CN217647137U - Iron fillings processing apparatus is used in bearing production - Google Patents

Abstract

The utility model discloses an iron chip processing device for bearing production, which comprises a supporting frame, wherein a processing mechanism for biting spiral iron chips is arranged on the supporting frame, a feeding mechanism for feeding the spiral iron chips is arranged at the front side of the processing mechanism, and the feeding mechanism and the processing mechanism are connected with the supporting frame; the processing mechanism comprises a biting mechanism and a power mechanism, one end of the biting mechanism is connected with the power mechanism, the biting mechanism comprises a box body arranged on the support frame, two rotating shafts are arranged in parallel and level in the front and at the back of the inner side of the box body, and biting discs are arranged on the outer diameter of the rotating shafts at intervals. The utility model discloses a feed mechanism will need to handle the bits material and add in the box of processing mechanism, snap through the relative pivoted of mechanism of biting into the bits dish and snap down the bits material, improve the throughput to the bits material, reduce the space occupation degree of bits material, be convenient for accomodate the storage to the bits material.

Description

Iron fillings processing apparatus is used in bearing production

Technical Field

The utility model belongs to bearing processing field especially relates to a bearing is iron fillings processing apparatus for production.

Background

The bearing is a component for fixing and reducing the load friction coefficient in the mechanical transmission process. It can also be said that the member for reducing the friction coefficient during power transmission and keeping the center position of the shaft fixed when the other members are moved relative to each other on the shaft. The bearing is a lightweight part in modern mechanical equipment. Its main function is to support the mechanical rotating body to reduce the friction coefficient of mechanical load of equipment in the transmission process. The bearings can be classified into rolling bearings and sliding bearings according to the frictional properties of the moving elements. The bearing generally comprises outer lane, inner circle, rolling element and holder four bibliographic categories branch, can produce a large amount of sweeps in the bearing unit cutting process, and the sweeps mainly is the heliciform to exist under the general state, and it deposits occupation space, is difficult for accomodating, increases the processing degree of difficulty in later stage.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a bearing is iron fillings processing apparatus for production in order to solve above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

the scrap iron processing device for bearing production comprises a support frame, wherein a processing mechanism for biting spiral scrap iron is arranged on the support frame, a feeding mechanism for feeding the spiral scrap iron is arranged on the front side of the processing mechanism, and the feeding mechanism and the processing mechanism are connected with the support frame;

the processing mechanism comprises a biting mechanism and a power mechanism, one end of the biting mechanism is connected with the power mechanism, the biting mechanism comprises a box body arranged on the support frame, two rotating shafts are arranged on the inner side of the box body in a front-back flush manner, biting discs are arranged on the outer diameter of the rotating shafts at intervals, guide plates are arranged on the front wall and the rear wall of the box body on the upper side of each biting disc, a box cover is arranged at the upper end of the box body, a feeding hole is arranged on the upper side of each guide plate on the front side wall of the box body, a discharging hopper is arranged at the lower end of the box body, one end of each rotating shaft penetrates through the box body and is connected with a gear, and the other end of each rotating shaft is connected with the power mechanism; the feeding mechanism comprises a feeding hopper arranged on the front side of the box body, connecting rods are arranged on two side walls of the feeding hopper, the upper end of the supporting frame is located on the upper side of the box body, a synchronous motor is arranged on the upper end of the supporting frame, the output end of the synchronous motor is connected with a winding drum, and a steel wire rope is arranged between the winding drum and the connecting rods.

Further setting: the power mechanism comprises a gearbox arranged on one side of the box body, an auxiliary belt wheel is arranged at the end part of an input shaft of the gearbox, a motor is arranged on the lower side of the gearbox, a main belt wheel is connected to the input end of the motor, and a belt is arranged on the outer diameters of the main belt wheel and the auxiliary belt wheel.

The arrangement is that the motor generates power which is transmitted through the main belt wheel and the auxiliary belt wheel and then is converted through the gearbox to drive the rotating shaft to rotate.

Further setting: the power mechanism comprises a gearbox arranged on one side of the box body, an auxiliary chain wheel is arranged at the end part of an input shaft of the gearbox, a motor is arranged on the lower side of the gearbox, a main chain wheel is connected to the input end of the motor, and a chain is arranged on the outer diameters of the main chain wheel and the auxiliary chain wheel.

The arrangement is that the motor generates power which is transmitted through the main chain wheel and the auxiliary chain wheel, and then the transmission case is used for driving the rotating shaft to rotate after conversion.

Further setting: the output end of the gearbox is connected with one of the rotating shaft couplings, and the gearbox and the motor are connected with the support frame through bolts.

So set up, make the stable drive of power after the gearbox conversion the pivot is rotatory.

Further setting: the box with the support frame welding, be vertical form in the middle of the box, the upside is outside toper form, and the downside is inside toper form.

Due to the arrangement, the scraps in the box body are concentrated towards the middle position by gravity when the scraps are on the upper side, and are intensively discharged towards the lower side after being bitten by the shredding disk.

Further setting: the rotating shaft is rotatably connected with the box body, the rotating shaft is connected with the gear spline, and the two gears are meshed with each other.

So set up, make the pivot passes through the meshing rotation of gear rotates to the inboard simultaneously, bites the bits material and crumbles.

Further setting: the biting discs are welded with the rotating shaft, the front biting disc and the rear biting disc are mutually staggered, and the adjacent surfaces are parallel and level.

By the arrangement, the connection strength of the biting disc and the rotating shaft is improved, so that the biting disc rotates to be relatively occluded.

Further setting: the guide plate is welded with the box body, and the guide plate inclines to the middle position by 15 degrees.

So set up, through the deflector is to the bits material of box upside to concentrate between the clenching dish.

Further setting: the discharge hopper is welded with the box body, and a bottom plate of the discharge hopper inclines downwards by 5-10 degrees.

So set up, make the sweeps after biting up pass through it is convenient for discharge to go out the hopper.

Further setting: the feeding hopper is close to the feeding port and is rotatably connected with the supporting frame, the upper portion of the feeding hopper is inserted into the inner side of the box body, the synchronous motors are symmetrically arranged on two sides of the box body, and the steel wire rope is wound on the winding drum.

According to the arrangement, the synchronous motor rotates to drive the winding drum to rotate, the steel wire rope is wound, the feeding hopper stably rotates under the support of the support frame, and scraps in the feeding hopper are fed into the box body.

Compared with the prior art, the beneficial effects of the utility model are as follows:

in will need to handle the box that bits material adds processing mechanism through feed mechanism, bite the bits material through biting the garrulous dish of garrulous mechanism relative rotation and snap down, improve the throughput to the bits material, reduce the space degree of occuping of bits material, be convenient for accomodate the storage to the bits material.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a first schematic structural view of an embodiment 1 of an iron scrap processing device for bearing production according to the present invention;

FIG. 2 is a second schematic structural view of an iron chip processing device for bearing production according to embodiment 1 of the present invention;

fig. 3 is a schematic front view of an iron scrap processing device according to embodiment 1 of the present invention;

FIG. 4 is a schematic structural view of the bearing production iron chip processing device in the right side view in the embodiment 1 of the present invention;

FIG. 5 is a schematic view of a partial structure of a crushing mechanism of the iron scrap processing device for bearing production according to the present invention;

FIG. 6 is a schematic diagram of a right side sectional structure of a crushing mechanism of the iron scrap processing device for bearing production according to the present invention;

FIG. 7 is a schematic view of the internal structure of the box body of the iron scrap processing device for bearing production according to the present invention;

FIG. 8 is a schematic structural view of a feeding mechanism of the scrap iron processing device for bearing production according to the present invention;

FIG. 9 is a schematic structural view of embodiment 2 of an iron chip processing device for bearing production.

The reference numerals are illustrated below:

1. a support frame; 2. a processing mechanism; 21. a crushing mechanism; 211. a box body; 212. a rotating shaft; 213. a grating disk; 214. a guide plate; 215. a box cover; 216. a feed inlet; 217. a discharge hopper; 218. a gear; 22. a power mechanism; 221. a gearbox; 222. a secondary pulley; 223. an electric motor; 224. a primary pulley; 225. a secondary sprocket; 226. a main sprocket; 3. a feeding mechanism; 31. feeding a hopper; 32. a connecting rod; 33. a synchronous motor; 34. a reel; 35. a steel cord.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The present invention will be further explained with reference to the accompanying drawings:

example 1

As shown in fig. 1-8, an iron scrap processing device for bearing production comprises a support frame 1, wherein a processing mechanism 2 for biting spiral iron scraps is arranged on the support frame 1, a feeding mechanism 3 for feeding the spiral iron scraps is arranged on the front side of the processing mechanism 2, and the feeding mechanism 3 and the processing mechanism 2 are connected with the support frame 1;

the processing mechanism 2 comprises a biting mechanism 21 and a power mechanism 22, one end of the biting mechanism 21 is connected with the power mechanism 22, the biting mechanism 21 comprises a box body 211 arranged on the support frame 1, two rotating shafts 212 are arranged on the inner side of the box body 211 in a front-back flush manner, biting discs 213 are arranged on the outer diameter of the rotating shafts 212 at intervals, guide plates 214 are arranged on the upper sides of the biting discs 213, which are positioned on the front and back walls of the box body 211, and are used for centralizing the bits between the biting discs 213, a box cover 215 is arranged at the upper end of the box body 211 and is used for placing the bits to splash upwards during biting, a feeding hole 216 is arranged on the front side wall of the box body 211 and positioned on the upper side of the guide plate 214, a discharging hopper 217 is arranged at the lower end of the box body 211, one end of the rotating shaft 212 penetrates through the box body 211 and is connected with a gear 218, and the other end of the rotating shaft 212 is connected with the power mechanism 22; feed mechanism 3 is provided with connecting rod 32 including setting up the feeding funnel 31 in the box 211 front side on the wall of feeding funnel 31 both sides for connect wire rope 35, and support frame 1 upper end is located the box 211 upside and is provided with synchronous machine 33, and synchronous machine 33 output is connected with reel 34, is provided with wire rope 35 between reel 34 and connecting rod 32.

Preferably, the following components: the power mechanism 22 comprises a gearbox 221 arranged on one side of the box body 211, an auxiliary belt wheel 222 is arranged at the end part of an input shaft of the gearbox 221, a motor 223 is arranged on the lower side of the gearbox 221, a main belt wheel 224 is connected to the input end of the motor 223, belts are arranged on the outer diameters of the main belt wheel 224 and the auxiliary belt wheel 222, so that power generated by the motor 223 is transmitted through the main belt wheel 224 and the auxiliary belt wheel 222, and then is converted through the gearbox 221 to drive the rotating shaft 212 to rotate; the output end of the gearbox 221 is connected with one of the rotating shafts 212 through a coupler, the gearbox 221 and the motor 223 are connected with the support frame 1 through bolts, and the rotating shafts 212 are driven to rotate stably by the power converted by the gearbox 221; the box body 211 is welded with the support frame 1, the middle of the box body 211 is vertical, the upper side is outward conical, and the lower side is inward conical, so that scraps in the box body 211 are concentrated to the middle position by gravity when the scraps are on the upper side, and are intensively discharged to the lower side after being bitten by the biting disc 213; the rotating shaft 212 is rotatably connected with the box body 211, the rotating shaft 212 is in spline connection with the gear 218, the two gears 218 are meshed with each other, so that the rotating shaft 212 rotates through the meshing of the gears 218 and simultaneously rotates inwards to bite the scraps; the clenching discs 213 are welded with the rotating shaft 212, the front clenching discs 213 and the rear clenching discs 213 are staggered, and the adjacent surfaces are flush, so that the connection strength of the clenching discs 213 and the rotating shaft 212 is improved, and the clenching discs 213 are relatively meshed in a rotating manner; the guide plate 214 is welded with the box body 211, the guide plate 214 inclines 15 degrees towards the middle position, and scraps on the upper side of the box body 211 are concentrated between the biting discs 213 through the guide plate 214; the discharge hopper 217 is welded with the box body 211, and the bottom plate of the discharge hopper 217 inclines downwards for 5-10 degrees, so that the crushed scraps can be conveniently discharged through the discharge hopper 217; the upper hopper 31 is rotatably connected with the support frame 1 near the feed inlet 216, the upper part of the upper hopper 31 is inserted into the inner side of the box body 211, two sides of the synchronous motor 33 are symmetrically arranged, the steel wire rope 35 is wound on the winding drum 34, so that the synchronous motor 33 rotates to drive the winding drum 34 to rotate, the steel wire rope 35 is wound, the upper hopper 31 is enabled to stably rotate under the support of the support frame 1, and scraps in the upper hopper 31 are thrown into the box body 211.

Example 2

As shown in fig. 5-9, an iron scrap processing device for bearing production comprises a support frame 1, wherein a processing mechanism 2 for biting spiral iron scraps is arranged on the support frame 1, a feeding mechanism 3 for feeding the spiral iron scraps is arranged on the front side of the processing mechanism 2, and the feeding mechanism 3 and the processing mechanism 2 are connected with the support frame 1;

the processing mechanism 2 comprises a crushing mechanism 21 and a power mechanism 22, one end of the crushing mechanism 21 is connected with the power mechanism 22, the crushing mechanism 21 comprises a box body 211 arranged on the support frame 1, two rotating shafts 212 are arranged on the inner side of the box body 211 in a front-back flush manner, crushing discs 213 are arranged on the outer diameter of the rotating shafts 212 at intervals, guide plates 214 are arranged on the upper sides of the crushing discs 213 on the front wall and the back wall of the box body 211 and used for concentrating the space between the crushing discs 213 of the scrap materials, a box cover 215 is arranged at the upper end of the box body 211 and used for placing the scrap materials to splash upwards during crushing, a feed inlet 216 is arranged on the front side wall of the box body 211 and positioned on the upper side of the guide plates 214, a discharge hopper 217 is arranged at the lower end of the box body 211, one end of the rotating shaft 212 penetrates through the box body 211 and is connected with a gear 218, and the other end of the rotating shaft 212 is connected with the power mechanism 22; feed mechanism 3 is provided with connecting rod 32 including setting up the feeding funnel 31 in the box 211 front side on the wall of feeding funnel 31 both sides for connect wire rope 35, and support frame 1 upper end is located the box 211 upside and is provided with synchronous machine 33, and synchronous machine 33 output is connected with reel 34, is provided with wire rope 35 between reel 34 and connecting rod 32.

Preferably: the power mechanism 22 comprises a gearbox 221 arranged on one side of the box body 211, an auxiliary chain wheel 225 is arranged at the end part of an input shaft of the gearbox 221, a motor 223 is arranged on the lower side of the gearbox 221, a main chain wheel 226 is connected to the input end of the motor 223, chains are arranged on the outer diameters of the main chain wheel 226 and the auxiliary chain wheel 225, so that power generated by the motor 223 is transmitted through the main chain wheel 226 and the auxiliary chain wheel 225, and then is converted through the gearbox 221 to drive the rotating shaft 212 to rotate; the output end of the gearbox 221 is connected with one of the rotating shafts 212 through a coupler, the gearbox 221 and the motor 223 are connected with the support frame 1 through bolts, and the rotating shafts 212 are driven to rotate stably by the power converted by the gearbox 221; the box body 211 is welded with the support frame 1, the middle of the box body 211 is vertical, the upper side is outward conical, and the lower side is inward conical, so that scraps in the box body 211 are concentrated to the middle position by gravity when the scraps are on the upper side, and are intensively discharged to the lower side after being bitten by the biting disc 213; the rotating shaft 212 is rotatably connected with the box body 211, the rotating shaft 212 is in spline connection with the gear 218, the two gears 218 are meshed with each other, so that the rotating shaft 212 rotates through the meshing of the gears 218 and simultaneously rotates inwards to bite the scraps; the biting discs 213 are welded with the rotating shaft 212, the front and rear biting discs 213 are staggered with the adjacent surfaces being flush, the connection strength of the biting discs 213 and the rotating shaft 212 is improved, and the biting discs 213 are relatively meshed when rotating; the guide plate 214 is welded with the box body 211, the guide plate 214 inclines 15 degrees towards the middle position, and scraps on the upper side of the box body 211 are concentrated between the biting discs 213 through the guide plate 214; the discharge hopper 217 is welded with the box body 211, and the bottom plate of the discharge hopper 217 inclines downwards for 5-10 degrees, so that the crushed scraps can be conveniently discharged through the discharge hopper 217; the upper hopper 31 is rotatably connected with the support frame 1 at a position close to the feeding hole 216, the upper part of the upper hopper 31 is inserted into the inner side of the box body 211, two sides of the synchronous motor 33 are symmetrically arranged, the steel wire rope 35 is wound on the winding drum 34, so that the synchronous motor 33 rotates to drive the winding drum 34 to rotate, the steel wire rope 35 is wound, the upper hopper 31 is enabled to stably rotate under the support of the support frame 1, and scraps in the upper hopper 31 are put into the box body 211.

The utility model discloses theory of operation and use flow: the chips are put into a feeding hopper 31 of a feeding mechanism 3, a synchronous motor 33 rotates to drive a winding drum 34 to rotate, a steel wire rope 35 drives the feeding hopper 31 to rotate upwards, the discharged materials in the feeding hopper 31 are poured into a box body 211, a motor 223 works to enable a rotating shaft 212 to rotate relatively under the meshing of a gear 218, a crushing disc 213 rotates relatively, the fallen chips are crushed relatively, the crushed chips fall into a discharging hopper 217 on the lower side to be discharged to one side, and then the feeding hopper 31 is put down to continue to add the chips to be processed.

The foregoing illustrates and describes the general principles, features and advantages of the present invention. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and all such changes and modifications fall within the scope of the present invention as claimed.

Claims (10)

1. The utility model provides a bearing production is with iron fillings processing apparatus which characterized in that: the device comprises a support frame (1), wherein a processing mechanism (2) for biting spiral scrap iron is arranged on the support frame (1), a feeding mechanism (3) for feeding the spiral scrap iron is arranged on the front side of the processing mechanism (2), and the feeding mechanism (3) and the processing mechanism (2) are connected with the support frame (1);

the processing mechanism (2) comprises an engagement mechanism (21) and a power mechanism (22), one end of the engagement mechanism (21) is connected with the power mechanism (22), the engagement mechanism (21) comprises a box body (211) arranged on the support frame (1), two rotating shafts (212) are arranged on the inner side of the box body (211) in a front-back flush manner, engagement discs (213) are arranged on the outer diameter of the rotating shafts (212) at intervals, guide plates (214) are arranged on the front wall and the rear wall of the box body (211) on the upper side of the engagement discs (213), a box cover (215) is arranged at the upper end of the box body (211), a feeding hole (216) is arranged on the guide plate (214) on the front side wall of the box body (211), a discharging hopper (217) is arranged at the lower end of the box body (211), one end of the rotating shaft (212) penetrates through the box body (211) and is connected with a gear (218), and the other end of the rotating shaft (212) is connected with the power mechanism (22); feed mechanism (3) are including setting up feeding funnel (31) of box (211) front side, be provided with connecting rod (32) on feeding funnel (31) both sides wall, support frame (1) upper end is located box (211) upside is provided with synchronous machine (33), synchronous machine (33) output is connected with reel (34), reel (34) with be provided with wire rope (35) between connecting rod (32).

2. The scrap iron processing device for bearing production according to claim 1, wherein: the power mechanism (22) comprises a gearbox (221) arranged on one side of the box body (211), a secondary belt wheel (222) is arranged at the end part of an input shaft of the gearbox (221), a motor (223) is arranged on the lower side of the gearbox (221), a primary belt wheel (224) is connected to the input end of the motor (223), and a belt is arranged on the outer diameters of the primary belt wheel (224) and the secondary belt wheel (222).

3. The scrap iron processing device for bearing production according to claim 1, wherein: the power mechanism (22) comprises a gearbox (221) arranged on one side of the box body (211), an auxiliary chain wheel (225) is arranged at the end part of an input shaft of the gearbox (221), a motor (223) is arranged on the lower side of the gearbox (221), a main chain wheel (226) is connected to the input end of the motor (223), and a chain is arranged on the outer diameter of the main chain wheel (226) and the outer diameter of the auxiliary chain wheel (225).

4. The iron scrap processing device for bearing production according to claim 2 or 3, wherein: the output end of the gearbox (221) is connected with the coupler of the rotating shaft (212) at one position, and the gearbox (221) and the motor (223) are connected with the support frame (1) through bolts.

5. The scrap iron processing device for bearing production according to claim 1, wherein: the box (211) with support frame (1) welding, be vertical form in the middle of box (211), the upside is outside toper form, and the downside is inside toper form.

6. The scrap iron processing device for bearing production according to claim 1, wherein: the rotating shaft (212) is rotationally connected with the box body (211), the rotating shaft (212) is in spline connection with the gear (218), and the two gears (218) are meshed with each other.

7. The scrap iron processing device for bearing production according to claim 1, wherein: the biting discs (213) are welded with the rotating shaft (212), the front biting disc (213) and the rear biting disc (213) are staggered, and the adjacent surfaces are flush.

8. The scrap iron processing device for bearing production according to claim 1, wherein: the guide plate (214) is welded with the box body (211), and the guide plate (214) inclines to the middle position by 15 degrees.

9. The scrap iron processing device for bearing production according to claim 1, wherein: the discharge hopper (217) is welded with the box body (211), and a bottom plate of the discharge hopper (217) is inclined downwards by 5-10 degrees.

10. The scrap iron processing device for bearing production according to claim 1, wherein: the feeding hopper (31) is close to the feeding hole (216) and is connected with the support frame (1) in a rotating mode, the upper portion of the feeding hopper (31) is inserted into the inner side of the box body (211), the synchronous motor (33) is symmetrically arranged on two sides, and the steel wire rope (35) is wound on the winding drum (34).

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