CN114273493B - Forming machine for processing sealing gasket - Google Patents

Abstract

The application discloses a forming machine for processing a sealing gasket, which comprises: the buffer plate is used for placing the sealing gasket and the stamping mechanism is used for stamping the sealing gasket; further comprises: the fixed disc and the stamping mechanism are both arranged on the operation table, a stamping groove aligned with the stamping mechanism is formed in the fixed disc, and the buffer plate is arranged in the stamping groove; a positioning piece; the intermittent assembly is arranged on the operation table and used for driving the conveying ring to intermittently rotate; according to the application, the intermittent assembly drives the transport ring to intermittently rotate, each time of rotation can enable the locating piece to rotate away from the stamping groove, and enable the other locating piece to rotate to coincide with the stamping groove, the sealing gasket in the locating piece can fall onto the buffer plate in the stamping groove, and then the stamping mechanism descends to stamp the sealing gasket, so that the sealing gasket can be automatically replaced after stamping forming, and the problem that the sealing gasket is accidentally damaged due to manual replacement is avoided.

Description

Forming machine for processing sealing gasket

Technical Field

The application relates to the technical field of sealing gasket processing, in particular to a forming machine for sealing gasket processing.

Background

The sealing gasket is a sealing spare part for machines, equipment and pipelines, which is needed in places with fluid, and is made of metal or nonmetal plate materials through cutting, stamping or cutting and other processes, and is commonly used for sealing connection between pipelines or sealing connection between parts of machine equipment and parts.

As shown in fig. 1, the existing forming machine for processing the sealing gasket is characterized in that the sealing gasket is placed on a buffer cushion, a lifting cylinder drives a lifting plate to move to a proper height position, an ejection cylinder drives a pressing block to descend, the sealing gasket is subjected to stamping forming, and then a worker takes away the stamped sealing gasket; however, when the sealing gasket is produced in such a way, the sealing gasket needs to be manually replaced after each stamping is finished, the stamping mechanism is extremely easy to cause accidental injury to workers, and the sealing gasket is extremely easy to skew when placed, so that the stamping mechanism cannot be aligned.

Disclosure of Invention

The application aims to provide a forming machine for processing a sealing gasket, which solves the following technical problems:

after each stamping, the sealing gasket needs to be manually replaced, the stamping mechanism is extremely easy to cause accidental injury to workers, and the sealing gasket is extremely easy to skew when placed, so that the stamping mechanism cannot be aligned.

The aim of the application can be achieved by the following technical scheme:

a sealing gasket processing molding machine, comprising:

the buffer plate is used for placing the sealing gasket and the stamping mechanism is used for stamping the sealing gasket;

further comprises:

the fixed disc and the stamping mechanism are both arranged on the operation table, a stamping groove aligned with the stamping mechanism is formed in the fixed disc, and the buffer plate is arranged in the stamping groove;

the positioning pieces are connected through a conveying ring, and the conveying ring is coaxially and rotatably connected with the fixed disc and is used for conveying the sealing gasket into the punching groove; and

the intermittent assembly is arranged on the operation table and used for driving the conveying ring to intermittently rotate.

As a further scheme of the application: the positioning piece is detachably connected with the transport ring.

As a further scheme of the application: the buffer plate is slidably mounted in the stamping groove, and is connected with the inner wall of the stamping groove through the elastic piece.

As a further scheme of the application: the elastic piece is internally provided with a guide rod for guiding the deformation path of the elastic piece.

As a further scheme of the application: the intermittent assembly includes:

the turntable is rotatably arranged on the operation table and is driven to rotate by the power assembly;

the push rod is arranged on the protruding part of the turntable;

the first rotating piece is coaxially and fixedly connected with the conveying ring; and

the first sliding grooves are circumferentially distributed on the first rotating piece, the number of the first sliding grooves is the same as that of the positioning pieces, and the first sliding grooves are arranged on the moving path of the push rod.

As a further scheme of the application: the number of the fixed discs is multiple, the plurality of the conveying rings are respectively and fixedly connected with the plurality of the first rotating pieces in a coaxial mode, and the power assembly drives the plurality of the first rotating pieces to intermittently rotate through the rotary disc.

As a further scheme of the application: the power assembly includes:

one end of the cam is provided with a transmission rod, and the other end of the cam is driven to rotate by a driving source;

the second rotating piece is coaxially and fixedly connected with the turntable; and

the second sliding grooves are circumferentially distributed on the second rotating piece, the number of the second sliding grooves is the same as that of the fixed discs, and the second sliding grooves are arranged on the moving path of the transmission rod.

As a further scheme of the application: the blanking plate is arranged in the buffer plate in a sliding mode, a falling groove matched with the stamping mechanism is formed in the central shaft of the blanking plate, a second magnetic piece is arranged on the blanking plate and is magnetically attracted with a first magnetic piece arranged on the buffer plate, two ends of the blanking plate are respectively connected with output ends of two lifting driving sources, and a collecting box for collecting sealing gaskets after stamping is arranged at the position, corresponding to the lower portion of the blanking plate, of the operating platform.

As a further scheme of the application: the stamping groove is internally provided with a limiting block used for limiting the buffer plate, the limiting block is provided with a travel switch electrically connected with the lifting driving source, and the travel switch is interfered with the limiting block.

The application has the beneficial effects that:

(1) According to the application, the intermittent assembly drives the transport ring to intermittently rotate, each time of rotation can enable the locating piece to rotate away from the stamping groove, and enable the other locating piece to rotate to coincide with the stamping groove, the sealing gasket in the locating piece can fall onto the buffer plate in the stamping groove, and then the stamping mechanism descends to stamp the sealing gasket, so that the sealing gasket can be automatically replaced after stamping forming, and the problem that the sealing gasket is accidentally damaged due to manual replacement is avoided;

(2) According to the application, the stamping groove is arranged below the stamping mechanism, so that the sealing gasket moved to the moment can drop into the stamping groove, the positioning of the sealing gasket during replacement is realized, the sealing gasket can be aligned with the stamping mechanism, and the accuracy of stamping forming is ensured;

(3) According to the application, the intermittent rotation of the first rotating pieces is sequentially triggered by the power component, so that the transport rings can sequentially perform intermittent rotation, a plurality of sealing gaskets can be synchronously punched and formed on the fixed plates, and the yield of the sealing gaskets is improved;

(4) According to the application, when the buffer plate descends to be in contact with the limiting block, the limiting block can limit the buffer plate, and the travel switch on the limiting block can be triggered, so that one lifting driving source descends, the blanking plate is inclined, and the seal gasket after stamping forming can enter the collecting box, so that automatic blanking of the seal gasket after stamping forming is realized.

Drawings

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

FIG. 1 is a schematic diagram of a prior art structure;

FIG. 2 is a schematic diagram of the overall structure of the present application;

FIG. 3 is a schematic view of a positioning member according to the present application;

FIG. 4 is a schematic view of the structure of the baffle plate of the present application;

FIG. 5 is an enlarged partial schematic view of the present application at A in FIG. 4;

FIG. 6 is a schematic view of the construction of the intermittent assembly of the present application;

fig. 7 is a schematic view of the power assembly of the present application.

In the figure: 1. a fixed plate; 2. stamping a groove; 3. a transport ring; 4. a positioning piece; 5. an intermittent assembly; 501. a turntable; 502. a groove; 503. a push rod; 504. a first rotating member; 505. a first chute; 6. a power assembly; 601. a cam; 602. a transmission rod; 603. a second rotating member; 604. a second chute; 7. a buffer plate; 8. a limiting block; 9. an elastic member; 10. a guide rod; 11. a blanking plate; 12. a first magnetic member; 13. a second magnetic member; 14. a drop groove; 15. a lifting driving source; 16. a collection box; 17. and a stamping mechanism.

Detailed Description

The following description of the embodiments of the present application 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 application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 2-5, the present application is a forming machine for processing a sealing gasket, comprising:

a buffer plate 7 for placing the sealing gasket and a punching mechanism 17 for punching the sealing gasket;

further comprises:

a fixed disk 1 and a stamping mechanism 17 are both installed on the operation table, a stamping groove 2 aligned with the stamping mechanism 17 is arranged on the fixed disk 1, and a buffer plate 7 is arranged in the stamping groove 2;

the positioning pieces 4 are connected through a conveying ring 3, and the conveying ring 3 is coaxially and rotatably connected with the fixed disc 1 and is used for conveying the sealing gasket into the stamping groove 2; and

the intermittent assembly 5 is arranged on the operation table and is used for driving the conveying ring 3 to intermittently rotate.

It should be noted that, the pressing mechanism 17 in the present application is a prior art, and the present application is not improved, so that specific mechanical structures and circuit structures thereof are not required to be disclosed, and the integrity of the present application is not affected.

In one case of the present embodiment, the positioning member 4 is annular, and when it coincides with the punching groove 2, the sealing gasket in the positioning member 4 falls into the punching groove 2; only one sealing gasket can be placed in the positioning piece 4, the symmetrical block structure shown in fig. 2 can be selected as the positioning piece 4, and the annular rod structure can also be selected, so long as the sealing gasket can be positioned in the positioning piece and can be driven to move when the transportation ring 3 rotates, and the embodiment is not limited specifically.

In practical application, the feeding mechanism of the sealing gasket and a positioning piece 4 which is not overlapped with the stamping groove 2 are aligned, only one sealing gasket falls into the positioning piece 4, the intermittent assembly 5 drives the transportation ring 3 to intermittently rotate, each rotation can enable the positioning piece 4 for loading the sealing gasket to rotate away from the feeding mechanism, and when the rotation stops, the other positioning piece 4 is rotated below the feeding mechanism and loads the fallen sealing gasket; when the positioning piece 4 rotates to be overlapped with the stamping groove 2, the sealing gasket falls onto the buffer plate 7 in the stamping groove 2, and then the stamping mechanism 17 descends and stamps the sealing gasket; after the punching press is finished, intermittent type subassembly 5 can drive transportation ring 3 and rotate once more for another locating part 4 that loads sealing gasket changes to with punching press groove 2 coincidence, so reciprocating, can realize automatic sealing gasket that changes after the stamping forming, avoid the manual work to change sealing gasket by the problem of accidental injury, the sealing gasket that the punching press groove 2 set up makes to this removal can drop into punching press inslot 2, has realized the location to sealing gasket when changing sealing gasket, makes it can align with punching press mechanism 17, has ensured stamping forming's accuracy.

As shown in fig. 2-3, as a preferred embodiment of the present application, the positioning member 4 is detachably connected to the carrier ring 3.

In one case of this embodiment, the positioning member 4 and the transportation ring 3 may be assembled by a snap-fit manner, or may be assembled by a threaded connection manner, so long as the positioning member and the transportation ring can be disassembled, which is not limited herein.

In practical application, the positioning piece 4 and the conveying ring 3 are detached and separated, so that the positioning piece 4 with different sizes can be replaced, the processing of the sealing gaskets with different sizes is realized, and the practicability of the forming machine is improved.

As shown in fig. 3 to 5, as a preferred embodiment of the present application, the buffer plate 7 is slidably installed in the punching groove 2, and the buffer plate 7 is connected to the inner wall of the punching groove 2 by an elastic member 9.

In one case of this embodiment, the elastic member 9 may be a spring as shown in fig. 5, or may be replaced by another elastic member, such as a silica gel column, a spring plate, etc., which is not limited in this embodiment.

In the practical application of this embodiment, under the initial condition, buffer board 7 is located the highest end of its travel path, sealing gasket falls on it, punching press mechanism 17 descends and carries out stamping forming to sealing gasket, then buffer board 7 because punching press mechanism 17's effort decline, elastic component 9 stretches, elastic component 9 resumes the elasticity of deformation and makes sealing gasket have ascending potential energy, opposite with punching press mechanism 17's effort, bidirectional extrusion makes stamping forming more quick, and elastic component 9 takes place the elasticity of deformation and can play buffering sealing gasket's effect, stamping forming's stability has been improved.

As shown in fig. 5, as a preferred embodiment of the present application, the elastic member 9 is provided therein with a guide rod 10 for guiding a deformation path thereof.

In one case of the present embodiment, the guide rod 10 is of a telescopic structure, and the telescopic structure is formed by nesting multiple stages of pipes, and in practical application, a rack-and-pinion structure and an electric telescopic structure may be adopted, which is not specifically limited herein; in practical application, the guide rod 10 is arranged to avoid the problem of shifting the preset path when the elastic member 9 is deformed.

As shown in fig. 4 to 7, as a preferred embodiment of the present application, the intermittent assembly 5 includes:

the turntable 501 is rotatably arranged on the operation table and is driven to rotate by the power assembly 6;

a push rod 503 disposed at the protruding portion of the turntable 501;

a first rotating member 504 fixedly connected coaxially with the carrier ring 3; and

the first sliding grooves 505 are circumferentially arranged on the first rotating member 504, and the number of the first sliding grooves 505 is the same as that of the positioning members 4, and the first sliding grooves 505 are arranged on the moving path of the push rod 503.

In one case of this embodiment, the turntable 501 is provided with a groove 502 slidably engaged with the first rotating member 504, and the push rod 503 is disposed in the groove 502.

Of course, in addition to the above structure, the intermittent assembly 5 may also use an encoder to control the rotating wheel in cooperation with the output motor to realize intermittent rotation, which is not limited herein.

In practical application, the turntable 501 rotates to drive the push rod 503 to rotate, when the push rod 503 rotates to contact with the first chute 505, the push rod 503 continues to rotate and drives the first rotating member 504 to rotate through the first chute 505 until the push rod 503 rotates away from the first chute 505, at this time, the initial position of the first chute 505 rotates to come into contact with another first chute 505, and the push rod 503 rotates once and then drives the first rotating member 504 to rotate again, so that intermittent rotation of the first rotating member 504 is realized, and intermittent rotation of the conveying ring 3 is further realized, so that the sealing gasket can be intermittently conveyed into the punching slot 2.

As shown in fig. 2 to 7, as a preferred embodiment of the present application, the number of the fixed discs 1 is plural, and the plural transporting rings 3 are coaxially and fixedly connected to the plural first rotating members 504, respectively, and the power assembly 6 sequentially drives the plural first rotating members 504 to intermittently rotate through the turntable 501.

In one case of the present embodiment, the power assembly 6 includes:

a cam 601, one end of which is provided with a transmission rod 602, and the other end of which is driven to rotate by a driving source;

the second rotating member 603 is fixedly connected with the turntable 501 coaxially; and

the second sliding grooves 604, a plurality of the second sliding grooves 604 are circumferentially arranged on the second rotating member 603, and the number of the second sliding grooves 604 is the same as the number of the fixed discs 1, and the second sliding grooves 604 are arranged on the moving path of the transmission rod 602.

The driving source may be a motor assembly, or may be a gear assembly or a belt pulley assembly driven by a motor, so long as the cam 601 can rotate, which is not specifically limited herein.

In addition to the above structure, the power assembly 6 may also use an encoder to control the rotating wheel to realize intermittent rotation in cooperation with the output motor, which is not limited herein.

In practical application, the cam 601 rotates to drive the driving rod 602 to rotate, after the driving rod 602 rotates to contact with the second sliding groove 604, the driving rod 602 continues to rotate and drives the second rotating member 603 to rotate through the second sliding groove 604 until the driving rod 602 rotates away from the second sliding groove 604, at this time, the initial position of the second sliding groove 604 rotates upwards to form another second sliding groove 604, the driving rod 602 rotates once and then contacts with the second sliding groove 604 and drives the second rotating member 603 to rotate again, so that intermittent rotation of the second rotating member 603 is realized, intermittent rotation of the turntable 501 is further realized, and in the process of each rotation of the turntable 501, the push rod 503 contacts with one first sliding groove 505 and drives the corresponding first rotating member 504 to rotate until the push rod 503 rotates away from the first sliding groove 505, the turntable 501 rotates once, the push rod 503 sequentially drives the first rotating members 504 to rotate, and then the conveying rings 3 sequentially rotate intermittently, so that the sealing gaskets on the fixed discs 1 can be conveyed, and the sealing gaskets can be synchronously processed, and the output is improved.

As shown in fig. 3 to 5, as a preferred embodiment of the present application, the blanking plate 11 is slidably mounted in the buffer plate 7, a drop slot 14 matched with the stamping mechanism 17 is disposed at a central axis of the blanking plate 11, a second magnetic member 13 is disposed on the blanking plate 11, the second magnetic member 13 magnetically attracts the first magnetic member 12 disposed on the buffer plate 7, two ends of the blanking plate 11 are respectively connected with output ends of the two lifting driving sources 15, and a collecting box 16 for collecting the stamped sealing gaskets is disposed at a position below the operating platform corresponding to the blanking plate 11.

The lifting driving source 15 may be a hydraulic cylinder, an air cylinder, or other mechanisms capable of realizing linear motion, which is not specifically limited in this embodiment; the first magnetic member 12 and the second magnetic member 13 may be permanent magnets, or may be electromagnets connected to an electromagnetic module, which is not specifically limited in this embodiment.

In one case of this embodiment, a stopper 8 for limiting the buffer plate 7 is disposed in the punching slot 2, and a travel switch electrically connected to the lifting drive source 15 is disposed on the stopper 8, and the travel switch interferes with the stopper 8.

In the practical application, in the initial state, the lifting drive source 15 is in the power-off state, at this time, the magnetic attraction force acts on to enable the blanking plate 11 to be flush with the buffer plate 7, the stamping mechanism 17 discharges waste materials through the dropping groove 14 in the process of stamping forming the sealing gasket, the blanking plate 11 and the buffer plate 7 are all lowered, the lifting drive source 15 contracts until the buffer plate 7 is contacted with the limiting block 8, at this time, the travel switch on the limiting block 8 is triggered by the buffer plate 7, the lifting drive source 15 is electrified, one lifting drive source 15 continues to contract, the other lifting drive source 15 keeps the original height, the blanking plate 11 is inclined, a gap is formed between the lower end of the blanking plate 11 and the buffer plate 7, and the sealing gasket after stamping forming can slide into the collecting box 16 through the gap, so that the automatic blanking of the sealing gasket is realized, and the practicability of the forming machine is improved.

The working principle of the application is as follows: in the above embodiment of the application, the intermittent assembly 5 drives the transportation ring 3 to intermittently rotate, each rotation can enable the positioning piece 4 to rotate away from the punching groove 2 and enable the other positioning piece 4 to rotate to coincide with the punching groove 2, the sealing gasket in the positioning piece 4 can fall onto the buffer plate 7 in the punching groove 2, then the punching mechanism 17 descends to punch the sealing gasket, so that the sealing gasket can be automatically replaced after punch forming, the problem that the sealing gasket is accidentally damaged due to manual replacement is avoided, the sealing gasket moved to the moment can fall into the punching groove 2 due to the arrangement of the punching groove 2, positioning of the sealing gasket when the sealing gasket is replaced is realized, the sealing gasket can be aligned with the punching mechanism 17, and the accuracy of punch forming is ensured.

The foregoing describes one embodiment of the present application in detail, but the description is only a preferred embodiment of the present application and should not be construed as limiting the scope of the application. All equivalent changes and modifications within the scope of the present application are intended to be covered by the present application.

Claims (4)

1. A sealing gasket processing molding machine, comprising:

a buffer plate (7) for placing the sealing gasket and a punching mechanism (17) for punching the sealing gasket;

characterized by further comprising:

the fixed disc (1) and the stamping mechanism (17) are both arranged on the operation table, the fixed disc (1) is provided with a stamping groove (2) aligned with the stamping mechanism (17), and the buffer plate (7) is arranged in the stamping groove (2);

the positioning pieces (4) are connected with each other through the conveying rings (3), and the conveying rings (3) are coaxially and rotatably connected with the fixed disc (1) and are used for conveying the sealing gaskets into the stamping grooves (2); and

the intermittent assembly (5) is arranged on the operation table and is used for driving the conveying ring (3) to intermittently rotate;

the buffer plate (7) is slidably arranged in the stamping groove (2), and the buffer plate (7) is connected with the inner wall of the stamping groove (2) through an elastic piece (9);

a guide rod (10) for guiding the deformation path of the elastic piece (9) is arranged in the elastic piece;

in the initial state, the buffer plate (7) is positioned at the highest end of the moving path, after the sealing gasket falls onto the buffer plate, the stamping mechanism (17) descends to stamp the sealing gasket, so that the buffer plate (7) descends due to the acting force of the stamping mechanism (17), the elastic piece (9) stretches, and the elastic piece (9) returns to the elasticity of deformation to enable the sealing gasket to have upward potential energy opposite to the acting force of the stamping mechanism (17);

the intermittent assembly (5) comprises:

a turntable (501) rotatably mounted on the operation table and driven to rotate by the power assembly (6);

a push rod (503) arranged on the protruding part of the turntable (501);

the first rotating piece (504) is coaxially and fixedly connected with the conveying ring (3); and

the first sliding grooves (505) are circumferentially arranged on the first rotating pieces (504), the number of the first sliding grooves (505) is the same as that of the positioning pieces (4), and the first sliding grooves (505) are arranged on the moving path of the push rod (503);

the number of the fixed discs (1) is multiple, the plurality of the conveying rings (3) are respectively and fixedly connected with the plurality of the first rotating pieces (504) in a coaxial way, and the power assembly (6) sequentially drives the plurality of the first rotating pieces (504) to intermittently rotate through the turntable (501);

the power assembly (6) comprises:

a cam (601) having one end provided with a transmission rod (602) and the other end driven to rotate by a driving source;

the second rotating piece (603) is coaxially and fixedly connected with the rotary table (501); and

the second sliding grooves (604) are circumferentially arranged on the second rotating piece (603), the number of the second sliding grooves (604) is the same as that of the fixed discs (1), and the second sliding grooves (604) are arranged on the moving path of the transmission rod (602).

2. The machine for manufacturing gaskets according to claim 1, characterized in that said positioning element (4) is removably connected to the transport ring (3).

3. The forming machine for processing the sealing gasket according to claim 1, characterized in that a blanking plate (11) is slidably mounted in the buffer plate (7), a drop groove (14) matched with a stamping mechanism (17) is formed in a central shaft of the blanking plate (11), a second magnetic piece (13) is arranged on the blanking plate (11), the second magnetic piece (13) is magnetically attracted with a first magnetic piece (12) arranged on the buffer plate (7), two ends of the blanking plate (11) are respectively connected with output ends of two lifting driving sources (15), and a collecting box (16) for collecting the stamped sealing gasket is arranged at a position below the operating table corresponding to the blanking plate (11).

4. A sealing gasket processing forming machine according to claim 3, wherein a limiting block (8) for limiting the buffer plate (7) is arranged in the stamping groove (2), a travel switch electrically connected with the lifting driving source (15) is arranged on the limiting block (8), and the travel switch interferes with the limiting block (8).