the sliding box, and electromagnetic rods are arranged on the electrifying seats, so that falling chips can be adsorbed more comprehensively.

Preferably, the cleaning assembly comprises a second fixed block which is arranged on the chamfering machine and is fixedly connected with the chamfering machine, the second fixed block is movably connected with a second rotating shaft which is rotationally connected with a second moving block, the second rotating shaft is fixedly connected with a first gear which is in meshed connection with a gear column, the second gear is fixedly connected with the second gear, a third gear which is in meshed connection with the second gear is rotationally connected with the sliding box, an eccentric shaft is fixedly connected with the position of a circle center deviating from the third gear, the eccentric shaft is slidably connected with a moving ring, two sides of the moving ring are respectively provided with a connecting rod with one end fixedly connected with the connecting rod, the other end of the connecting rod is fixedly connected with a connecting block, a sliding groove is formed in the sliding box, a sliding block which is fixedly connected with two groups of connecting blocks is slidably connected with the sliding box through the sliding grooves, a plurality of groups of supporting shafts are fixedly connected with the sliding plate which is slidably connected with the sliding box, the number of the supporting shafts is identical to that the electromagnetic rods are in meshed connection, the sliding box is fixedly connected with the electromagnetic rods, the sliding rod is fixedly connected with the sliding rod, the sliding rod is provided with a sliding rod is connected with a magnetic rod, and the electromagnetic rod is favorably to clean the electromagnetic rod through the sliding rod.

Preferably, the processing mechanism comprises a collecting box which is arranged in the sliding box and is in sliding connection with the drawing groove, and a handle is fixedly connected to the collecting box, so that further processing of cleaned scraps is facilitated.

Preferably, both ends of the reciprocating screw rod are fixedly connected with limiting blocks, so that the first movable block is more stable in connection with the multifilament rod.

Preferably, the plurality of groups of the power-on seats are horizontally and equidistantly arranged in the sliding box, so that the adsorption of chips is more comprehensive.

Preferably, the material of collecting box is wear-resisting metal material for the collecting box is more durable.

Preferably, the handle is provided with anti-skid patterns, which is beneficial to being more stable when the handle is pulled.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, through the cooperation of the driving assembly, the moving assembly and the cleaning assembly, the problem that the chips generated when the chamfering machine is used for chamfering the silencer can fall on all corners of equipment in the prior art, so that the follow-up problem that the chips are difficult to clean is solved, the moving assembly is driven to operate through the driving assembly, the fallen chips are uniformly adsorbed and collected, and meanwhile, the cleaning assembly is driven to operate, so that the adsorbed chips are uniformly cleaned, and the overall practicability is effectively improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of another view of the finishing structure of the present invention;

FIG. 3 is an enlarged view of area A of FIG. 2;

FIG. 4 is a schematic view of a partial structure of the present invention;

FIG. 5 is an enlarged view of area B of FIG. 4;

FIG. 6 is an enlarged view of region C of FIG. 4;

FIG. 7 is a schematic view showing the internal structure of the sliding box according to the present invention;

Fig. 8 is an enlarged view of region D in fig. 7.

In the figure: 1-a chamfering machine; 2-fixing seats; 3-a bottom plate; 4-a drive assembly; 5-moving the assembly; 6-cleaning the assembly; 7-a mounting seat; 8-an electric motor; a 9-coupling; 10-a first rotating shaft; 11-a gear column; 12-a reciprocating screw rod; 13-a first fixed block; 14-a first moving block; 15-a slide box; 16-a second moving block; 17-electrifying seats; 18-an electromagnetic rod; 19-a second fixed block; 20-a second rotating shaft; 21-a first gear; 22-a second gear; 23-a third gear; 24-eccentric shaft; 25-moving the ring; 26-connecting rods; 27-connecting blocks; 28-a sliding groove; 29-a slider; 30-sliding plate; 31-a support shaft; 32-sliding sleeve; 33-a pull groove; 34-a processing mechanism; 35-a collection box; 36-handle; 37-limiting block.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1-8, the present invention provides a technical solution: multistation high accuracy automated processing equipment is used in muffler production includes: the chamfering machine 1, the chamfering machine 1 is provided with a fixing seat 2, and is fixedly connected with a bottom plate 3; further comprises: the driving assembly 4 is arranged on the bottom plate 3; the moving assembly 5 is arranged above the bottom plate 3 and is connected with the driving assembly 4; the cleaning component 6, the cleaning component 6 is arranged on the moving component 5 and is connected with the driving component 4.

Referring to fig. 2-3, in the drawings, the driving assembly 4 includes a mounting seat 7 disposed on the bottom plate 3 and fixedly connected with the bottom plate, a motor 8 is fixedly connected to the mounting seat 7, an output end of the motor 8 is fixedly connected to a coupling 9, and a first rotating shaft 10 is fixedly connected to the coupling 9, and a gear column 11 is fixedly connected to the first rotating shaft 10.

Referring to fig. 4-6, the moving assembly 5 in the drawings includes a reciprocating screw 12 fixedly connected with a first rotating shaft 10, a first fixing block 13 fixedly connected with a bottom plate 3 is rotatably connected to one end of the reciprocating screw 12 far away from the first rotating shaft 10, and is in threaded connection with a first moving block 14, a sliding box 15 slidably connected with the chamfering machine 1 is fixedly connected to the first moving block 14, a second moving block 16 slidably connected with the first rotating shaft 10 is fixedly connected to the bottom end of the sliding box 15, a plurality of groups of energizing seats 17 are fixedly connected to the inner wall of the sliding box 15, and electromagnetic rods 18 are mounted on the energizing seats 17, wherein in order to make the movement of the first moving block 14 on the reciprocating screw 12 more stable, limiting blocks 37 are fixedly connected to two ends of the reciprocating screw 12, and in addition, in order to make the electromagnetic rods 18 collect chips more comprehensively, the plurality of groups of energizing seats 17 are horizontally and equidistantly arranged in the sliding box 15.

When the chamfering machine 1 polishes the muffler in turn, a large amount of scraps can be produced, in order to clean the scraps that drop, motor 8 on mount pad 7 is opened, motor 8 drives first pivot 10 through shaft coupling 9 and rotates, first pivot 10 drives the reciprocal lead screw 12 rather than fixed connection simultaneously and rotates, threaded connection through reciprocal lead screw 12 and first movable block 14, reciprocal lead screw 12 drives first movable block 14 and reciprocates between two sets of limit piece 37 when rotating, and simultaneously drive sliding box 15 and reciprocate on chamfering machine 1, and sliding box 15 further drives second movable block 16 and reciprocate on first pivot 10, when sliding box 15 is in reciprocating sliding process, because sliding box 15 is located the below of fixing base 2, when fixing base 2 cooperation polishing tool bit is chamfering the muffler, connect electric electromagnetic rod 18 and be driven by sliding box 15 through circular telegram seat 17, adsorb the scraps that will drop, simultaneously first pivot 10 is when rotating, drive gear post 11 rather than fixed connection simultaneously and rotate, and drive the work is carried out in real-time and is cleared up in the electromagnetic rod 18 through gear post 11 and drive assembly 6.

Example 2

Referring to fig. 4-8, embodiment 2 is further described, in this embodiment, the cleaning assembly 6 includes a second fixing block 19 disposed on the chamfering machine 1 and fixedly connected with the same, the second fixing block 19 is movably connected with a second rotating shaft 20 rotatably connected with the second moving block 16, the second rotating shaft 20 is fixedly connected with a first gear 21 engaged with the gear post 11 and fixedly connected with a second gear 22, a third gear 23 engaged with the second gear 22 is rotatably connected with the sliding box 15, an eccentric shaft 24 is fixedly connected with the third gear 23 at a position deviating from the center of the circle, a moving ring 25 is slidably connected with the eccentric shaft 24, connecting rods 26 with one ends fixedly connected with the moving ring 25 are disposed on both sides of the moving ring 25, connecting rods 26 are fixedly connected with connecting blocks 27 at the other ends of the connecting rods, sliding grooves 28 are formed in the sliding box 15, sliding blocks 29 fixedly connected with the two groups of connecting blocks 27 through the sliding grooves 28, sliding plates 30 fixedly connected with the sliding boxes 15, a plurality of groups of supporting shafts 31 are fixedly connected with the sliding plates 30, the number of the supporting shafts 31 is the same as that of the electromagnetic rods 18, and the bottom ends of the electromagnetic rods are fixedly connected with the electromagnetic rods 33 through sliding sleeves 33, and the electromagnetic rods are fixedly connected with the bottom ends of the electromagnetic rods 33.

When the first rotating shaft 10 drives the gear column 11 to rotate, the gear column 11 drives the first gear 21 to rotate simultaneously through the meshing connection of the gear column 11 and the first gear 21, the first gear 21 further drives the second rotating shaft 20 to rotate simultaneously, the second gear 22 on the second rotating shaft 20 rotates simultaneously, and when the sliding box 15 drives the second moving block 16 to slide reciprocally on the first rotating shaft 10, the second moving block 16 drives the second rotating shaft 20 to move simultaneously, the first gear 21 always keeps a meshing state with the gear column 11, meanwhile, because the second gear 22 is connected with the meshing connection of the third gear 23, the second gear 22 drives the third gear 23 to rotate simultaneously during rotation, the third gear 23 drives the eccentric shaft 24 fixedly connected with the third gear 23 to rotate simultaneously during rotation, and the eccentric shaft 24 slides simultaneously with the inner wall of the moving ring 25 as the circle center, so as to drive the moving ring 25 to move horizontally on one side of the sliding box 15, and simultaneously drive the connecting rods 26 on two sides during movement, and drive the connecting rods 26 to move simultaneously, and drive the connecting rods 26 to move reciprocally on the sliding box 27 to move reciprocally on the sliding box 29, and then drive the sliding blocks to slide on the sliding blocks 29 to slide reciprocally on the sliding box 18, and further slide on the sliding blocks 30, and the sliding rods 30 can further slide on the sliding blocks 30 are cleaned by the sliding rods 30, and the sliding rods are further processed by the sliding rods 30 are cleaned by the sliding rods 30.

Example 3

Referring to fig. 7-8, embodiment 3 is further described, in which the processing mechanism 34 includes a collecting box 35 disposed in the sliding box 15 and slidably connected to the drawing slot 33, and a handle 36 is fixedly connected to the collecting box 35, wherein, in order to make the collecting box 35 more durable as a whole, the collecting box 35 is made of a wear-resistant metal material, and in addition, in order to make the pulling of the handle 36 more stable and convenient, the handle 36 is provided with anti-skidding patterns.

The cleaned scraps fall into the collecting box 35 at the bottom end of the sliding box 15, the collecting box 35 is spliced with the sliding box 15, the scraps cannot fall out of the sliding box 15 due to the back and forth movement of the sliding box 15, the collecting box 35 is enabled to slide outwards in the sliding box 15 through the drawing groove 33 by pulling the handle 36 until the collecting box 35 is entirely drawn out, and the scraps in the collecting box 35 are poured out.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Multistation high accuracy automated processing equipment is used in muffler production, its characterized in that includes:

The chamfering machine (1), the chamfering machine (1) is provided with a fixing seat (2) and is fixedly connected with a bottom plate (3);

Further comprises:

The driving assembly (4) is arranged on the bottom plate (3);

The moving assembly (5) is arranged above the bottom plate (3) and is connected with the driving assembly (4);

The cleaning assembly (6) is arranged on the moving assembly (5) and is connected with the driving assembly (4);

The movable assembly (5) comprises a reciprocating screw rod (12) fixedly connected with a first rotating shaft (10), one end, far away from the first rotating shaft (10), of the reciprocating screw rod (12) is rotationally connected with a first fixed block (13) fixedly connected with the bottom plate (3), a first movable block (14) is in threaded connection with the first movable block, a sliding box (15) fixedly connected with the chamfering machine (1) is fixedly connected to the first movable block (14), a second movable block (16) fixedly connected with the first rotating shaft (10) is fixedly connected to the bottom end of the sliding box (15), a plurality of groups of electrifying seats (17) are fixedly connected to the inner wall of the sliding box, and electromagnetic rods (18) are arranged on the electrifying seats (17);

The cleaning component (6) comprises a second fixed block (19) which is arranged on the chamfering machine (1) and fixedly connected with the chamfering machine, the second fixed block (19) is movably connected with a second rotating shaft (20) which is rotationally connected with a second moving block (16), the second rotating shaft (20) is fixedly connected with a first gear (21) which is meshed with a gear column (11) and is fixedly connected with a second gear (22), a third gear (23) which is rotationally connected with the second gear (22) and is meshed with the second gear (22) is rotationally connected with the sliding box (15), an eccentric shaft (24) is fixedly connected with a deviating circle center part on the third gear (23), a moving ring (25) is slidably connected with the eccentric shaft (24), connecting rods (26) with one ends fixedly connected with the moving ring (25) are respectively arranged on two sides of the eccentric shaft, connecting rods (26) are fixedly connected with connecting blocks (27) with one ends of the eccentric shaft, sliding grooves (28) are formed in the sliding box (15), a plurality of groups of sliding blocks (29) are fixedly connected with a plurality of sliding plates (30) through the sliding grooves (28), the number of the supporting shafts (31) is the same as that of the electromagnetic rods (18), the sliding sleeves (32) are fixedly connected with the electromagnetic rods (18) in sliding connection, the bottom end of the sliding box (15) is provided with a drawing groove (33), and a processing mechanism (34) is connected through the drawing groove (33).

2. The multi-station high-precision automatic processing equipment for silencer production according to claim 1, wherein the equipment comprises the following components: the driving assembly (4) comprises a mounting seat (7) which is arranged on the bottom plate (3) and fixedly connected with the bottom plate, a motor (8) is fixedly connected to the mounting seat (7), a coupler (9) is fixedly connected to the output end of the motor (8), a first rotating shaft (10) is fixedly connected to the motor through the coupler (9), and a gear column (11) is fixedly connected to the first rotating shaft (10).

3. The multi-station high-precision automatic processing equipment for silencer production according to claim 1, wherein the equipment comprises the following components: the processing mechanism (34) comprises a collecting box (35) which is arranged in the sliding box (15) and is in sliding connection with the drawing groove (33), and a handle (36) is fixedly connected to the collecting box (35).

4. The multi-station high-precision automatic processing equipment for silencer production according to claim 1, wherein the equipment comprises the following components: limiting blocks (37) are fixedly connected to two ends of the reciprocating screw rod (12).

5. The multi-station high-precision automatic processing equipment for silencer production according to claim 1, wherein the equipment comprises the following components: the plurality of groups of energizing seats (17) are horizontally and equidistantly arranged in the sliding box (15).

6. A multi-station high-precision automated processing apparatus for muffler production as defined in claim 3, wherein: the collecting box (35) is made of wear-resistant metal.

7. A multi-station high-precision automated processing apparatus for muffler production as defined in claim 3, wherein: the handle (36) is provided with anti-skid patterns.