CN109277872B

CN109277872B - Can collect steel pipe cutting machine unloader for bearing ring production of sweeps

Info

Publication number: CN109277872B
Application number: CN201811173070.1A
Authority: CN
Inventors: 秦飞龙
Original assignee: Taizhou Zhesheng Bearing Technology Co ltd
Current assignee: Taizhou Zhesheng Bearing Technology Co.,Ltd.
Priority date: 2018-10-09
Filing date: 2018-10-09
Publication date: 2020-11-17
Anticipated expiration: 2038-10-09
Also published as: CN109277872A

Abstract

The invention discloses a blanking device of a steel pipe cutting machine for producing a bearing ring capable of collecting scraps, which comprises a base, a blocking plate and a working magnet, wherein a feeding module is arranged beside the base, an adsorption magnet is fixed at the top end of a driving rod, the adsorption magnet is fixed at the side of the driving rod, the blocking plate is fixed on the upper end surface of a horizontal plate, a bottom magnet is fixed at the side of the bottom of the cutting module, the working magnet is installed at the bottom end of a vertical rod, a top magnet is fixed at the top end of the vertical rod, the vertical rod is installed on a connecting shaft, and the connecting shaft is fixed at the bottom surface of a blanking plate. This can collect steel pipe cutting machine unloader for bearing ring production of sweeps adopts neotype structural design to cut traditional steel pipe and expects the machine structure to improve for this device can will follow the stable transfer of accepting of cyclic annular raw materials under the cutting on the body, and can collect the sweeps that produces in the cutting process, makes the sweeps can not influence normal cutting operation.

Description

Can collect steel pipe cutting machine unloader for bearing ring production of sweeps

Technical Field

The invention relates to the technical field of bearing production, in particular to a blanking device of a steel pipe cutting machine for producing a bearing ring, which can collect scraps.

Background

The bearing is a part that all has general application on multiple mechanical equipment, and the bearing plays connection and supplementary pivoted effect mostly, is a very important accessory part, and the bearing divide into antifriction bearing and slide bearing two kinds, and the bearing ring is the important component part of bearing, when producing the bearing ring, needs to use earlier the certain lasso raw materials of width of cutting off from the steel pipe with the stock cutter, carries out subsequent processing again.

Along with the continuous use of steel pipe cutting machine in bearing production process, traditional steel pipe cutting machine is because structural design is unreasonable, the device that can carry out orderly unloading is not designed, the raw materials that the cutting was accomplished is generally directly pounded down, the raw materials that the quality is lighter still probably scatter around, and can't carry out effectual collection processing to the sweeps that the cutting in-process produced, the efficiency that leads to the whole production of bearing is not high, the sweeps easily gathers and causes the influence to production and to operating personnel's safety, so need improve traditional steel pipe cutting machine's structure to above-mentioned problem.

Disclosure of Invention

The invention aims to provide a blanking device of a steel pipe cutting machine for producing a bearing ring, which can collect scraps, and solve the problems that the structural design is unreasonable, ordered blanking cannot be performed, and waste materials are easy to accumulate in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a steel pipe cutting machine blanking device capable of collecting scraps and used for bearing ring production comprises a base, a blocking plate and a working magnet, wherein a feeding module is arranged beside the base, a cutting module is arranged on the base, a discharging window is formed in the cutting module, a horizontal plate is arranged on the upper end face of the base, the upper end face of the horizontal plate is connected with a transmission gear, the transmission gear is arranged on a fixing frame, the fixing frame is fixed on the upper end face of the base, the transmission gear is connected with the bottom end of a driving rod, the driving rod is connected with an installation shaft, the installation shaft is fixed on the fixing frame, an adsorption magnet is fixed at the top end of the driving rod, an adsorption magnet is fixed at the side of the driving rod, the blocking plate is fixed on the upper end face of the horizontal plate, a separation window is formed in the blocking plate, a bearing box is arranged on the horizontal plate, and a slide rod is arranged on the side wall of, and the one end that the slide bar is close to first side magnet is fixed with second side magnet to install the function spring on the slide bar, function spring and the outer wall interconnect who holds the box simultaneously, the one end that the slide bar is located and holds the box is fixed with collects the magnetite, and collects the lateral wall interconnect of magnetite and holding box, the bottom avris of cutting the material module is fixed with end magnet, work magnet installs in the bottom of perpendicular pole, and perpendicular pole and reset spring interconnect to reset spring and base interconnect, the top of perpendicular pole is fixed with top magnet, and perpendicular pole installs on the connecting axle to the connecting axle is fixed in flitch bottom surface down, and the up end at the base is installed to flitch down simultaneously.

Preferably, the horizontal plate is connected with the base in a sliding mode, and the horizontal plate is connected with the transmission gear in a meshing mode.

Preferably, the bottom of actuating lever is fan-shaped, and the actuating lever is connected for the meshing with the transmission gear to the actuating lever constitutes slewing mechanism through installation axle and mount.

Preferably, the first side magnet and the second side magnet are both neodymium magnets, and the N pole of the first side magnet and the N pole of the second side magnet are arranged to face each other.

Preferably, the slide bar is sliding connection with the lateral wall of the bearing box, the slide bar is fixedly connected with the collection magnet, and the collection magnet is sliding connection with the lateral wall of the bearing box.

Preferably, the bottom magnet, the working magnet and the top magnet are all neodymium magnets, and the N pole of the bottom magnet and the S pole of the working magnet are arranged to face each other.

Preferably, the vertical rod and the blanking plate form a rotating mechanism through a connecting shaft, the front section of the blanking plate is arc-shaped, and the top end of the blanking plate and the top end of the top magnet are located on the same horizontal plane.

Compared with the prior art, the invention has the beneficial effects that: this can collect steel pipe cutting machine unloader for bearing ring production of sweeps adopts neotype structural design to cut traditional steel pipe and expects the machine structure to improve for this device can will follow the stable transfer of accepting of cyclic annular raw materials under the cutting on the body, and can collect the sweeps that produces in the cutting process, makes the sweeps can not influence normal cutting operation.

1. The horizontal plate, the transmission gear, the fixing frame, the driving rod, the adsorption magnet, the blocking plate and the separation window are matched with each other to work, so that the adsorption guide can be carried out on strip-shaped waste chips discharged from the discharge window, and the strip-shaped waste chips can fall off and enter the receiving box;

2. the structure formed by the first side magnet, the sliding rod, the second side magnet, the functional spring and the collecting magnet can adsorb strip-shaped waste scraps separated from the adsorbing magnet, so that the strip-shaped waste scraps are prevented from scattering;

3. the structure that end magnet, work magnet, vertical rod, reset spring, top magnet and flitch are constituteed can be stable accept the cyclic annular raw materials that the absorption cutting fell to shift cyclic annular raw materials, guarantee that cyclic annular raw materials can not scatter about, and can be orderly by the transportation from cut the material module.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic top view of an absorption magnet according to the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 4 is an enlarged view of the structure at B in FIG. 1 according to the present invention;

FIG. 5 is a side view of the detachment window of the present invention.

In the figure: 1. a base; 2. a feeding module; 3. a material cutting module; 4. an exhaust window; 5. a horizontal plate; 6. a transfer gear; 7. a fixed mount; 8. a drive rod; 9. installing a shaft; 10. adsorbing a magnet; 11. a first side magnet; 12. a barrier plate; 13. a detachment window; 14. a receiving box; 15. a slide bar; 16. a second side magnet; 17. a functional spring; 18. collecting the magnetite; 19. a bottom magnet; 20. a working magnet; 21. a vertical rod; 22. a return spring; 23. a top magnet; 24. a connecting shaft; 25. and discharging the material plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a steel pipe cutting machine blanking device capable of collecting scraps and used for bearing ring production comprises a base 1, a feeding module 2, a cutting module 3, a discharge window 4, a horizontal plate 5, a transmission gear 6, a fixing frame 7, a driving rod 8, a mounting shaft 9, an adsorption magnet 10, a first side magnet 11, a blocking plate 12, a separation window 13, a receiving box 14, a sliding rod 15, a second side magnet 16, a functional spring 17, a collection magnet 18, a bottom magnet 19, a working magnet 20, a vertical rod 21, a reset spring 22, a top magnet 23, a connecting shaft 24 and a blanking plate 25, wherein the feeding module 2 is arranged beside the base 1, the cutting module 3 is arranged on the base 1, the discharge window 4 is arranged on the cutting module 3, the horizontal plate 5 is arranged on the upper end face of the base 1, the upper end face of the horizontal plate 5 is connected with the transmission gear 6, the transmission gear 6 is arranged on the fixing frame 7, and the fixing frame 7 is fixed on the upper end face of the base 1, the transmission gear 6 is connected with the bottom end of the driving rod 8, the driving rod 8 is connected with the mounting shaft 9, the mounting shaft 9 is fixed on the fixing frame 7, the top end of the driving rod 8 is fixed with an adsorption magnet 10, the side of the driving rod 8 is fixed with an adsorption magnet 10, the barrier plate 12 is fixed on the upper end surface of the horizontal plate 5, the barrier plate 12 is provided with a separation window 13, the horizontal plate 5 is provided with a receiving box 14, the side wall of the receiving box 14 is provided with a sliding rod 15, one end of the sliding rod 15 close to the first side magnet 11 is fixed with a second side magnet 16, the sliding rod 15 is provided with a functional spring 17, the functional spring 17 is connected with the outer wall of the receiving box 14, one end of the sliding rod 15 in the receiving box 14 is fixed with a collection magnet 18, the collection magnet 18 is connected with the side wall of the receiving box 14, the bottom side of the cutting module 3 is fixed with a, the working magnet 20 is installed at the bottom end of the vertical rod 21, the vertical rod 21 and the return spring 22 are connected with each other, the return spring 22 and the base 1 are connected with each other, the top end of the vertical rod 21 is fixed with the top magnet 23, the vertical rod 21 is installed on the connecting shaft 24, the connecting shaft 24 is fixed at the bottom surface of the blanking plate 25, and the blanking plate 25 is installed at the upper end surface of the base 1.

In this embodiment, the horizontal plate 5 is connected with the base 1 in a sliding manner, and the horizontal plate 5 is connected with the transmission gear 6 in a meshing manner, so that the transmission gear 6 can be driven to rotate stably by utilizing the meshing connection relationship when the horizontal plate 5 slides on the base 1;

the bottom end of the driving rod 8 is fan-shaped, the driving rod 8 is in meshed connection with the transmission gear 6, the driving rod 8 and the fixing frame 7 form a rotating mechanism through the mounting shaft 9, and the driving rod 8 can be stably driven to rotate by using the meshed connection relation when the transmission gear 6 is driven to rotate by the horizontal plate 5 and rotates by using the mounting shaft 9 as a shaft;

the first side magnet 11 and the second side magnet 16 are both neodymium magnets, and the N pole of the first side magnet 11 and the N pole of the second side magnet 16 are arranged facing each other, so that when the first side magnet 11 and the second side magnet 16 are close to each other, the second side magnet 16 and the structure connected with the second side magnet 16 can be pushed to move by using the principle of 'like poles repel each other and opposite poles attract' and the magnetic force of the neodymium magnets is enough, so that the repulsive force generated when the first side magnet 11 and the second side magnet 16 are close to each other is enough;

the sliding rod 15 is in sliding connection with the side wall of the receiving box 14, the sliding rod 15 is fixedly connected with the collection magnet 18, and the collection magnet 18 is in sliding connection with the side wall of the receiving box 14, the sliding rod 15 can drive the collection magnet 18 to freely slide on the side wall of the receiving box 14 when the sliding rod 15 is pushed by the first side magnet 11 through the second side magnet 16 to slide in the hole formed in the side wall of the receiving box 14;

the bottom magnet 19, the working magnet 20 and the top magnet 23 are all neodymium magnets, and the N pole of the bottom magnet 19 and the S pole of the working magnet 20 are arranged in a mutually facing manner, so that the bottom magnet 19 can attract the working magnet 20 by utilizing the principle of 'like-pole repulsion and opposite-pole attraction' when moving to be close to the working magnet 20 along with the material cutting module 3 through the structural design;

the vertical rod 21 and the blanking plate 25 form a rotating mechanism through the connecting shaft 24 and the blanking plate 25, the shape of the front view section of the blanking plate 25 is arc, and the top end of the blanking plate 25 and the top end of the top magnet 23 are located on the same horizontal plane, the above structural design enables the working magnet 20 to drive the vertical rod 21 to rotate by taking the connecting shaft 24 as the axis when being attracted by the bottom magnet 19, and after the top magnet 23 adsorbs the falling annular raw material, the top magnet 23 can drive the annular raw material to rotate along the vertical rod 21, and after contacting with the top end of the blanking plate 25, the top end of the blanking plate 25 can enable the top magnet 23 to be separated from the annular raw material, so that the annular raw material can be transferred along the blanking plate 25.

The working principle is as follows: the structures of a base 1, a feeding module 2, a cutting module 3 and a discharge window 4 in the device are the same as those of an SGC40 type steel pipe cutting machine, the driving of the cutting module 3 is driven by a servo motor, the driving is the prior mature technology, and detailed description is omitted;

when the device is used, firstly, the whole cutting machine is powered through an external circuit, the device normally operates, a servo motor connected with a cutting module 3 drives the cutting module 3 to be continuously close to and far away from a pipe sent by a feeding module 2, a cutter on the cutting module 3 continuously cuts the pipe, in the process that the cutting module 3 is close to the pipe, the cutting module 3 drives a horizontal plate 5 to slide on a base 1, the horizontal plate 5 drives a transmission gear 6 to rotate by utilizing the stable meshing connection relation, the transmission gear 6 drives a driving rod 8 to rotate by utilizing the stable meshing connection relation and taking an installation shaft 9 as a shaft, and an adsorption magnet 10 fixed at the top end of the driving rod 8 moves towards the direction close to an exhaust window 4 along with the driving rod 8;

meanwhile, a cutter mounted on the cutting module 3 in fig. 1 contacts with a pipe to cut, strip-shaped waste scraps generated by cutting move from the discharge window 4 to the direction of the barrier plate 12 and meet with the adsorption magnet 10, the adsorption magnet 10 adsorbs the strip-shaped waste materials, and when the first side magnet 11 rotates along with the driving rod 8 to be close to the second side magnet 16, the first side magnet 11 pushes the sliding rod 15 to slide in a hole formed in the side wall of the receiving box 14 through the second side magnet 16, so as to drive the collection magnet 18 to freely slide on the side wall of the receiving box 14, so as to adsorb short waste scraps falling from the discharge window 4, and prevent the waste scraps from scattering;

at this time, the bottom magnet 19 in fig. 1 moves along with the material cutting module 3 to approach the working magnet 20, the bottom magnet 19 is close enough to the working magnet 20, the bottom magnet 19 attracts the working magnet 20 by magnetic force, the working magnet 20 drives the vertical rod 21 to rotate around the connecting shaft 24 when being attracted by the bottom magnet 19, the top magnet 23 drives the annular raw material to rotate along with the vertical rod 21, and after contacting with the top end of the blanking plate 25, the top magnet 23 continues to rotate, due to the blocking effect of the sharp part at the top end of the blanking plate 25, the top magnet 23 is separated from the annular raw material, and the annular raw material slides and transfers along the blanking plate 25;

then, the servo motor connected with the material cutting module 3 controls the material cutting module 3 to slide back and reset, the working magnet 20 cannot enable the vertical rod 21 to keep an inclined state because the bottom magnet 19 is far away from the material cutting module 3 and does not have enough attraction, the vertical rod 21 rotates and restores to a vertical state under the action of the reset spring 22, and the top magnet 23 also restores to an initial state;

in the process that the horizontal plate 5 is reset along with the cutting module 3, the horizontal plate 5 drives the transmission gear 6 to rotate reversely to the previous state, the transmission gear 6 drives the driving rod 8 to rotate towards the direction of the separation window 13 on the barrier plate 12, the adsorption magnet 10 fixed at the top end of the driving rod 8 carries long strip-shaped waste scraps to be close to the barrier plate 12, the barrier plate 12 is arc-shaped, the width of the adsorption magnet 10 is smaller than that of the separation window 13, so that the adsorption magnet 10 can pass through the separation window 13, the waste scraps on the adsorption magnet 10 can be blocked by the edge of the separation window 13 and are peeled off from the adsorption magnet 10, and the adsorption magnet 10 is not a neodymium magnet but a common magnet, so the waste scraps can be peeled off easily, and the peeled waste scraps fall into the receiving box 14;

because the first side magnet 11 is far away from the second side magnet 16 along with the driving rod 8, the second side magnet 16 loses the pushing of repulsive force, the slide rod 15 and the structure connected with the slide rod 15 are reset under the action of the functional spring 17, and waste scraps falling from the direction close to the blocking plate 12 are adsorbed, so that the waste scraps are prevented from being scattered;

therefore, the servo motor connected with the cutting module 3 continuously controls the cutting module 3 to be close to and far away from the pipe, and the device continuously repeats the steps to continuously collect the scraps and transfer the annular raw materials.

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

Claims

1. The utility model provides a can collect steel pipe cutting machine unloader for bearing ring production of sweeps, includes base (1), separation board (12) and work magnet (20), its characterized in that: the material feeding module (2) is arranged beside the base (1), the material cutting module (3) is arranged on the base (1), the discharging window (4) is formed in the material cutting module (3), the horizontal plate (5) is arranged on the upper end face of the base (1), the upper end face of the horizontal plate (5) is connected with the transmission gear (6), the transmission gear (6) is arranged on the fixing frame (7), the fixing frame (7) is fixed on the upper end face of the base (1), the transmission gear (6) is mutually connected with the bottom end of the driving rod (8), the driving rod (8) is mutually connected with the installation shaft (9), the installation shaft (9) is fixed on the fixing frame (7), the magnet (10) is fixed at the top end of the driving rod (8), the adsorption magnet (10) is fixed on the side of the driving rod (8), the barrier plate (12) is fixed on the upper end face of the horizontal plate (5), a separation window (13) is arranged on the barrier plate (12), a bearing box (14) is arranged on the horizontal plate (5), a slide rod (15) is arranged on the side wall of the bearing box (14), a second side magnet (16) is fixed at one end, close to the first side magnet (11), of the slide rod (15), a function spring (17) is arranged on the slide rod (15), the function spring (17) is connected with the outer wall of the bearing box (14), a collection magnet (18) is fixed at one end, located in the bearing box (14), of the slide rod (15), the collection magnet (18) is connected with the side wall of the bearing box (14), a bottom magnet (19) is fixed at the bottom edge side of the cutting module (3), the working magnet (20) is arranged at the bottom end of the vertical rod (21), the vertical rod (21) is connected with a return spring (22), and the return spring (22) is connected with the base (1), the top end of the vertical rod (21) is fixed with a top magnet (23), the vertical rod (21) is installed on the connecting shaft (24), the connecting shaft (24) is fixed on the bottom surface of the blanking plate (25), and meanwhile the blanking plate (25) is installed on the upper end face of the base (1).

2. The blanking device of the steel pipe cutting machine for the production of the bearing ring capable of collecting the scraps as recited in claim 1, wherein: the horizontal plate (5) is in sliding connection with the base (1), and the horizontal plate (5) is in meshed connection with the transmission gear (6).

3. The blanking device of the steel pipe cutting machine for the production of the bearing ring capable of collecting the scraps as recited in claim 1, wherein: the bottom of actuating lever (8) is fan-shaped, and actuating lever (8) are connected for the meshing with transmission gear (6) to actuating lever (8) constitute slewing mechanism through installation axle (9) and mount (7).

4. The blanking device of the steel pipe cutting machine for the production of the bearing ring capable of collecting the scraps as recited in claim 1, wherein: the first side magnet (11) and the second side magnet (16) are both neodymium magnets, and the N pole of the first side magnet (11) and the N pole of the second side magnet (16) are arranged in a mutually facing mode.

5. The blanking device of the steel pipe cutting machine for the production of the bearing ring capable of collecting the scraps as recited in claim 1, wherein: the sliding rod (15) is in sliding connection with the side wall of the bearing box (14), the sliding rod (15) is fixedly connected with the collection magnet (18), and the collection magnet (18) is in sliding connection with the side wall of the bearing box (14).

6. The blanking device of the steel pipe cutting machine for the production of the bearing ring capable of collecting the scraps as recited in claim 1, wherein: the bottom magnet (19), the working magnet (20) and the top magnet (23) are all neodymium magnets, and the N pole of the bottom magnet (19) and the S pole of the working magnet (20) are arranged in a mutually facing mode.

7. The blanking device of the steel pipe cutting machine for the production of the bearing ring capable of collecting the scraps as recited in claim 1, wherein: the vertical rod (21) and the blanking plate (25) form a rotating mechanism through a connecting shaft (24), the front section of the blanking plate (25) is arc-shaped, and the top end of the blanking plate (25) and the top end of the top magnet (23) are positioned on the same horizontal plane.