CN115070541A

CN115070541A - Deburring and polishing equipment for flywheel of diesel engine

Info

Publication number: CN115070541A
Application number: CN202211003296.3A
Authority: CN
Inventors: 沈伟; 蒋孝友; 赵长元; 朱正虎; 许志权
Original assignee: Jiangsu Kaineng Machinery Equipment Co ltd
Current assignee: Jiangsu Kaineng Machinery Equipment Co ltd
Priority date: 2022-08-22
Filing date: 2022-08-22
Publication date: 2022-09-20

Abstract

The invention discloses deburring and polishing equipment for a flywheel of a diesel engine, which comprises an intermittent contact preaction component, an intermittent trigger mechanism, a polishing adjusting component, a flywheel positioning component, a top sliding guide rail and an equipment support. The invention belongs to the field of diesel engine flywheel processing, and particularly relates to a deburring and polishing device for a diesel engine flywheel; the invention provides an intermittent contact preaction component matched with an intermittent trigger mechanism aiming at the contradictory technical characteristics that burrs on a flywheel of a diesel engine are required to be treated independently and can not be contacted with other parts on the flywheel.

Description

Deburring and polishing equipment for flywheel of diesel engine

Technical Field

The invention belongs to the technical field of diesel engine flywheel processing, and particularly relates to a deburring and polishing device for a diesel engine flywheel.

Background

On a diesel engine, a flywheel is a disc with large rotational inertia, and is mostly made of cast iron, so that most of the mass of the flywheel is concentrated on a wheel rim in order to reduce the mass of the flywheel and improve the rotational inertia.

The existing flywheel needs to be polished after being processed or maintained, but the existing polishing mode is that a manual polishing machine is manually used for polishing, or a professional polishing instrument is adopted for polishing.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the deburring and grinding equipment for the flywheel of the diesel engine, which effectively solves the technical problems that the difficulty of deburring and the time for grinding the flywheel of the diesel engine in the existing market are difficult to reduce.

The technical scheme adopted by the invention is as follows: the invention provides a deburring and polishing device for a flywheel of a diesel engine, which comprises an intermittent contact preaction component, an intermittent touch mechanism, a polishing adjusting component, a flywheel positioning component, a top sliding guide rail and a device bracket, wherein the top sliding guide rail is fixedly connected to the device bracket, the flywheel positioning component is arranged on the device bracket, the polishing adjusting component is arranged on the top sliding guide rail, the intermittent contact preaction component is arranged on the top sliding guide rail, and the intermittent touch mechanism is in transmission connection with the intermittent contact preaction component.

Preferably, the intermittent contact preaction component comprises a vertical lifting pad, a preaction component sliding support, a lifting driving motor, an eccentric wheel, an auxiliary pulley, an auxiliary spring, a fixed sleeve, an intermittent lifting column, an embedded shaft sleeve, a sleeve external guide ring, a driven telescopic column, a driven telescopic guide cylinder, a telescopic connecting frame and a preaction component propelling handle, wherein the preaction component sliding support is embedded and slidably arranged on a top sliding guide rail, a machine body of the lifting driving motor is fixedly connected to the preaction component sliding support, the eccentric wheel is eccentrically arranged on an output end of the lifting driving motor, the fixed sleeve is fixedly connected to the bottom of the preaction component sliding support, the intermittent lifting column is penetratingly and slidably arranged in the fixed sleeve, the auxiliary pulley is arranged at the top of the intermittent lifting column, the auxiliary spring is arranged between the auxiliary pulley and the fixed sleeve, so that the auxiliary pulley and the eccentric wheel are in contact all the time, the outside guide ring of sleeve encircles the rigid coupling on fixed sleeve's outer wall, intermittent type firing mechanism is located to driven flexible guide cylinder, driven flexible post slides and locates in the driven flexible guide cylinder, the bottom of driven flexible post is located to the expansion joint frame, the top of expansion joint frame is located to the gomphosis axle sleeve, the bottom of intermittent type post that plays that rises is located to the expansion joint frame through gomphosis axle sleeve gomphosis rotation, the pad rigid coupling that rises and falls perpendicularly is in the expansion joint frame, the preaction subassembly impels the handle rigid coupling on preaction subassembly sliding bracket's lateral wall.

Furthermore, the intermittent touch mechanism comprises an intermittent touch motor, a motor support, a driving rocker, an intermittent sliding head, an intermittent touch driving groove, an arc part, a linear part, an intermittent rotating disc and a central through hole, wherein the motor support is fixedly connected to the outer wall of the fixed sleeve, a machine body of the intermittent touch motor is arranged on the motor support, the driving rocker is fixedly connected to the output end of the intermittent touch motor, the intermittent sliding head is arranged at the end part of the driving rocker, the intermittent rotating disc is arranged on a sleeve external guide ring, the central through hole is arranged on the intermittent rotating disc in a penetrating manner, the intermittent rotating disc is arranged on the sleeve external guide ring in a rotating manner through the central through hole in an embedded manner, the intermittent touch driving groove is arranged on the intermittent touch driving groove, the arc part is arranged on the intermittent touch driving groove, and the linear part is arranged on the intermittent touch driving groove.

Wherein, the flywheel positioning component comprises an electric cylinder, a positioning component base, a positioning guide rail, a sliding positioning frame, a positioning contact plate, an electric cylinder connecting platform, a positioning connecting rod, a positioning component shell, a magnet ring and a flywheel placing platform, the positioning component shell is fixedly connected on the equipment bracket, a machine body of the electric cylinder is fixedly connected in the positioning component shell, the magnet ring is fixedly connected on the outer wall of the positioning component shell in a surrounding manner, the flywheel placing platform is fixedly connected between the inner walls of the positioning component shell, an operation adapting groove is arranged on the flywheel placing platform in a penetrating manner, the positioning component base is fixedly connected on the machine body of the electric cylinder, the positioning guide rail array is arranged on the positioning component base, the sliding positioning frame is embedded and slidably arranged on the positioning guide rail, the positioning contact plate is fixedly connected on the sliding positioning frame, the electric cylinder connecting platform is fixedly connected on the output end of the electric cylinder, one end of the positioning connecting rod is hinged on the electric cylinder connecting platform, the other end of the positioning connecting rod is hinged on the sliding positioning frame, the positioning contact plate is arranged on the operation adaptive slot in a penetrating and moving mode.

Preferably, the adjusting part of polishing includes the subassembly handle of polishing, the subassembly carriage of polishing, electric putter, driving motor and the dish of polishing, and on the sliding guide of top was located in the sliding of subassembly carriage gomphosis of polishing, the subassembly handle rigid coupling of polishing was on the lateral wall of the subassembly carriage of polishing, electric putter's fuselage rigid coupling in the bottom of the subassembly carriage of polishing, and on driving motor's fuselage of polishing was located electric putter's output, the dish rigid coupling of polishing was on driving motor's output.

Further, the intermittent slider is alternately provided in sliding contact with the circular arc portion and the linear portion.

Wherein, the vertical lifting pad is made of EVA foam material and has high acid resistance.

Preferably, the eccentric and the auxiliary pulley are connected in sliding contact.

Further, the driven telescopic guide cylinder is arranged at the bottom of the intermittent rotary disc.

Furthermore, two groups of driven telescopic columns and driven telescopic guide cylinders are arranged.

The invention with the structure has the following beneficial effects: this scheme provides a diesel engine flywheel burring equipment of polishing, has effectively solved the technical problem that is difficult to reduce the degree of difficulty that the burr was polished, is difficult to shorten the time of polishing when diesel engine flywheel polishes on the existing market, and this kind of method has following advantage:

(1) the invention aims at the contradictory technical characteristics that burr on the flywheel of the diesel engine is contacted to be treated independently and other parts (normal parts for preventing dilute hydrochloric acid from corroding no burr) on the flywheel can not be contacted, an intermittent contact preaction component matched with an intermittent contact mechanism is provided, an intermittent contact motor is started, so that a rocker is driven to rotate, an intermittent sliding head is driven to rotate circularly, the intermittent sliding head slides along an arc part on an intermittent contact driving groove firstly, an intermittent rotating disc can not be driven to rotate in the process, when the intermittent sliding head passes through a straight line part, the intermittent rotating disc is driven to rotate immediately, the arc part and the straight line part are arranged in four groups, the intermittent sliding head alternately passes through the arc part and the straight line part, the intermittent rotation of the intermittent rotating disc is realized, and a driven telescopic guide cylinder connected with the bottom of the intermittent rotating disc synchronously and intermittently rotates, the vertical lifting pad is arranged at the bottom of the intermittent lifting column in an embedded rotating mode through the embedded shaft sleeve, so that when the vertical lifting pad rotates intermittently, the intermittent lifting column is not hindered from driving the intermittent lifting column to perform intermittent up-and-down movement;

(2) the lifting driving motor and the intermittent touch motor are controlled, when the intermittent sliding head slides along the arc part, the intermittent lifting column just drives the vertical lifting pad to move downwards and contact with the flywheel below, and when the intermittent lifting column moves upwards subsequently, the intermittent sliding head just drives the intermittent rotating disc to rotate once through the straight line part, so that the reciprocating circulation is realized, namely, a new part on the intermittent lifting pad is contacted with the burrs on the surface of the flywheel during each movement of the vertical lifting pad, the burrs are not contacted with the burrs in the horizontal direction and are only contacted with the burrs on the surface of the flywheel in the vertical direction, the dilute hydrochloric acid solution on the fabric cannot drop to other positions of the flywheel disc due to the extrusion of the burrs, so that the non-existing part on the flywheel disc is not corroded by the dilute hydrochloric acid, the integrity of the surface of the flywheel disc is reserved, and the independent treatment of the burrs on the flywheel disc is realized, the whole process is very fast, the burrs on the whole flywheel disc can be independently treated only by intermittently triggering the motor and operating the lifting driving motor for a short time, time cannot be wasted, and the effect of the existing equipment or manual operation cannot be quickly and independently realized on the burrs easily;

(3) because the burr on the flywheel also is the cast iron material, in the burr piece that falls after polishing directly by the magnet ring absorption collection, be favorable to follow-up to burr centralized processing.

Drawings

FIG. 1 is a front view of a deburring and grinding device for a flywheel of a diesel engine provided by the invention;

FIG. 2 is a front view of the intermittent pre-actuation assembly, intermittent actuation mechanism provided by the present invention;

FIG. 3 is a front cross-sectional view of an intermittent contact preaction assembly, an intermittent activation mechanism, provided in accordance with the present invention;

FIG. 4 is a schematic diagram of an internal structure of the flywheel positioning assembly provided by the present invention;

FIG. 5 is a top view of the flywheel positioning assembly provided by the present invention;

FIG. 6 is a schematic diagram of an internal structure of the flywheel positioning assembly provided by the present invention;

FIG. 7 is a top plan view of an intermittent actuation mechanism provided by the present invention;

FIG. 8 is a perspective view of an intermittent actuation mechanism provided by the present invention;

fig. 9 is a partially enlarged view of a portion a of fig. 4.

Wherein, 1, intermittent contact preaction component, 2, intermittent trigger mechanism, 3, polishing adjusting component, 4, flywheel positioning component, 5, top sliding guide rail, 6, equipment support, 7, vertical lifting pad, 8, preaction component sliding support, 9, lifting driving motor, 10, eccentric wheel, 11, auxiliary pulley, 12, auxiliary spring, 13, fixed sleeve, 14, intermittent lifting column, 15, embedded shaft sleeve, 16, sleeve external guide ring, 17, driven telescopic column, 18, driven telescopic guide cylinder, 19, telescopic connecting frame, 20, preaction component propelling handle, 21, intermittent trigger motor, 22, motor support, 23, driving rocker, 24, intermittent sliding head, 25, intermittent trigger driving groove, 26, arc part, 27, straight part, 28, intermittent rotating disc, 29, center through hole, 30, electric cylinder, 31, positioning component base, 32. the device comprises a positioning guide rail, 33, a sliding positioning frame, 34, a positioning contact plate, 35, an electric cylinder connecting table, 36, a positioning connecting rod, 37, a positioning component shell, 38, a magnet ring, 39, a flywheel placing table, 40, a polishing component handle, 41, a polishing component sliding frame, 42, an electric push rod, 43, a polishing driving motor, 44, a polishing disc, 45 and an operation adapting groove.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

As shown in fig. 1-9, the invention provides a deburring and polishing device for a flywheel of a diesel engine, which comprises an intermittent contact preaction component 1, an intermittent contact mechanism 2, a polishing adjustment component 3, a flywheel positioning component 4, a top sliding guide rail 5 and a device bracket 6, wherein the top sliding guide rail 5 is fixedly connected to the device bracket 6, the flywheel positioning component 4 is arranged on the device bracket 6, the polishing adjustment component 3 is arranged on the top sliding guide rail 5, the intermittent contact preaction component 1 is arranged on the top sliding guide rail 5, and the intermittent contact mechanism 2 is arranged on the intermittent contact preaction component 1 in a transmission connection manner.

The intermittent contact preaction component 1 comprises a vertical lifting pad 7, a preaction component sliding support 8, a lifting driving motor 9, an eccentric wheel 10, an auxiliary pulley 11, an auxiliary spring 12, a fixed sleeve 13, an intermittent lifting column 14, an embedded shaft sleeve 15, a sleeve external guide ring 16, a driven telescopic column 17, a driven telescopic guide cylinder 18, a telescopic connecting frame 19 and a preaction component propelling handle 20, wherein the preaction component sliding support 8 is embedded and slidably arranged on a top sliding guide rail 5, a machine body of the lifting driving motor 9 is fixedly connected on the preaction component sliding support 8, the eccentric wheel 10 is eccentrically arranged on the output end of the lifting driving motor 9, the fixed sleeve 13 is fixedly connected at the bottom of the preaction component sliding support 8, the intermittent lifting column 14 is penetratingly and slidably arranged in the fixed sleeve 13, the auxiliary pulley 11 is arranged at the top of the intermittent lifting column 14, the auxiliary spring 12 is arranged between the auxiliary pulley 11 and the fixed sleeve 13, make contact all the time between auxiliary pulley 11 and eccentric wheel 10, sleeve outside guide ring 16 encircles on the outer wall of fixed sleeve 13 of rigid coupling, driven flexible guide cylinder 18 is located on intermittent type actuating mechanism 2, driven flexible post 17 slides and locates in driven flexible guide cylinder 18, flexible link 19 locates the bottom of driven flexible post 17, gomphosis axle sleeve 15 locates the top of flexible link 19, flexible link 19 rotates the bottom of locating intermittent type post 14 that rises through gomphosis axle sleeve 15 gomphosis, the pad 7 rigid coupling that rises and falls in flexible link 19 perpendicularly, the subassembly impels handle 20 rigid coupling on the lateral wall of preaction subassembly sliding bracket 8 in advance.

The intermittent actuating mechanism 2 comprises an intermittent actuating motor 21, a motor bracket 22, a driving rocker 23, an intermittent sliding head 24, an intermittent actuating driving groove 25, an arc part 26, a straight part 27, an intermittent rotating disc 28 and a central through hole 29, the motor support 22 is fixedly connected to the outer wall of the fixed sleeve 13, the body of the intermittent touch motor 21 is arranged on the motor support 22, the driving rocker 23 is fixedly connected to the output end of the intermittent touch motor 21, the intermittent sliding head 24 is arranged at the end part of the driving rocker 23, the intermittent rotating disc 28 is arranged on the sleeve outer guide ring 16, the central through hole 29 is arranged on the intermittent rotating disc 28 in a penetrating manner, the intermittent rotating disc 28 is arranged on the sleeve outer guide ring 16 in a jogged and rotating manner through the central through hole 29, the intermittent touch driving groove 25 is arranged on the intermittent rotating disc 28, the circular arc part 26 is arranged on the intermittent touch driving groove 25, and the straight line part 27 is arranged on the intermittent touch driving groove 25.

The flywheel positioning assembly 4 comprises an electric cylinder 30, a positioning assembly base 31, a positioning guide rail 32, a sliding positioning frame 33, a positioning contact plate 34, an electric cylinder connecting table 35, a positioning connecting rod 36, a positioning assembly shell 37, a magnet ring 38 and a flywheel placing table 39, wherein the positioning assembly shell 37 is fixedly connected to the equipment support 6, a machine body of the electric cylinder 30 is fixedly connected to the positioning assembly shell 37, the magnet ring 38 is fixedly connected to the outer wall of the positioning assembly shell 37 in a surrounding manner, the flywheel placing table 39 is fixedly connected between the inner walls of the positioning assembly shell 37, an operation adapting groove 45 is arranged on the flywheel placing table 39 in a penetrating manner, the positioning assembly base 31 is fixedly connected to the machine body of the electric cylinder 30, the positioning guide rails 32 are arranged on the positioning assembly base 31 in an array manner, the sliding positioning frame 33 is embedded and slidably arranged on the positioning guide rails 32, the positioning contact plate 34 is fixedly connected to the sliding positioning frame 33, the electric cylinder connecting table 35 is fixedly connected to the output end of the electric cylinder 30, one end of the positioning connecting rod 36 is hinged on the electric cylinder connecting table 35, the other end of the positioning connecting rod 36 is hinged on the sliding positioning frame 33, and the positioning contact plate 34 penetrates through and moves on the operation adapting groove 45.

The adjusting part 3 of polishing includes the subassembly handle of polishing 40, the subassembly carriage 41 of polishing, electric putter 42, the driving motor 43 and the dish 44 of polishing, the subassembly carriage 41 gomphosis of polishing slides and locates on top sliding guide 5, the subassembly handle 40 rigid coupling of polishing is on the lateral wall of subassembly carriage 41 of polishing, electric putter 42's fuselage rigid coupling is in the bottom of subassembly carriage 41 of polishing, the fuselage of driving motor 43 of polishing is located on electric putter 42's the output, the dish 44 rigid coupling of polishing is on the output of driving motor 43 of polishing.

The intermittent slider 24 is alternately provided in sliding contact with the circular arc portion 26 and the straight portion 27.

The vertical lifting pad 7 is made of EVA foam material and has high acid resistance.

The eccentric 10 and the auxiliary pulley 11 are connected in sliding contact.

The driven telescopic guide cylinder 18 is provided at the bottom of the intermittent rotary disk 28.

Two groups of driven telescopic columns 17 and driven telescopic guide cylinders 18 are arranged.

When the device is used, firstly, the flywheel is placed on the flywheel placing table 39, the electric cylinder 30 is started, the output end of the electric cylinder 30 is controlled to retract, then the electric cylinder connecting table 35 drives the positioning connecting rod 36 to swing, so that a plurality of groups of sliding positioning frames 33 are drawn close to the center along the positioning guide rail 32 and slide, so that the positioning contact plates 34 are drawn close to move, a plurality of groups of positioning contact plates 34 pass through the operation adapting grooves 45 and are fixed on the bottom edge of the flywheel, so that the flywheel is stably positioned, then the flywheel is pretreated firstly, the handheld preaction component is pushed into the handle 20, the intermittent contact preaction component 1 is adjusted in a sliding mode along the top sliding guide rail 5, so that the vertical lifting pad 7 is positioned above a flywheel disc, the vertical lifting pad 7 is soaked in dilute hydrochloric acid in advance, taken out and then installed on the telescopic connecting frame 19, the intermittent contact motor 21 is started, so that the rocker 23 is driven to rotate, and the intermittent sliding head 24 is driven to circumferentially rotate, the intermittent sliding head 24 slides along the circular arc part 26 on the intermittent contact driving slot 25, the intermittent rotating disc 28 is not driven to rotate in the process, when the intermittent sliding head 24 passes through the straight line part 27, the intermittent rotating disc 28 is driven to rotate immediately, the circular arc part 26 and the straight line part 27 are arranged in four groups, the intermittent sliding head 24 alternately passes through the circular arc part 26 and the straight line part 27, the intermittent rotation of the intermittent rotating disc 28 is realized, then the driven telescopic guide cylinder 18 connected to the bottom of the intermittent rotating disc 28 synchronously rotates intermittently, the telescopic connecting frame 19 synchronously rotates intermittently, the vertical lifting pad 7 synchronously rotates intermittently, when the lifting driving motor 9 is started, the eccentric wheel 10 eccentrically rotates, the auxiliary pulley 11 moves, due to the arrangement of the auxiliary spring 12, the eccentric wheel 10 and the auxiliary pulley 11 are always attached during the movement, and the intermittent lifting column 14 is driven to slide in the fixed sleeve 13 in a reciprocating manner, the driven telescopic column 17 slides along the driven telescopic guide cylinder 18, and because the telescopic connecting frame 19 is embedded and rotated at the bottom of the intermittent lifting column 14 through the embedded shaft sleeve 15, when the vertical lifting pad 7 rotates intermittently, the intermittent lifting column 14 is not prevented from driving the intermittent lifting column 14 to move up and down, the lifting driving motor 9 and the intermittent touch motor 21 are controlled, so that when the intermittent sliding head 24 slides along the circular arc part 26, the intermittent lifting column 14 just drives the vertical lifting pad 7 to move down and contact with a flywheel below, and when the intermittent lifting column 14 moves up later, the intermittent sliding head 24 just drives the intermittent rotating disc 28 to rotate once through the straight line part 27, so as to reciprocate, namely, a new part on the intermittent sliding head is contacted with burrs on the surface of the flywheel every time the vertical lifting pad 7 moves, and the burrs do not contact with the burrs to move in the horizontal direction, only the vertical direction is contacted with the burrs on the surface of the flywheel, so that the dilute hydrochloric acid solution on the vertical lifting pad 7 can not drop to other positions of the flywheel disc due to the extrusion of the burrs, the smooth part on the flywheel can not be contacted with the vertical lifting pad 7 naturally, the dilute hydrochloric acid absorbed in the vertical lifting pad 7 can not meet the burr-free part on the flywheel disc, the burr-free part on the flywheel disc can not be corroded by the dilute hydrochloric acid, the integrity of the surface of the flywheel disc is kept, the independent treatment of the burrs on the flywheel disc is realized, the burrs on the surface of cast iron can be quickly softened by the corrosion and dissolution effect of the dilute hydrochloric acid in the vertical lifting pad 7 which moves repeatedly, the whole process is very quick, the intermittent trigger motor 21 and the lifting drive motor 9 can realize the independent treatment of the burrs on the whole flywheel disc by running for a short time, the polishing process is smoother, and no time is wasted, and present equipment or manual operation all are difficult to realize this effect to the burr alone fast, adjust the preaction subassembly again and impel handle 20, make the pad 7 that rises and falls perpendicularly remove to one side, then utilize grinding assembly handle 40 to adjust the adjusting part 3 of polishing, make polishing disc 44 be located directly over the flywheel, control electric putter 42 makes polishing disc 44 and flywheel contact, then start the driving motor 43 of polishing, then polish, the burr after frequently contacting with dilute hydrochloric acid softens breakable, the polishing of polishing disc 44 of being very convenient for, because burr on the flywheel also is the cast iron material, then the burr piece that falls after polishing is directly adsorbed by magnet ring 38 and is collected, be favorable to follow-up centralized processing to the burr.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a diesel engine flywheel burring equipment of polishing which characterized in that: the polishing device comprises an intermittent contact pre-acting assembly (1), an intermittent contact pre-acting mechanism (2), a polishing adjusting assembly (3), a flywheel positioning assembly (4), a top sliding guide rail (5) and an equipment support (6), wherein the top sliding guide rail (5) is fixedly connected to the equipment support (6), the flywheel positioning assembly (4) is arranged on the equipment support (6), the polishing adjusting assembly (3) is arranged on the top sliding guide rail (5), the intermittent contact pre-acting assembly (1) is arranged on the top sliding guide rail (5), and the intermittent contact pre-acting mechanism (2) is in transmission connection with the intermittent contact pre-acting assembly (1).

2. The deburring grinding device for the flywheel of the diesel engine as claimed in claim 1, wherein: the intermittent contact preaction component (1) comprises a vertical lifting pad (7), a preaction component sliding support (8), a lifting driving motor (9), an eccentric wheel (10), an auxiliary pulley (11), an auxiliary spring (12), a fixed sleeve (13), an intermittent lifting column (14), an embedded shaft sleeve (15), a sleeve external guide ring (16), a driven telescopic column (17), a driven telescopic guide cylinder (18), a telescopic connecting frame (19) and a preaction component propelling handle (20), wherein the preaction component sliding support (8) is embedded and slidably arranged on a top sliding guide rail (5), a machine body of the lifting driving motor (9) is fixedly connected on the preaction component sliding support (8), the eccentric wheel (10) is eccentrically arranged on the output end of the lifting driving motor (9), and the fixed sleeve (13) is fixedly connected at the bottom of the preaction component sliding support (8), the intermittent lifting column (14) is arranged in the fixed sleeve (13) in a penetrating and sliding mode, the auxiliary pulley (11) is arranged at the top of the intermittent lifting column (14), the auxiliary spring (12) is arranged between the auxiliary pulley (11) and the fixed sleeve (13) to enable the auxiliary pulley (11) and the eccentric wheel (10) to be in contact all the time, the sleeve outer guide ring (16) is fixedly connected to the outer wall of the fixed sleeve (13) in a surrounding mode, the driven telescopic guide cylinder (18) is arranged on the intermittent touch mechanism (2), the driven telescopic column (17) is arranged in the driven telescopic guide cylinder (18) in a sliding mode, the telescopic connecting frame (19) is arranged at the bottom of the driven telescopic column (17), the embedded shaft sleeve (15) is arranged at the top of the telescopic connecting frame (19), and the telescopic connecting frame (19) is arranged at the bottom of the intermittent lifting column (14) in an embedded and rotating mode through the embedded shaft sleeve (15), the vertical lifting pad (7) is fixedly connected in a telescopic connecting frame (19), and the pre-acting component propelling grip (20) is fixedly connected on the side wall of the pre-acting component sliding support (8).

3. The deburring device for the flywheel of the diesel engine as claimed in claim 2, characterized in that: the intermittent touch mechanism (2) comprises an intermittent touch motor (21), a motor support (22), a driving rocker (23), an intermittent sliding head (24), an intermittent touch driving groove (25), an arc part (26), a straight line part (27), an intermittent rotating disc (28) and a central through hole (29), the motor support (22) is fixedly connected to the outer wall of the fixed sleeve (13), the body of the intermittent touch motor (21) is arranged on the motor support (22), the driving rocker (23) is fixedly connected to the output end of the intermittent touch motor (21), the intermittent sliding head (24) is arranged at the end part of the driving rocker (23), the intermittent rotating disc (28) is arranged on the sleeve outer guide ring (16), the central through hole (29) is arranged on the intermittent rotating disc (28) in a penetrating way, and the intermittent rotating disc (28) is arranged on the sleeve outer guide ring (16) in a embedding and rotating way through the central through hole (29), the intermittent touch driving groove (25) is arranged on the intermittent rotating disc (28), the arc part (26) is arranged on the intermittent touch driving groove (25), and the straight part (27) is arranged on the intermittent touch driving groove (25).

4. The deburring grinding device for the flywheel of the diesel engine as claimed in claim 3, wherein: the flywheel positioning assembly (4) comprises an electric cylinder (30), a positioning assembly base (31), a positioning guide rail (32), a sliding positioning frame (33), a positioning contact plate (34), an electric cylinder connecting table (35), a positioning connecting rod (36), a positioning assembly shell (37), a magnet ring (38) and a flywheel placing table (39), wherein the positioning assembly shell (37) is fixedly connected to the equipment support (6), a machine body of the electric cylinder (30) is fixedly connected to the positioning assembly shell (37), the magnet ring (38) is fixedly connected to the outer wall of the positioning assembly shell (37) in a surrounding manner, the flywheel placing table (39) is fixedly connected between the inner walls of the positioning assembly shell (37), an operation adapting groove (45) penetrates through the flywheel placing table (39), the positioning assembly base (31) is fixedly connected to the machine body of the electric cylinder (30), and the positioning guide rail (32) is arranged on the positioning assembly base (31) in an array manner, slide locating rack (33) gomphosis slides and locates on location guide rail (32), location contact board (34) rigid coupling is on slide locating rack (33), electric cylinder connects platform (35) rigid coupling on the output of electric cylinder (30), the one end of location connecting rod (36) articulates on electric cylinder connects platform (35), the other end of location connecting rod (36) articulates on slide locating rack (33), location contact board (34) run through the removal and locate on operation adaptation groove (45).

5. The deburring grinding device for the flywheel of the diesel engine as claimed in claim 4, wherein: the adjusting part (3) of polishing is including polishing subassembly handle (40), the subassembly carriage (41) of polishing, electric putter (42), driving motor (43) and the dish (44) of polishing, polishing subassembly carriage (41) gomphosis slides and locates on top sliding guide (5), polish subassembly handle (40) rigid coupling on the lateral wall of subassembly carriage (41) of polishing, the fuselage rigid coupling of electric putter (42) is in the bottom of subassembly carriage (41) of polishing, the fuselage of driving motor (43) of polishing is located on the output of electric putter (42), polish dish (44) rigid coupling on the output of driving motor (43) of polishing.

6. The deburring grinding device for the flywheel of the diesel engine as claimed in claim 5, wherein: the intermittent slider (24) is alternately provided in sliding contact with the circular arc portion (26) and the straight portion (27).

7. The deburring grinding device for the flywheel of the diesel engine as claimed in claim 6, wherein: the vertical lifting pad (7) is made of EVA foam material and has high acid resistance.

8. The deburring grinding device for the flywheel of the diesel engine as claimed in claim 7, wherein: the eccentric wheel (10) is connected with the auxiliary pulley (11) in a sliding contact manner.

9. The deburring grinding device for the diesel engine flywheel of claim 8, characterized in that: the driven telescopic guide cylinder (18) is arranged at the bottom of the intermittent rotating disc (28).

10. The deburring grinding device for the diesel engine flywheel of claim 9, characterized in that: two groups of driven telescopic columns (17) and driven telescopic guide cylinders (18) are arranged.