CN216610212U - Automatic friction press of pay-off - Google Patents

Abstract

The utility model is suitable for the technical field of friction presses, in particular to an automatic feeding friction press, which comprises a frame, a screw, a horizontal table, a roller, a turntable and a slide block, wherein the horizontal table is connected on the frame, the roller is rotationally connected on the horizontal table, the screw is in threaded connection on the horizontal table, the turntable and the slide block are respectively arranged at two ends of the screw, and the automatic feeding friction press further comprises: the base is connected to the outer side of the rack; and the workpiece placing piece is used for placing the workpiece to be processed. By arranging the material pushing structure and the translation structure, the utility model can automatically place workpieces on the rack and can continuously feed a plurality of groups of workpieces, thereby improving the working efficiency of the friction press.

Description

Automatic friction press of pay-off

Technical Field

The utility model relates to the technical field of friction presses, in particular to an automatic feeding friction press.

Background

The friction press is a pressure processing machine with wide applicability, has wider application field and can be used in various pressure processing industries. In particular, in the machine manufacturing industry, friction presses are used more widely and can be used to perform swaging, upsetting, bending, aligning, and coining operations on various workpieces.

When an existing friction press works, a workpiece is usually placed on a rack manually, so that working efficiency is not high, and time and labor are wasted.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model aims to provide an automatic feeding friction press, aiming at solving the following problems: when an existing friction press works, a workpiece is usually manually placed on a rack, so that working efficiency is not high, and time and labor are wasted.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides an autoloading's friction press, includes frame, screw rod, horizontal stand, gyro wheel, carousel and slider, and the horizontal stand is connected in the frame, and the gyro wheel rotates to be connected on the horizontal stand, and screw rod threaded connection sets up respectively at the both ends of screw rod on the horizontal stand, autoloading's friction press still includes:

the base is connected to the outer side of the frame;

the workpiece placing piece is used for placing a workpiece to be processed;

the pushing structure is arranged on the side surface of the workpiece placing piece and used for pushing the workpiece on the workpiece placing piece through mechanical transmission so as to push the workpiece into the rack; and

the translation structure is arranged on the base and used for installing the workpiece placing piece and driving the workpiece placing piece to translate through mechanical transmission.

Further, the pushing structure comprises:

the pushing part is connected inside the workpiece placing part in a sliding manner and is used for pushing the workpiece inside the workpiece placing part;

the connecting piece is connected to the side surface of the pushing piece and used for driving the pushing piece to move; and

the first driving assembly is arranged on the side face of the workpiece placing piece, is connected with the connecting piece and is used for driving the connecting piece to move through screw transmission.

Further, the first driving assembly includes:

the movable piece is connected with the connecting piece and is used for driving the connecting piece to move;

the second transmission part is rotatably connected to the surface of the workpiece placing part, is used for installing the moving part and is also used for driving the moving part to move; and

the first driving piece is arranged on the side surface of the workpiece placing piece, and the output end of the first driving piece is connected with the second driving piece and used for driving the second driving piece to move.

Further, the translation structure includes:

the bearing piece is connected with the workpiece placing piece and is used for driving the workpiece placing piece to move horizontally;

the sliding part is arranged on the bearing part, is connected to the surface of the base in a sliding manner and is used for driving the bearing part to move; and

and the second driving assembly is arranged on the base and the bearing piece and used for driving the bearing piece to move through gear transmission.

Further, the second driving assembly includes:

the third transmission part is arranged on the surface of the bearing part and used for driving the bearing part to move;

the first transmission piece is used for driving the third transmission piece to move;

the rotating piece is used for mounting the first transmission piece and driving the first transmission piece to rotate; and

the second driving piece is installed on the side face of the base, and the output end of the second driving piece is connected with the rotating piece and used for driving the rotating piece to rotate.

Further, the first transmission piece is meshed with the third transmission piece.

According to the friction press capable of automatically feeding, the pushing structure and the translation structure are arranged, workpieces can be automatically placed on the rack, and multiple groups of workpieces can be continuously fed, so that the working efficiency of the friction press is improved.

Drawings

Fig. 1 is a schematic structural view of an automatic feed friction press.

Fig. 2 is a side partial cross-sectional view of a third drive member, carrier member, slide member and base in a self-feeding friction press.

Fig. 3 is a side view of a second driving member, a first driving member, a rotating member and a base in an automatic feeding friction press.

Fig. 4 is a side view partially showing the structure of the first driving member, the connecting member, the second driving member and the movable member in the automatic feeding friction press.

Fig. 5 is a partial structural view of a connecting member, a pusher member and a workpiece placing member in an autoloading friction press.

In the figure: 1. a rotating member; 2. a first transmission member; 3. a carrier; 4. a frame; 5. a screw; 6. a horizontal table; 7. a roller; 8. a turntable; 9. a slider; 10. a second transmission member; 11. a connecting member; 12. pushing the material piece; 13. a workpiece placement member; 14. a movable member; 15. a third transmission member; 16. a base; 17. a slider; 18. a first driving member; 19. a second driving member.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 to 5, an automatic feeding friction press according to an embodiment of the present invention includes a frame 4, a screw 5, a horizontal table 6, a roller 7, a turntable 8, and a slider 9, where the horizontal table 6 is connected to the frame 4, the roller 7 is rotatably connected to the horizontal table 6, the screw 5 is connected to the horizontal table 6 by a thread, the turntable 8 and the slider 9 are respectively disposed at two ends of the screw 5, and the automatic feeding friction press further includes:

a base 16 connected to the outside of the frame 4;

a workpiece placing member 13 for placing a workpiece to be machined;

the pushing structure is arranged on the side surface of the workpiece placing piece 13 and used for pushing the workpiece on the workpiece placing piece 13 through mechanical transmission so as to push the workpiece into the rack 4; and

the translation structure is arranged on the base 16 and used for installing the workpiece placing piece 13 and driving the workpiece placing piece 13 to translate through mechanical transmission.

In an embodiment of the present invention, the workpiece placing element 13 may be a workpiece placing seat, and is preferably a member with an L-shaped structure, and the workpiece placing element 13 is provided with a plurality of groups, the pushing structure may drive the pushing object to move inside the workpiece placing element 13 in a manner of being driven by a motor and cooperating with a lead screw transmission manner or a manner of being directly driven by an electric telescopic rod, and push the workpiece to be processed inside the workpiece placing element 13 to the rack 4, and the surface of the preferred workpiece placing element 13 is flush with the inner bottom of the rack 4, and the translation structure may drive the workpiece placing element 13 to translate on the base 16 in a manner of being driven by the motor and cooperating with a rack-and-pinion transmission manner or a manual pushing-pulling manner, so that the workpiece placing elements 13 of different groups may be placed on the front side of the rack 4, so as to facilitate automatic feeding.

As shown in fig. 1, 2, 4 and 5, in one embodiment of the present invention, the material pushing structure includes:

the pushing part 12 is connected inside the workpiece placing part 13 in a sliding manner and is used for pushing the workpiece inside the workpiece placing part 13;

the connecting piece 11 is connected to the side surface of the material pushing piece 12 and used for driving the material pushing piece 12 to move; and

the first driving assembly is arranged on the side face of the workpiece placing piece 13, is connected with the connecting piece 11 and is used for driving the connecting piece 11 to move through screw transmission.

In this embodiment, the first driving assembly includes:

the movable piece 14 is connected with the connecting piece 11 and is used for driving the connecting piece 11 to move;

the second transmission piece 10 is rotatably connected to the surface of the workpiece placing piece 13, is used for installing the movable piece 14, and is also used for driving the movable piece 14 to move; and

and the first driving part 18 is arranged on the side surface of the workpiece placing part 13, and the output end of the first driving part is connected with the second transmission part 10 and is used for driving the second transmission part 10 to move.

In this embodiment, the pushing element 12 may be a pushing plate, the connecting element 11 may be a connecting rod or a connecting bar, the movable element 14 may be a threaded ring or a ball nut, the second transmission element 10 may be a threaded rod or a ball screw, and the first driving element 18 may be a driving motor or a stepping motor;

when a workpiece on the workpiece placing part 13 needs to be moved into the rack 4, the first driving part 18 can be started, the first driving part 18 drives the second transmission part 10 to rotate, so that the movable part 14 moves outside the second transmission part 10, and the pushing part 12 is driven by the connecting part 11 to slide inside the workpiece placing part 13, so that the pushing part 12 pushes the workpiece in the workpiece placing part 13 into the rack 4.

As shown in fig. 1 and 3, in one embodiment of the present invention, the translation structure includes:

the bearing piece 3 is connected with the workpiece placing piece 13 and is used for driving the workpiece placing piece 13 to translate;

the sliding part 17 is installed on the bearing part 3, is connected to the surface of the base 16 in a sliding manner, and is used for driving the bearing part 3 to move; and

and the second driving assembly is arranged on the base 16 and the bearing piece 3 and is used for driving the bearing piece 3 to move through gear transmission.

In this embodiment, the second driving assembly includes:

the third transmission piece 15 is arranged on the surface of the bearing piece 3 and used for driving the bearing piece 3 to move;

the first transmission piece 2 is used for driving the third transmission piece 15 to move;

the rotating part 1 is used for installing the first driving part 2 and driving the first driving part 2 to rotate; and

and the second driving piece 19 is installed on the side surface of the base 16, and the output end of the second driving piece is connected with the rotating piece 1 and used for driving the rotating piece 1 to rotate.

In the present exemplary embodiment, the first transmission part 2 is in meshing connection with the third transmission part 15.

In this embodiment, the carrier 3 may be a supporting plate, the sliding member 17 may be a supporting rod, and preferably, a sliding groove is formed in the surface of the base 16, a sliding block is installed at the bottom end of the sliding member 17, the sliding member 17 is slidably connected to the base 16 through the sliding groove and the sliding block, the third transmission member 15 may be a transmission rack, the first transmission member 2 may be a transmission gear or a gear ring, the rotating member 1 may be a rotating rod, and the second transmission member 19 may be a driving motor or a stepping motor;

when workpieces on the workpiece placing pieces 13 at different positions need to be conveyed to the rack 4, the second driving piece 19 can be started, the second driving piece 19 drives the rotating piece 1 and the first driving piece 2 to rotate, so that the first driving piece 2 drives the third driving piece 15 connected with the first driving piece in a meshed mode to translate, the third driving piece 15 drives the bearing piece 3 to translate, and the bearing piece 3 can drive the workpiece placing pieces 13 to move and move to the front side of the rack 4.

The working mode of the utility model is as follows: when the workpiece on the workpiece placing piece 13 needs to be moved into the rack 4, the first driving piece 18 can be started, the first driving piece 18 drives the second transmission piece 10 to rotate, so that the movable piece 14 moves outside the second transmission piece 10, and the pushing piece 12 is driven by the connecting piece 11 to slide in the workpiece placing piece 13, so that the pushing piece 12 pushes the workpiece in the workpiece placing piece 13 into the rack 4;

when workpieces on the workpiece placing pieces 13 at different positions need to be conveyed to the rack 4, the second driving piece 19 can be started, the second driving piece 19 drives the rotating piece 1 and the first driving piece 2 to rotate, so that the first driving piece 2 drives the third driving piece 15 connected with the first driving piece in a meshed mode to move horizontally, the third driving piece 15 drives the bearing piece 3 to move horizontally, and the bearing piece 3 can drive the workpiece placing pieces 13 to move and move to the front side of the rack 4 so as to feed materials to the rack 4.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides an autoloading's friction press, includes frame, screw rod, horizontal stand, gyro wheel, carousel and slider, and the horizontal stand is connected in the frame, and the gyro wheel rotates to be connected on the horizontal stand, and screw rod threaded connection sets up its characterized in that at the both ends of screw rod respectively on the horizontal stand with the slider, autoloading's friction press still includes:

the base is connected to the outer side of the frame;

the workpiece placing piece is used for placing a workpiece to be processed;

the pushing structure is arranged on the side surface of the workpiece placing piece and used for pushing the workpiece on the workpiece placing piece through mechanical transmission so as to push the workpiece into the rack; and

the translation structure is arranged on the base and used for installing the workpiece placing piece and driving the workpiece placing piece to translate through mechanical transmission.

2. An autofeed friction press as claimed in claim 1, characterized in that the pusher arrangement comprises:

the pushing part is connected inside the workpiece placing part in a sliding manner and is used for pushing the workpiece inside the workpiece placing part;

the connecting piece is connected to the side surface of the pushing piece and used for driving the pushing piece to move; and

the first driving assembly is arranged on the side face of the workpiece placing piece, is connected with the connecting piece and is used for driving the connecting piece to move through screw transmission.

3. A friction press with automatic feed as set forth in claim 2, wherein said first drive assembly comprises:

the movable piece is connected with the connecting piece and is used for driving the connecting piece to move;

the second transmission part is rotatably connected to the surface of the workpiece placing part, is used for installing the moving part and is also used for driving the moving part to move; and

the first driving piece is arranged on the side surface of the workpiece placing piece, and the output end of the first driving piece is connected with the second driving piece and used for driving the second driving piece to move.

4. A friction press with automatic feed as claimed in claim 1, characterized in that said translation means comprise:

the bearing piece is connected with the workpiece placing piece and is used for driving the workpiece placing piece to move horizontally;

the sliding part is arranged on the bearing part, is connected to the surface of the base in a sliding manner and is used for driving the bearing part to move; and

and the second driving assembly is arranged on the base and the bearing piece and used for driving the bearing piece to move through gear transmission.

5. A friction press with automatic feed as in claim 4, characterized in that said second driving assembly comprises:

the third transmission part is arranged on the surface of the bearing part and used for driving the bearing part to move;

the first transmission piece is used for driving the third transmission piece to move;

the rotating piece is used for mounting the first transmission piece and driving the first transmission piece to rotate; and

the second driving piece is installed on the side face of the base, and the output end of the second driving piece is connected with the rotating piece and used for driving the rotating piece to rotate.

6. A friction press with autoloading as set forth in claim 5, wherein the first drive member is in meshing engagement with the third drive member.

Images