CN113290183A

CN113290183A - High-energy screw press

Info

Publication number: CN113290183A
Application number: CN202110453687.4A
Authority: CN
Inventors: 陈兵
Original assignee: Gucheng Xinfeng Precision Forging Co ltd
Current assignee: Gucheng Xinfeng Precision Forging Co ltd
Priority date: 2021-04-26
Filing date: 2021-04-26
Publication date: 2021-08-24

Abstract

The invention discloses a high-energy screw press which comprises a base, support columns, side plates and a motor, wherein the support columns are arranged at the bottom end of the base, the side plates are arranged on two sides of the upper end of the base, a slide rail is arranged on one side wall of each side plate, the support plates are arranged in the slide rails, the motor is arranged at the bottom end of each support plate, a flywheel disc is arranged on an output shaft of the motor, a screw rod is arranged in the middle of the bottom end of the flywheel disc, a threaded sleeve is arranged on the outer side of the screw rod, a connecting plate is arranged on the outer side of the threaded sleeve, a sliding block is arranged at the bottom end of the screw rod, and a forging block is arranged at the bottom end of the sliding block. Has the advantages that: through setting up link and brush, at the screw rod removal in-process, the dust that mix with in the screw rod surface thread groove can be cleared up to the brush on the link, and then the ride comfort when guaranteeing the screw rod and remove prevents the dead phenomenon of card, guarantees the output performance of screw rod, improves the device practicality.

Description

High-energy screw press

Technical Field

The invention relates to the technical field of screw presses, in particular to a high-energy screw press.

Background

A screw press is a generic term for a press machine of a type that generates a pressurizing force by rotating at least one set of an outer bolt and an inner bolt in a frame, and is classified into two types, one type in which a static pressure is generated by applying a torque to a bolt, and the other type in which a flywheel is fixed to a bolt and the rotating energy is concentrated to be used for molding at one time.

However, the existing high-energy screw press is exposed in the workshop environment in the use process because the screw rod is, lead to mixing with the dust in the thread groove on the screw rod surface easily, and then influence the transmission performance when the screw rod rotates, the practicality of the device is reduced, secondly, the existing high-energy screw press is because sliding friction is between slider and curb plate in the use process, and sliding friction can increase the resistance when the slider goes up and down, and then increase the energy consumption of the device, the functionality of the device is reduced, in addition, the existing high-energy screw press is in the use process because the impact force of forging the block is great, and then can produce great vibrations, can lead to ground fracture for a long time, cause the influence to the stability of the device during operation, therefore, a high-energy screw press is urgently needed to solve the existing problem.

Disclosure of Invention

The present invention aims to solve the above problems and to provide a high-energy screw press.

The invention realizes the purpose through the following technical scheme:

a high-energy screw press comprises a base, a support column, side plates and a motor, wherein the support column is arranged at the bottom end of the base, the side plates are arranged on two sides of the upper end of the base, a slide rail is arranged on one side wall of each side plate, a support plate is arranged in the slide rail, the motor is arranged at the bottom end of the support plate, a flywheel disc is arranged on an output shaft of the motor, a screw rod is arranged in the middle of the bottom end of the flywheel disc, a thread sleeve is arranged on the outer side of the screw rod, a connecting plate is arranged on the outer side of the thread sleeve, a slide block is arranged at the bottom end of the screw rod, a forging block is arranged at the bottom end of the slide block, connecting rods are arranged on two side walls of the slide block, a roller wheel is arranged at one end of the connecting rod, a guide rail is arranged at one side of the roller, a concave cavity is arranged in the middle of the upper end of the base, a damping plate is arranged in the concave cavity, a placing groove is arranged above the damping plate, the improved thread cutting machine is characterized in that a hydraulic rod is arranged in the placing groove, a lifting plate is arranged at the top end of the hydraulic rod, a sucker is arranged at the top end of the lifting plate, connecting frames are arranged on two sides of the bottom end of the threaded sleeve, a hairbrush is arranged on one side wall of each connecting frame, a support is arranged on one side wall of each side plate, and an operation panel is arranged at the upper end of each support.

Furthermore, the supporting column is welded with the base, and the side plate is welded with the base.

By adopting the technical scheme, the base, the supporting columns and the side plates form a basic frame of the device.

Further, the slide rail is connected with the side plate through a screw, the support plate is connected with the slide rail in a sliding mode, and the motor is connected with the support plate through a screw.

By adopting the technical scheme, the motor can move up and down in the guide rail in the working process of the device.

Further, the flywheel dish with the motor key-type connection, the screw rod with the flywheel dish passes through bolted connection, the screw rod with the thread bush rotates to be connected, the thread bush with the connecting plate passes through screwed connection, the connecting plate with the curb plate passes through screwed connection, the slider with the screw rod passes through screwed connection, forge the briquetting with the slider passes through screwed connection.

By adopting the technical scheme, the motor drives the screw rod to rotate through the flywheel disc, and simultaneously, the screw rod does linear lifting motion under the action of the threaded sleeve, so that the forging pressing block on the sliding block is driven to forge and press a workpiece, and the threaded sleeve can be fixed by the connecting plate.

Furthermore, the connecting rod with the slider passes through the screw connection, the gyro wheel with the connecting rod rotates to be connected, the gyro wheel with guide rail sliding connection, the guide rail with the curb plate passes through the screw connection.

Through adopting above-mentioned technical scheme slider removes the in-process, on the connecting rod the gyro wheel is in remove in the guide rail, and then guide it, simultaneously the gyro wheel changes original sliding friction into rolling friction, and then is less resistance when the slider removes reduces the energy consumption of device, improves device functionality.

Furthermore, the cavity is formed on the base, and the damping plate is connected with the cavity through screws.

Through adopting above-mentioned technical scheme, because the shock attenuation board is formed by multilayer rubber and steel sheet pressfitting, and then in the device course of operation, not only can carry out the shock attenuation to the device, can also guarantee its rigidity of self simultaneously, prevent to cause ground fracture, guarantee the stability of device during operation.

Further, the placing groove is connected with the damping plate through screws, and the hydraulic rod is connected with the placing groove through screws.

By adopting the technical scheme, the placing groove provides a placing space for the workpiece, and the hydraulic rod can automatically eject the workpiece when forging and pressing are completed.

Furthermore, the hydraulic rod is connected with the lifting plate through screws, the lifting plate is connected with the placing groove in a sliding mode, and the sucker is connected with the lifting plate through screws.

By adopting the technical scheme, the lifting plate supports the workpiece, and the sucker fixes the workpiece.

Furthermore, the connecting frame is connected with the threaded sleeve through a screw, and the brush is connected with the connecting frame through a screw.

Through adopting above-mentioned technical scheme the screw rod removes the in-process, on the link the brush can with the dust that is mingled with in the screw rod surface thread groove is cleared up, and then guarantees ride comfort when the screw rod removes prevents the dead phenomenon of card, guarantees the output performance of screw rod improves the device practicality.

Further, the support is connected with the side plate through screws, and the operation panel is connected with the support through screws.

By adopting the technical scheme, the operation panel controls the work of the device.

The specific working principle is as follows: firstly, a workpiece is placed on the lifting plate in the placing groove, the sucker adsorbs and fixes the workpiece, then the device works through the operation panel, in the working process of the device, the motor drives the screw to rotate through the flywheel disc and simultaneously performs linear lifting motion under the action of the thread sleeve so as to drive the forging block on the sliding block to forge and press the workpiece, in the lifting process of the screw, the motor moves up and down in the guide rail, the roller on the connecting rod moves in the guide rail so as to guide the sliding block, the roller converts the original sliding friction into rolling friction, the resistance of the sliding block in moving is further reduced, the energy consumption of the device is reduced, and the hairbrush on the connecting frame can clean dust mixed in the thread groove on the surface of the screw, and then guarantee ride comfort when the screw rod removes prevents to appear blocking phenomenon, guarantees the output performance of screw rod, at the forging and pressing in-process, because the shock attenuation board is formed by multilayer rubber and steel sheet pressfitting, and then in the device course of operation, not only can carry out the shock attenuation to the device, can also guarantee its self rigidity simultaneously, prevent to cause ground fracture, guarantee the stability of device during operation, finally, when the forging and pressing is accomplished, the hydraulic stem is automatic ejecting the work piece, and the staff of being convenient for takes the work piece.

The invention has the beneficial effects that:

1. by arranging the connecting frame and the hairbrush, in the moving process of the screw rod, the hairbrush on the connecting frame can clean dust mixed in a thread groove on the surface of the screw rod, so that the smoothness of the screw rod in moving is ensured, the phenomenon of jamming is prevented, the output performance of the screw rod is ensured, and the practicability of the device is improved;

2. by arranging the guide rail and the roller, in the moving process of the sliding block, the roller on the connecting rod moves in the guide rail to guide the sliding block, and meanwhile, the roller converts the original sliding friction into rolling friction, so that the resistance of the sliding block in moving is reduced, the energy consumption of the device is reduced, and the functionality of the device is improved;

3. through setting up cavity and shock attenuation board, because the shock attenuation board is formed by multilayer rubber and steel sheet pressfitting, and then in the device course of operation, not only can carry out the shock attenuation to the device, can also guarantee its self rigidity simultaneously, prevent to cause ground fracture, guarantee the stability of device during operation.

Drawings

FIG. 1 is a front view of a high energy screw press of the present invention;

FIG. 2 is a cross-sectional view of a placement tank in a high energy screw press according to the present invention;

FIG. 3 is a cross-sectional view of a base of a high energy screw press according to the present invention;

FIG. 4 is an enlarged view of the area A of a high power screw press according to the present invention.

The reference numerals are explained below:

1. a base; 2. forging and pressing the block; 3. a connecting rod; 4. a side plate; 5. a guide rail; 6. a brush; 7. a connecting frame; 8. a threaded sleeve; 9. a screw; 10. a slide rail; 11. a support plate; 12. an electric motor; 13. a connecting plate; 14. an operation panel; 15. a support; 16. a slider; 17. a placement groove; 18. a support pillar; 19. a suction cup; 20. a lifting plate; 21. a hydraulic lever; 22. a concave cavity; 23. a damper plate; 24. a roller; 25. a flywheel disc.

Detailed Description

The invention will be further described with reference to the accompanying drawings in which:

as shown in fig. 1-4, a high-energy screw press comprises a base 1, a support column 18, a side plate 4 and a motor 12, wherein the support column 18 is arranged at the bottom end of the base 1, the side plate 4 is arranged on both sides of the upper end of the base 1, a slide rail 10 is arranged on one side wall of the side plate 4, a support plate 11 is arranged in the slide rail 10, the motor 12 is arranged at the bottom end of the support plate 11, a flywheel disc 25 is arranged on an output shaft of the motor 12, a screw 9 is arranged in the middle of the bottom end of the flywheel disc 25, a threaded sleeve 8 is arranged on the outer side of the screw 9, a connecting plate 13 is arranged on the outer side of the threaded sleeve 8, a slide block 16 is arranged at the bottom end of the screw 9, a forging block 2 is arranged at the bottom end of the slide block 16, connecting rods 3 are arranged on both side walls of the slide block 16, a roller 24 is arranged at one end of the connecting rod 3, a guide rail 5 is arranged on one side of the roller 24, the improved structure of the toothbrush handle is characterized in that a cavity 22 is formed in the middle of the upper end of the base 1, a damping plate 23 is arranged in the cavity 22, a placing groove 17 is formed above the damping plate 23, a hydraulic rod 21 is arranged in the placing groove 17, a lifting plate 20 is arranged on the top end of the hydraulic rod 21, a sucker 19 is arranged on the top end of the lifting plate 20, connecting frames 7 are arranged on two sides of the bottom end of the threaded sleeve 8, a hairbrush 6 is arranged on one side wall of each connecting frame 7, a support 15 is arranged on one side wall of each side plate 4, and an operation panel 14 is arranged at the upper end of each support 15.

In this embodiment, the supporting pillar 18 is welded to the base 1, the side plate 4 is welded to the base 1, and the base 1, the supporting pillar 18, and the side plate 4 form a basic frame of the apparatus.

In this embodiment, the slide rail 10 is connected to the side plate 4 by a screw, the support plate 11 is slidably connected to the slide rail 10, the motor 12 is connected to the support plate 11 by a screw, and the motor 12 can move up and down in the guide rail 5 during operation of the device.

In this embodiment, flywheel dish 25 with the 12 key-type connections of motor, screw rod 9 with flywheel dish 25 passes through bolted connection, screw rod 9 with thread bush 8 rotates to be connected, thread bush 8 with connecting plate 13 passes through screwed connection, connecting plate 13 with curb plate 4 passes through screwed connection, slider 16 with screw rod 9 passes through screwed connection, forge briquetting 2 with slider 16 passes through screwed connection, motor 12 passes through flywheel dish 25 drives screw rod 9 rotates, is in simultaneously make rectilinear elevating movement under the effect of thread bush 8, and then drives on the slider 16 forge briquetting 2 and forge and press the work piece, connecting plate 13 can be right thread bush 8 fixes.

In this embodiment, the connecting rod 3 is connected to the slider 16 through a screw, the roller 24 is connected to the connecting rod 3 in a rotating manner, the roller 24 is connected to the guide rail 5 in a sliding manner, the guide rail 5 is connected to the side plate 4 through a screw, in the moving process of the slider 16, the roller 24 on the connecting rod 3 moves in the guide rail 5 to guide the same, and meanwhile, the roller 24 converts the original sliding friction into rolling friction, so that the resistance of the slider 16 in moving is small, the energy consumption of the device is reduced, and the functionality of the device is improved.

In this embodiment, the cavity 22 is formed on the base 1, the damping plate 23 is connected with the cavity 22 through screws, and the damping plate 23 is formed by laminating multiple layers of rubber and steel plates, so that in the working process of the device, the device can be damped, the rigidity of the device can be ensured, the ground can be prevented from cracking, and the working stability of the device can be ensured.

In this embodiment, the placing groove 17 is connected with the damping plate 23 through a screw, the hydraulic rod 21 is connected with the placing groove 17 through a screw, the placing groove 17 provides a placing space for a workpiece, and the hydraulic rod 21 can automatically eject the workpiece when forging and pressing are completed.

In this embodiment, the hydraulic rod 21 is connected to the lifting plate 20 through a screw, the lifting plate 20 is slidably connected to the placing groove 17, the suction cup 19 is connected to the lifting plate 20 through a screw, the lifting plate 20 supports a workpiece, and the suction cup 19 fixes the workpiece.

In this embodiment, the link 7 with the thread bush 8 passes through the screw connection, brush 6 with link 7 passes through the screw connection 9 removes the in-process, on the link 7 brush 6 can with the dust that is mingled with in the screw rod 9 surperficial thread groove clears up, and then guarantees ride comfort when screw rod 9 removes prevents the dead phenomenon of card, guarantees the output performance of screw rod 9 improves the device practicality.

In this embodiment, the bracket 15 is connected to the side plate 4 by screws, the operation panel 14 is connected to the bracket 15 by screws, and the operation panel 14 controls the operation of the device.

The specific working principle is as follows: firstly, a workpiece is placed on the lifting plate 20 in the placing groove 17, the sucking disc 19 adsorbs and fixes the workpiece, then the device is operated through the operation panel 14, during the operation of the device, the motor 12 drives the screw rod 9 to rotate through the flywheel disc 25 and simultaneously makes a linear lifting motion under the action of the thread sleeve 8, so as to drive the forging block 2 on the slide block 16 to forge and press the workpiece, and during the lifting process of the screw rod 9, the motor 12 moves up and down in the guide rail 5, and simultaneously the roller 24 on the connecting rod 3 moves in the guide rail 5 to guide the workpiece, and simultaneously the roller 24 converts the original sliding friction into rolling friction, so as to reduce the resistance when the slide block 16 moves, reduce the energy consumption of the device, and the brush 6 on the connecting frame 7 can clean dust in the thread groove on the surface of the screw rod 9, and then guarantee the ride comfort when screw rod 9 removes prevents to appear blocking phenomenon, guarantees the output performance of screw rod 9, and at the forging and pressing in-process, because shock attenuation board 23 is formed by multilayer rubber and steel sheet pressfitting, and then in the device course of operation, not only can carry out the shock attenuation to the device, can also guarantee its self rigidity simultaneously, prevents to cause ground fracture, guarantees the stability of device during operation, and finally, when the forging and pressing is accomplished, hydraulic stem 21 is automatic ejecting the work piece, and the staff of being convenient for takes the work piece.

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

Claims

1. A high-energy screw press is characterized in that: the device comprises a base (1), supporting columns (18), side plates (4) and a motor (12), wherein the supporting columns (18) are arranged at the bottom end of the base (1), the side plates (4) are arranged on two sides of the upper end of the base (1), a sliding rail (10) is arranged on one side wall of each side plate (4), a supporting plate (11) is arranged in each sliding rail (10), the motor (12) is arranged at the bottom end of each supporting plate (11), a flywheel disc (25) is arranged on an output shaft of the motor (12), a screw rod (9) is arranged in the middle of the bottom end of each flywheel disc (25), a threaded sleeve (8) is arranged on the outer side of each screw rod (9), a connecting plate (13) is arranged on the outer side of each threaded sleeve (8), a sliding block (16) is arranged at the bottom end of each screw rod (9), a forging block (2) is arranged at the bottom end of each sliding block (16), and connecting rods (3) are arranged on two side walls of each sliding block (16), connecting rod (3) one end is provided with gyro wheel (24), gyro wheel (24) one side is provided with guide rail (5), base (1) upper end middle part is provided with cavity (22), be provided with damper plate (23) in cavity (22), damper plate (23) top is provided with standing groove (17), be provided with hydraulic stem (21) in standing groove (17), hydraulic stem (21) top is provided with lifter plate (20), lifter plate (20) top is provided with sucking disc (19), thread bush (8) bottom both sides all are provided with link (7), be provided with brush (6) on link (7) a lateral wall, be provided with support (15) on curb plate (4) a lateral wall, support (15) upper end is provided with operating panel (14).

2. A high energy screw press according to claim 1, wherein: the supporting column (18) is welded with the base (1), and the side plate (4) is welded with the base (1).

3. A high energy screw press according to claim 1, wherein: the sliding rail (10) is connected with the side plate (4) through screws, the supporting plate (11) is connected with the sliding rail (10) in a sliding mode, and the motor (12) is connected with the supporting plate (11) through screws.

4. A high energy screw press according to claim 1, wherein: flywheel dish (25) with motor (12) key-type connection, screw rod (9) with flywheel dish (25) pass through bolted connection, screw rod (9) with thread bush (8) rotate to be connected, thread bush (8) with connecting plate (13) pass through screwed connection, connecting plate (13) with curb plate (4) pass through screwed connection, slider (16) with screw rod (9) pass through screwed connection, forge briquetting (2) with slider (16) pass through screwed connection.

5. A high energy screw press according to claim 1, wherein: the connecting rod (3) is connected with the sliding block (16) through screws, the roller (24) is connected with the connecting rod (3) in a rotating mode, the roller (24) is connected with the guide rail (5) in a sliding mode, and the guide rail (5) is connected with the side plate (4) through screws.

6. A high energy screw press according to claim 1, wherein: the concave cavity (22) is formed in the base (1), and the damping plate (23) is connected with the concave cavity (22) through screws.

7. A high energy screw press according to claim 1, wherein: the placing groove (17) is connected with the damping plate (23) through screws, and the hydraulic rod (21) is connected with the placing groove (17) through screws.

8. A high energy screw press according to claim 1, wherein: the hydraulic rod (21) is connected with the lifting plate (20) through screws, the lifting plate (20) is connected with the placing groove (17) in a sliding mode, and the sucker (19) is connected with the lifting plate (20) through screws.

9. A high energy screw press according to claim 1, wherein: the connecting frame (7) is connected with the threaded sleeve (8) through a screw, and the brush (6) is connected with the connecting frame (7) through a screw.

10. A high energy screw press according to claim 1, wherein: the support (15) is connected with the side plate (4) through screws, and the operation panel (14) is connected with the support (15) through screws.