CN221018367U - Raw material transfer structure for servo punch press - Google Patents

Abstract

The utility model belongs to the technical field of machining, in particular to a raw material transferring structure for a servo punch press, which comprises raw materials and a transferring assembly arranged on one side of the raw materials, wherein the transferring assembly comprises a punching station, a tray, a stripping groove, a motor, an input gear, an output gear, a carrying disc and a bearing frame, the tray of the stripping groove is arranged on the surface fixed mounting surface of the punching station, and the device can simultaneously feed, punch and strip two raw materials under the condition that the carrying disc rotates for one circle by the operation of the transferring assembly, and the process is continuously and circularly carried out, so that the yield efficiency of a finished product of the raw materials is greatly improved, the process stability is high, and the process has enough flexibility, and the feeding and the filling operation of the raw materials can be carried out more stably and conveniently by a filling assembly, so that the practicability of the device is greatly improved.

Description

Raw material transfer structure for servo punch press

Technical Field

The utility model belongs to the technical field of machining, and particularly relates to a raw material transfer structure for a servo punch.

Background

The machining refers to the whole process of manufacturing products from raw materials, and comprises the contents of transportation and storage of the raw materials, preparation of production, manufacture of blanks, processing and heat treatment of parts, assembly and debugging of products, painting, packaging and the like for machine production, and stamping processing work of the raw materials;

Through the notice number: CN216911859U discloses a raw material transferring structure for a punching machine, in which a "machine base" is disclosed, a feeding mechanism is fixedly installed on the outer portion of the machine base, a fixing mechanism is fixedly installed on the outer portion of the machine base, and a first chute is opened in the machine base. The utility model has the advantages that: by arranging the feeding structure, the feeding mechanism replaces a human hand to push materials to move, plays a role in feeding, avoids safety accidents, improves the efficiency of raw material transfer, and simultaneously improves the safety of raw material movement, so that the feeding structure is convenient and practical, and the practicability of the raw material transfer structure for the punching machine is improved; through setting up fixed establishment, this mechanism cooperates feeding mechanism practicality, improves the steadiness when sending the material, avoids the material to receive inertial force effect and squints, guarantees that the material steadily places on fixed establishment to improve the quality of punching press material, thereby improved this raw materials for the punch press and transferred the steadiness of structure ";

Although the design can replace a human hand to push the material to move through arranging the feeding structure, the feeding structure plays a role in feeding, so that safety accidents are avoided, the raw material transferring efficiency is improved, and meanwhile, the safety during raw material movement is also improved, and the feeding structure is convenient and practical, so that the practicability of the raw material transferring structure for the punching machine is improved; through setting up fixed establishment, this mechanism cooperation feeding mechanism is practical, improves the steadiness when sending the material, avoids the material to receive inertial force effect and skew, guarantees that the material is steady to place on fixed establishment to improved the quality of punching press material, thereby improved the steadiness that this structure was transferred to raw materials for punch press, but the device once only can carry out the material loading to single raw and other materials, work efficiency is not high, and the material loading still lacks the subassembly of taking off the material after the punching press is accomplished, is unfavorable for efficient punching press and processing work, is unfavorable for the output efficiency of work piece.

In order to solve the above problems, the present application provides a raw material transfer structure for a servo press.

Disclosure of utility model

To solve the problems set forth in the background art. The utility model provides a raw material transfer structure for a servo punch press, which can simultaneously feed, punch and strip two raw materials under the condition that a carrying disc rotates for one circle by the work of a transfer assembly, and the process is continuously and circularly carried out, so that the yield efficiency of the finished product of the raw materials is greatly improved, the process is high in stability and has enough flexibility, and the feeding and the filling of the raw materials can be carried out more stably and conveniently by a filling assembly, so that the practicability of the device is greatly improved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a servo raw materials transfer structure for punch press, includes the raw and other materials, still including setting up the subassembly that transfers in raw and other materials one side, transfer the subassembly including punching press station, tray, take off silo, motor, input gear, output gear, delivery tray and carrier frame, the fixed surface of punching press station is seted up take off the tray of silo, just the surface of punching press station still fixed mounting have with input gear swivelling joint the motor, and the surface meshing of input gear is connected with run through the tray and with delivery tray fixed connection's output gear, simultaneously the delivery tray with the surface sliding connection of tray, the surface of delivery tray still swivelling joint with punching press station sliding connection the carrier frame.

In the raw material transfer structure for a servo press according to the present utility model, it is preferable that the diameter of the input gear is the same as that of the output gear, and that the input gear surface is continuously provided with only 90-degree teeth.

In the raw material transfer structure for a servo punch press of the present utility model, preferably, the number of the stripping grooves is two, and the stripping grooves are symmetrically arranged on the surface of the tray with the center of the circle where the tray is located as the axis.

The raw material transferring structure for the servo punch press preferably further comprises a filling assembly arranged on one side of a raw material, wherein the filling assembly comprises a bracket, a material box, a spring and a pushing piece, the material box which is in sliding connection with the surface of the carrying disc is fixedly arranged on the surface of the bracket, the inner surface of the material box is fixedly connected with one end of the spring, the other end of the spring is fixedly connected to one side of the surface of the pushing piece which is in sliding connection with the inner surface of the material box, the other side surface of the pushing piece is in bonding connection with the raw material, and the raw material is in sliding connection with the surface of the carrying disc.

As the raw material transfer structure for the servo punch press, the support, the material box, the spring and the pushing piece are arranged on two sides of the tray in a central symmetry mode, and an included angle between the filling assembly and the two punching stations is 90 degrees.

In the raw material transfer structure for a servo press of the present utility model, it is preferable that the lowest point of the magazine and the highest point of the carrying tray are located on the same plane.

Compared with the prior art, the utility model has the beneficial effects that: through transferring under the work of subassembly, can carry out material loading, punching press and take off the material work simultaneously to two raw and other materials under the rotatory condition of a circle of delivery tray, and this process continuously circulate, the finished product output efficiency of the raw and other materials of very big improvement to this process stability is high, still has sufficient flexibility, and can then make the more stable convenient that the filling work of pay-off and raw and other materials goes on through filling the subassembly, makes the practicality of device obtain very big improvement.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

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

FIG. 2 is a schematic diagram of the meshing states of the input gear and the output gear according to the present utility model;

FIG. 3 is a schematic cross-sectional view of a carrier plate according to the present utility model;

FIG. 4 is a schematic view of a suspended structure of a carrier according to the present utility model;

Fig. 5 is a schematic view showing a separation state structure of a tray and a carrying tray in the present utility model;

FIG. 6 is a schematic illustration of a packing assembly of the present utility model;

FIG. 7 is an enlarged schematic view of the structure of FIG. 2A according to the present utility model;

In the figure:

1. Raw materials;

2. A transfer assembly; 21. a stamping station; 22. a tray; 23. a stripping groove; 24. a motor; 25. an input gear; 26. an output gear; 27. a carrying tray; 28. a carrier;

3. A filling assembly; 31. a bracket; 32. a magazine; 33. a spring; 34. pushing the sheet.

Detailed Description

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

Example 1

As shown in fig. 1:

A raw material transfer structure for a servo punch press comprises a raw material 1.

In this embodiment: existing { publication (announcement) number }: CN216911859U discloses a raw material transfer structure for a punch press, in which a material is disclosed, and raw material 1 in the present document adopts the same technical means in the prior art, which is not described in detail herein, and regarding the improvement of the prior art, the details refer to the following disclosure technology; in order to solve the technical problem in the prior art, as disclosed in the background art above, the device can only feed a single raw material 1 at a time, the working efficiency is low, and a component for stripping is also lacking after feeding and punching is completed, which is unfavorable for efficient punching and processing work and is unfavorable for the output efficiency of workpieces.

Further, the method comprises the following steps:

As shown in fig. 1-7:

In combination with the above: the conveying assembly 2 is arranged on one side of the raw material 1, the conveying assembly 2 comprises a stamping station 21, a tray 22, a stripping groove 23, a motor 24, an input gear 25, an output gear 26, a carrying disc 27 and a carrying frame 28, the tray 22 of the stripping groove 23 is arranged on the surface of the surface fixed mounting surface of the stamping station 21, the motor 24 which is rotationally connected with the input gear 25 is fixedly arranged on the surface of the stamping station 21, the output gear 26 which penetrates through the tray 22 and is fixedly connected with the carrying disc 27 is meshed and connected with the surface of the input gear 25, meanwhile, the carrying disc 27 is in sliding connection with the surface of the tray 22, and the carrying frame 28 which is in sliding connection with the stamping station 21 is also rotationally connected with the surface of the carrying disc 27.

In this embodiment: when the motor 24 drives the input gear 25 to rotate, the input gear 25 is meshed with the output gear 26 and drives the output gear 26 and the carrying disc 27 to rotate 90 degrees, at this time, the input gear 25 is separated from the output gear 26, the output gear 26 and the carrying disc 27 lose power and stop rotating, the input gear 25 is in an idle state, the carrying frame 28 arranged on the surface of the carrying disc 27 moves below the material box 32 on the surface of the tray 22 and fills the raw material 1 in the carrying frame 28 through the filling assembly 3, at this time, the input gear 25 is meshed with the output gear 26 again and rotates the output gear 26 and the carrying disc 27 by 90 degrees, at this time, the carrying frame 28 storing the raw material 1 is pushed to the position of the stamping station 21 by the carrying disc 27, and the meshing work of the input gear 25 and the output gear 26 is ended again, and the punching station 21 will punch the raw material 1 during the period that the two are not engaged, with the rotation of the input gear 25, when the input gear 25 and the output gear 26 are engaged again, the carrying tray 27 will rotate again by 90 degrees, and at this time the carrying frame 28 will pass above the stripping groove 23 opened on the surface of the tray 22, at this time the carrying frame 28 loses the lifting of the tray 22, and the carrying frame 28 will rotate with the carrying tray 27 and drop one end, referring to fig. 4, while the raw material 1 will drop from the carrying frame 28 through the stripping groove 23 while falling, thereby realizing the stripping work, while the carrying tray 27 continuously rotates, and when the carrying frame 28 and the tray 22 are brought into contact, the carrying frame 28 is pushed by the tray 22 to keep the horizontal state and again kept on the same plane with the carrying tray 27, and when the carrying tray 27 rotates to the bottom of the material box 32 at the other side, the carrying rack 28 is driven to fill and press the raw materials 1 circularly, two groups of carrying racks 28 are arranged on the surface of the carrying tray 27, two groups of stripping grooves 23 are arranged on the surface of the tray 22, and two stamping stations 21 are connected to the two sides of the tray 22, so that when the carrying tray 27 rotates for one circle, feeding, punching and stripping of the raw materials 1 are realized, and the process can be realized smoothly through one motor 24, thereby effectively saving energy and improving the output of the raw materials 1.

It should be noted that: the height of the position where the stamping station 21 contacts the raw material 1, the top surface of the tray 22 and the bottom surface of the carrying tray 27 are located at the same height, so that the carrying tray 27 can stably rotate and the carrying frame 28 can smoothly drive the raw material 1 to be transferred to the position of the stamping station 21 and realize stamping.

Still further, the method comprises:

In an alternative embodiment, the diameter of the input gear 25 and the output gear 26 are the same, and the input gear 25 surface is only continuously provided with 90 degree teeth.

In this embodiment: the tooth piece that input gear 25 surface is 90 degrees setting can be in the in-process that input gear 25 continuously rotated, can also provide sufficient dwell time for the punching press work of raw and other materials 1 and the packing work of raw and other materials 1 when driving output gear 26 and carrier disc 27 rotation to 90 degrees input gear 25 can also all make carrier 28 stay to its position that needs to park after every rotation, can make punching press and raw and other materials 1's transfer work go on more accurately.

It should be noted that: the bearing frame 28 is of a rectangular frame-shaped structure, so that enough contact surfaces between the two side surfaces of the raw material 1 and the raw material 1 can be ensured, the stamping work of the stamping station 21 on the raw material 1 is not influenced, and the stability of transferring the raw material 1 is facilitated.

Still further, the method comprises:

In an alternative embodiment, two stripping grooves 23 are provided, and the stripping grooves 23 are provided on the surface of the tray 22 in a central symmetry manner with the center of the circle where the tray 22 is located as the axis.

In this embodiment: the stripping groove 23 which is arranged in a central symmetry mode can enable one side of the bearing frame 28 to be suspended when the bearing plate 27 drives the bearing frame 28 to rotate to the position of the stripping groove 23, and then one side of the bearing frame 28 can drop and the purpose that raw materials 1 are stripped through the stripping groove 23 is achieved.

Still further, the method comprises:

In an alternative embodiment, the filling assembly 3 is further included on one side of the raw material 1, the filling assembly 3 includes a bracket 31, a cartridge 32, a spring 33 and a pushing plate 34, the surface of the bracket 31 is fixedly provided with the cartridge 32 slidingly connected with the surface of the carrying tray 27, the inner surface of the cartridge 32 is fixedly connected with one end of the spring 33, and the other end of the spring 33 is fixedly connected with one side of the surface of the pushing plate 34 slidingly connected with the inner surface of the cartridge 32, while the other side surface of the pushing plate 34 is in fit connection with the raw material 1, and the raw material 1 is slidingly connected with the surface of the carrying tray 27.

In this embodiment: when the carrying disc 27 rotates under the drive of the output gear 26, the carrying frame 28 is driven to pass through the ground of the material box 32, at this time, the input gear 25 is in meshed contact with the output gear 26, the input gear 25 continuously rotates, the output gear 26 is static, under the pressure of the spring 33 and the pushing piece 34, the raw material 1 at the bottommost part of the material box 32 is pushed to the inside of the carrying frame 28, at this time, the highest point of the raw material 1 at the bottommost part and the top surface of the carrying disc 27 are positioned at the same height, at this time, the carrying disc 27 rotates by 90 degrees and punches the raw material 1 through the punching station 21, after punching is completed, the carrying disc 27 drives the carrying frame 28 to continue rotating and completes the stripping work in the rotating process, at this time, the carrying frame 28 reaches the bottom of the material box 32 at the other side after rotating by 180 degrees, and carries out the feeding work, when the raw material 1 in the material box 32 is used, the pushing piece 34 can be pulled upwards and the raw material 1 is refilled in the material box 32.

It should be noted that: the bottom of magazine 32 is open state, can make raw and other materials 1 smooth drop to carrier 28 in, and is open state with a side that magazine 32 bottom surface is adjacent also, makes things convenient for raw and other sides of magazine 32 can carry out spacing to raw and other materials 1 at carrier plate 27 rotatory in-process, avoids raw and other materials 1 to follow carrier plate 27 and remove.

Still further, the method comprises:

In an alternative embodiment, the support 31, the magazine 32, the spring 33 and the push tab 34 are arranged centrally symmetrically on both sides of the tray 22, and the angle between the filling assembly 3 and the two stamping stations 21 is 90 degrees.

In this embodiment: the packing assembly 3 that is the centrosymmetric setting can be after carrier plate 27 rotation 90 degrees can be smooth reach the pay-off punching press to and the punching press takes off the purpose of this circulation work of material pay-off to two sets of devices are fed through a set of material feeding unit, can very big increase the work efficiency of punching press.

Still further, the method comprises:

In an alternative embodiment, the lowest point of the magazine 32 and the highest point of the carrier plate 27 are located on the same plane.

In this embodiment: the raw material 1 in the material box 32 can be prevented from being carried out by the carrying disc 27 when the carrying disc 27 rotates by displacing the material box 32 and the carrying disc 27 on the same plane, and meanwhile, the raw material 1 can be smoothly dropped into the carrying frame 28 when the carrying frame 28 passes through the bottom of the material box 32, so that feeding work can be smoothly completed.

The working principle and the using flow of the utility model are as follows: when the motor 24 drives the input gear 25 to rotate, the input gear 25 is meshed with the output gear 26 and drives the output gear 26 and the carrying disc 27 to rotate for 90 degrees, at this time, the input gear 25 is disengaged from the output gear 26, the output gear 26 and the carrying disc 27 lose power and stop rotating, the input gear 25 is in an idle state, the carrying frame 28 arranged on the surface of the carrying disc 27 moves to the lower part of the material box 32 on the surface of the tray 22 and fills the raw material 1 into the carrying frame 28 through the filling assembly 3, at this time, the input gear 25 is meshed with the output gear 26 again and rotates the output gear 26 and the carrying disc 27 for 90 degrees, the carrier 28 storing the raw material 1 will be pushed by the carrier plate 27 to the position of the stamping station 21 at this time, the meshing of the input gear 25 and the output gear 26 is ended again, the stamping station 21 will stamp the raw material 1 during the period when the input gear 25 rotates, the carrier plate 27 will rotate 90 degrees again when the input gear 25 and the output gear 26 are meshed again, the carrier plate 28 will pass above the stripping groove 23 opened on the surface of the tray 22 at this time, the carrier plate 28 will lose the lifting of the tray 22 at this time, the carrier plate 28 will rotate with the carrier plate 27, and one end of the carrier plate is dropped, referring to fig. 4, while the carrier plate 27 is continuously rotated, the carrier plate 28 is pushed by the tray 22 to keep the carrier plate 28 in a horizontal state and keep the carrier plate 27 on the same plane again when the carrier plate 28 and the tray 22 are driven to be contacted, the carrier plate 28 is driven to the bottom of a material box 32 on the other side after the rotation of the carrier plate 27 is completed, the filling and stamping work of the raw material 1 are circularly carried out, two groups of carrier plates 28 are arranged on the surface of the carrier plate 27, two groups of material removing grooves 23 are arranged on the surface of the tray 22, simultaneously, two stamping stations 21 are also connected to two sides of the tray 22, so that when the carrying tray 27 rotates for one circle, two raw materials 1 realize feeding stamping and stripping, the process can be smoothly realized through one motor 24, energy can be effectively saved, and the output of the raw materials 1 can be improved, when the carrying tray 27 rotates under the drive of the output gear 26, the carrying frame 28 can be driven to pass through the ground of the material box 32, at the moment, the input gear 25 is in meshed contact with the output gear 26, the input gear 25 continuously rotates, the output gear 26 is static, under the pressure of the spring 33 and the pushing piece 34, the raw materials 1 positioned at the bottommost part of the material box 32 are pushed into the carrying frame 28 at the moment, the highest point of the bottommost raw material 1 and the top surface of the carrying disc 27 are located at the same height, at this time, the carrying disc 27 rotates 90 degrees and punches the raw material 1 through the punching station 21, after the punching is completed, the carrying disc 27 drives the carrying frame 28 to continue rotating and complete the stripping work in the rotating process, at this time, the carrying frame 28 reaches the bottom of the material box 32 at the other side after rotating 180 degrees and carries out the feeding work, when the raw material 1 in the material box 32 is about to be used, the pushing piece 34 can be pulled upwards and the raw material 1 can be refilled in the material box 32.

Finally, it should be noted that: the above is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that the present utility model is described in detail with reference to the foregoing embodiments, and modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. The utility model provides a servo raw materials transfer structure for punch press, includes raw and other materials (1), its characterized in that: still including setting up transfer subassembly (2) in raw and other materials (1) one side, transfer subassembly (2) include punching press station (21), tray (22), take off silo (23), motor (24), input gear (25), output gear (26), carrier plate (27) and bear frame (28), the fixed surface of punching press station (21) has been seted up take off silo (23) tray (22), just the surface of punching press station (21) still fixed mounting have with input gear (25) swivelling joint motor (24), and the surface engagement of input gear (25) is connected with run through tray (22) and with carrier plate (27) fixed connection output gear (26), simultaneously carrier plate (27) with the surface sliding connection of tray (22), the surface of carrier plate (27) still swivelling joint have with punching press station (21) swivelling joint bear frame (28).

2. The raw material transfer structure for a servo press according to claim 1, wherein: the diameters of the input gear (25) and the output gear (26) are the same, and the surface of the input gear (25) is only continuously provided with 90-degree tooth blocks.

3. The raw material transfer structure for a servo press according to claim 1, wherein: the two stripping grooves (23) are formed in total, and the stripping grooves (23) are formed in the surface of the tray (22) in a central symmetry mode by taking the center of a circle where the tray (22) is located as an axis.

4. The raw material transfer structure for a servo press according to claim 1, wherein: still including setting up the filling subassembly (3) in raw and other materials (1) one side, filling subassembly (3) include support (31), magazine (32), spring (33) and ejector blade (34), the surface fixed mounting of support (31) have with the surface sliding connection's of carrying dish (27 magazine (32), just the internal surface of magazine (32) still with one end fixed connection of spring (33), and the other end fixed connection of spring (33) with the internal surface sliding connection's of magazine (32) surface one side of ejector blade (34), simultaneously the opposite side surface of ejector blade (34) with raw and other materials (1) laminating connection, just raw and other materials (1) with the surface sliding connection of carrying dish (27).

5. The raw material transfer structure for a servo press according to claim 4, wherein: the support (31), the material box (32), the springs (33) and the pushing sheets (34) are arranged on two sides of the tray (22) in a central symmetry mode, and an included angle between the filling assembly (3) and the two stamping stations (21) is 90 degrees.

6. The raw material transfer structure for a servo press according to claim 4, wherein: the lowest point of the magazine (32) and the highest point of the carrying tray (27) are located on the same plane.