CN218695926U - Cutting and polishing integrated machine for mechanical transmission part - Google Patents

Abstract

The utility model relates to the technical field of metal part cutting and polishing, in particular to a mechanical transmission part cutting and polishing integrated machine, which enables equipment to simultaneously cut and polish mechanical transmission parts by matching a cutting structure, a transportation structure, a polishing structure and a transverse moving structure, improves the working efficiency of the equipment and reduces the labor intensity of operators; the equipment is protected through the supporting structure, so that the protection, safety and practicability of the equipment are improved; comprises a grinding disc; further comprising: the device comprises a supporting structure, a plurality of groups of transverse moving structures, a cutting structure, a conveying structure and a polishing structure, wherein the supporting structure provides a space for installation and walking of the device; the multiple groups of transverse moving structures provide transverse moving capability for the equipment; the cutting structure is a log cutting part; the conveying structure conveys the workpiece processed by the cutting structure; the grinding junction grinds the mechanical transmission part.

Description

Cutting and polishing integrated machine for mechanical transmission part

Technical Field

The utility model relates to a technical field that metal parts cutting was polished especially relates to a mechanical transmission part cutting all-in-one of polishing.

Background

The mechanical transmission part cutting and polishing integrated machine is an auxiliary device for cutting and polishing the mechanical transmission part, and is widely used in the field of cutting and polishing metal parts; the existing mechanical transmission part cutting and polishing integrated machine comprises a cutting machine, an electric hand drill and a polishing disc, wherein the polishing disc is arranged at the power output end of the electric hand drill; when the existing mechanical transmission part cutting and polishing integrated machine is used, firstly, raw materials are cut and molded through a cutting machine, then a polishing disc is installed on an electric hand drill, the electric hand drill is turned on, and an operator holds the electric hand drill to polish the mechanical transmission part; the existing mechanical transmission part cutting and polishing integrated machine is discovered in use, two processes can not be carried out simultaneously, a large amount of manpower is consumed in the polishing process, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a cutting and polishing device which can simultaneously cut and polish mechanical transmission parts through the matching of a cutting structure, a transportation structure, a polishing structure and a transverse moving structure, thereby improving the working efficiency of the device and reducing the labor intensity of operators; the device is protected through the supporting structure, and the protection performance, safety and practicability of the device are improved.

The utility model relates to a cutting and polishing integrated machine of a mechanical transmission part, which comprises a polishing disc; further comprising: the device comprises a supporting structure, a plurality of groups of transverse moving structures, a cutting structure, a conveying structure and a polishing structure, wherein the supporting structure supports the device main body and provides a space for mounting and walking the device; the multiple groups of transverse moving structures are all arranged on the supporting structure and provide transverse moving capability for the equipment; the cutting structure is arranged on the transverse moving structure and is a raw material cutting part; the conveying structure is arranged on the transverse moving structure and conveys the workpiece processed by the cutting structure; the polishing structure is arranged on the transverse moving structure and polishes the mechanical transmission part; through the cooperation of lateral shifting structure and cutting structure, make equipment cut former material, make the mechanical transmission part that equipment will accomplish the cutting move next work area through the lateral shifting structure with the cooperation of transportation structure, make equipment polish to the machining part through the lateral shifting structure with the cooperation of the structure of polishing, support former material through bearing structure, reduce the cutting structure to the damage of equipment self in cutting process, improved the protectiveness and the practicality of equipment.

Preferably, the supporting structure comprises a bottom plate and two transverse steel rails, the two transverse steel rails are respectively arranged at the front end and the rear end of the upper end face of the bottom plate in parallel, a plurality of groups of supporting steel plates which are uniformly arranged are arranged on the upper end face of the right part of the bottom plate, the tops of the supporting steel plates are pointed, the plurality of groups of supporting steel plates are all located in a space between the two transverse steel rails, two protection plates are arranged at the left part of the bottom plate, and the two protection plates are all located between the two transverse steel rails; through two sideslip rails provide the support to equipment horizontal walking, through setting up multiunit supporting steel plate, make the log place in the supporting steel plate upper end, reduce the damage that produces equipment self among the cutting process, through setting up two guard plates, the flying debris that produces in the reduction structure course of working enters into the sideslip rail region and causes the influence to equipment horizontal walking, has improved the protectiveness and the stability of equipment.

Preferably, the transverse moving structure comprises 6 groups of transverse moving trolleys, 3 groups of transverse moving motors and 3 groups of transverse moving reducers, the lower end face of each transverse moving trolley is arranged at the upper end of a transverse moving steel rail, a slot is formed in the lower end face of each transverse moving trolley, a travelling wheel is arranged in each slot, each transverse moving motor and each transverse moving reducer are arranged at the front end of each transverse moving trolley, the output end of each transverse moving motor is connected with the input end of each transverse moving reducer, and the output end of each transverse moving reducer penetrates through the front end of each transverse moving trolley and is connected with the travelling wheel in each slot of each transverse moving trolley; the transverse moving motor is started, and the transverse moving motor transmits power to the traveling wheels of the transverse moving trolley through the transverse moving speed reducer to drive the equipment to move transversely, so that the mobility of the equipment is improved.

Preferably, the cutting structure comprises a cutting portal, a cutting trolley, a cutting motor, a cutting speed reducer, a cutting hydraulic cylinder, a cutting mounting plate and a laser spray gun, the lower end faces of front and rear support legs of the cutting portal are respectively connected with the upper end faces of the two transverse moving trolleys, a cutting track is arranged on the upper end face of the cutting portal in the front-rear direction, a groove is formed in the middle of the cutting trolley, a walking wheel is arranged at the top end inside the groove, the cutting motor and the cutting speed reducer are both mounted at the upper end of the cutting trolley, the output end of the cutting speed reducer penetrates through the upper end of the cutting trolley and is connected with the walking wheel of the cutting trolley, a top cross beam of the cutting portal penetrates through the middle of the cutting trolley and is connected with the cutting trolley through the cutting track, the cutting trolley can walk on the cutting track, the fixed end of the cutting hydraulic cylinder is mounted on the lower end face of the cutting trolley, the upper end face of the cutting mounting plate is connected with the moving end of the cutting hydraulic cylinder, and the fixed end of the laser spray gun is mounted at the lower end of the cutting mounting plate; open the cutting motor, on the cutting motor passes through the cutting reduction gear with power transmission to the walking wheel of cutting portal, control cutting dolly and remove on the cutting track, open the cutting pneumatic cylinder, through the height of cutting pneumatic cylinder self telescopic control laser spray gun work, cut the log through lateral shifting structure, cutting dolly and cutting pneumatic cylinder cooperation, improved the work efficiency of equipment.

Preferably, the transportation structure comprises a transportation portal frame and a plurality of groups of hoisting trolleys, the lower ends of two support legs of the transportation portal frame are respectively arranged on the upper end surfaces of the two transverse moving trolleys, a plurality of T-shaped rails are arranged in the front-back direction of the top of the transportation portal frame, and the plurality of groups of hoisting trolleys are all arranged on the T-shaped rails; make transport structure can transversely walk on the sideslip rail through transportation portal and lateral shifting structure cooperation, through setting up T type rail, make the hoist and mount dolly can freely walk on T type rail, the mechanical transmission part of accomplishing the cutting can be mentioned to the hoist and mount dolly to transport next machining area through lateral shifting structure and transportation portal cooperation, operating personnel's intensity of labour has been reduced, reduce the probability that operating personnel was scalded by the transmission part of just accomplishing the cutting simultaneously, equipment flexibility and practicality have been improved.

Preferably, the hoisting trolley comprises a transfer trolley, a transfer motor, a transfer reducer, an electric hoist, a steel wire, an electromagnet and two rollers, wherein the two rollers are arranged at the top of the transfer trolley, the T-shaped rail passes through the middle part of the transfer trolley, the transfer trolley is connected with the T-shaped rail through the two rollers at the top, the transfer motor and the transfer reducer are both arranged on the left end surface of the transfer trolley, the output end of the transfer motor is connected with the input end of the transfer reducer, the output end of the transfer reducer passes through the left end surface of the transfer trolley and is connected with the rollers, the fixed end of the electric hoist is arranged on the lower end surface of the transfer trolley, and the lower end of the steel wire is connected with the electromagnet; open the transportation motor, the transportation motor passes through the transportation reduction gear with power transmission to last, drives and transports the dolly and remove on T type rail, opens the electro-magnet and puts long steel wire through electronic hoist and puts, makes the electro-magnet hold mechanical transmission part to it removes to drive mechanical transmission part, remove fixed position after close the electro-magnet can, improved the practicality of equipment.

Preferably, the polishing structure comprises a polishing disc, a polishing portal, a polishing track, a polishing motor, a polishing reducer, a polishing trolley, a polishing hydraulic cylinder, a polishing mounting plate, a polishing motor and a polishing reducer, the lower end faces of front and rear support legs of the polishing portal are respectively connected with the upper end faces of the two transverse moving trolleys, the polishing track is arranged on the upper end face of the polishing portal in the front-back direction, a slot is formed in the middle of the polishing trolley, a traveling wheel is arranged at the top end inside the slot, the polishing reducer and the polishing motor are both mounted at the upper end of the polishing trolley, the output end of the polishing motor is connected with the input end of the polishing reducer, the output end of the polishing reducer penetrates through the upper end of the polishing trolley and is connected with the traveling wheel of the polishing trolley, a top cross beam of the polishing portal penetrates through the middle of the polishing trolley and is connected with the polishing trolley through the polishing track, the polishing trolley can travel on the polishing track, the fixed end of the polishing hydraulic cylinder is connected with the lower end face of the polishing trolley, the upper end face of the polishing mounting plate is connected with the output end of the polishing reducer, and the output end of the polishing reducer is mounted on the polishing mounting plate; open grinding motor, grinding motor through a grinding reduction gear with power transmission to the walking wheel in the dolly of polishing on, the walking wheel drives the dolly of polishing and walks on the track of polishing, later opens the pneumatic cylinder of polishing, places the dish of polishing at suitable height through the pneumatic cylinder that polishes is flexible, then opens No. two grinding motor, no. two grinding motor through No. two grinding reduction gears with power take off to the dish of polishing on, drive the dish of polishing and rotate and polish, improved equipment flexibility and practicality.

Compared with the prior art, the beneficial effects of the utility model are that: through the cooperation of the transverse moving structure and the cutting structure, the equipment is enabled to cut the raw material, the mechanical transmission part for completing the cutting of the equipment is enabled to move to the next working area through the cooperation of the transverse moving structure and the conveying structure, the equipment is enabled to polish the machining part through the cooperation of the transverse moving structure and the polishing structure, the raw material is supported through the supporting structure, the damage of the cutting structure to the equipment is reduced in the cutting process, and the protection performance and the practicability of the equipment are improved.

Drawings

Fig. 1 is a schematic view of a first axial structure of the present invention;

fig. 2 is a schematic diagram of a second axial measurement structure of the present invention;

fig. 3 is a right-side view structural schematic diagram of the present invention;

fig. 4 is a schematic sectional structure of the present invention;

FIG. 5 is a schematic structural view of the hoisting trolley of the present invention;

FIG. 6 is a schematic view of the cross-section of the lifting trolley of the present invention;

in the drawings, the reference numbers: 1. a support structure; 2. a lateral movement structure; 3. cutting the structure; 4. a transport structure; 5. polishing the structure; 6. hoisting a trolley; 11. a base plate; 12. transversely moving the steel rail; 13. a protection plate; 14. a support steel plate; 21. transversely moving the trolley; 22. a traverse motor; 23. traversing the speed reducer; 31. cutting the portal frame; 32. cutting the track; 33. cutting the trolley; 34. cutting the motor; 35. cutting the reducer; 36. cutting a hydraulic cylinder; 37. cutting the mounting plate; 38. a laser spray gun; 41. a transport gantry; 42. a T-shaped rail; 50. grinding disc; 51. polishing the portal; 52. polishing the track; 53. polishing a motor; 54. polishing the speed reducer; 55. polishing the trolley; 56. polishing the hydraulic cylinder; 57. polishing the mounting plate; 58. polishing the motor II; 59. Polishing the speed reducer; 61. a transfer trolley; 62. a transfer motor; 63. a transfer decelerator; 64. an electric hoist; 65. a steel wire; 66. an electromagnet; 67. and a roller.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

The utility model relates to a cutting and polishing integrated machine for mechanical transmission parts, which comprises a polishing disc 50; further comprising: the device comprises a supporting structure 1, a plurality of groups of transverse moving structures 2, a cutting structure 3, a transporting structure 4 and a polishing structure 5, wherein the supporting structure 1 is used for supporting a device main body and providing a space for mounting and walking the device; the multiple groups of transverse moving structures 2 are all arranged on the supporting structure 1 and provide transverse moving capability for the equipment; the cutting structure 3 is arranged on the transverse moving structure 2 and is a raw material cutting part; the conveying structure 4 is arranged on the transverse moving structure 2, and the conveying structure 4 conveys the workpieces processed by the cutting structure 3; the polishing structure 5 is arranged on the transverse moving structure 2, and the polishing structure 5 polishes the mechanical transmission part; the supporting structure 1 comprises a base plate 11 and two transverse steel rails 12, wherein the two transverse steel rails 12 are respectively arranged at the front end and the rear end of the upper end surface of the base plate 11 in parallel, a plurality of groups of uniformly arranged supporting steel plates 14 are arranged on the upper end surface of the right part of the base plate 11, the tops of the supporting steel plates 14 are pointed, the plurality of groups of supporting steel plates 14 are all positioned in the space between the two transverse steel rails 12, the left part of the base plate 11 is provided with two protection plates 13, and the two protection plates 13 are all positioned between the two transverse steel rails 12; the transverse moving structure 2 comprises 6 groups of transverse moving trolleys 21, 3 groups of transverse moving motors 22 and 3 groups of transverse speed reducers 23, the lower end face of each transverse moving trolley 21 is arranged at the upper end of a transverse moving steel rail 12, a groove is formed in the lower end face of each transverse moving trolley 21, a travelling wheel is arranged in each groove, each transverse moving motor 22 and each transverse speed reducer 23 are arranged at the front end of each transverse moving trolley 21, the output end of each transverse moving motor 22 is connected with the input end of each transverse speed reducer 23, and the output end of each transverse speed reducer 23 penetrates through the front end of each transverse moving trolley 21 to be connected with a travelling wheel in each groove of each transverse moving trolley 21; the cutting structure 3 comprises a cutting gantry 31, a cutting trolley 33, a cutting motor 34, a cutting reducer 35, a cutting hydraulic cylinder 36, a cutting mounting plate 37 and a laser spray gun 38, the lower end faces of front and rear support legs of the cutting gantry 31 are respectively connected with the upper end faces of the two transverse moving trolleys 21, a cutting track 32 is arranged on the upper end face of the cutting gantry 31 in the front-rear direction, a slot is formed in the middle of the cutting trolley 33, a traveling wheel is arranged at the top end inside the slot, the cutting motor 34 and the cutting reducer 35 are both mounted at the upper end of the cutting trolley 33, the output end of the cutting motor 34 is connected with the input end of the cutting reducer 35, the output end of the cutting reducer 35 penetrates through the upper end of the cutting trolley 33 to be connected with the traveling wheel of the cutting trolley 33, a top cross beam of the cutting gantry 31 penetrates through the middle of the cutting trolley 33 and is connected with the cutting trolley 33 through the cutting track 32, the cutting trolley 33 can travel on the cutting track 32, the fixed end of the cutting hydraulic cylinder 36 is mounted on the lower end face of the cutting trolley 33, the upper end face of the cutting mounting plate 37 is connected with the movable end of the cutting hydraulic cylinder 36, and the fixed end of the laser spray gun 38 is mounted at the lower end of the cutting mounting plate 37; the transportation structure 4 comprises a transportation portal 41 and a plurality of groups of hoisting trolleys 6, the lower ends of two support legs of the transportation portal 41 are respectively arranged on the upper end surfaces of the two transverse moving trolleys 21, a plurality of T-shaped rails 42 are arranged in the front-back direction of the top of the transportation portal 41, and the plurality of groups of hoisting trolleys 6 are all arranged on the T-shaped rails 42; the hoisting trolley 6 comprises a transfer trolley 61, a transfer motor 62, a transfer reducer 63, an electric hoist 64, a steel wire 65, an electromagnet 66 and two rollers 67, wherein the two rollers 67 are arranged at the top of the transfer trolley 61, the T-shaped rail 42 penetrates through the middle part of the transfer trolley 61, the transfer trolley 61 is connected with the T-shaped rail 42 through the two rollers 67 at the top, the transfer motor 62 and the transfer reducer 63 are both arranged on the left end surface of the transfer trolley 61, the output end of the transfer motor 62 is connected with the input end of the transfer reducer 63, the output end of the transfer reducer 63 penetrates through the left end surface of the transfer trolley 61 and is connected with the rollers 67, the fixed end of the electric hoist 64 is arranged on the lower end surface of the transfer trolley 61, and the lower end of the steel wire 65 is connected with the electromagnet 66; polishing structure 5 includes polishing disc 50, polishing portal 51, polishing track 52, polishing motor 53 for the first time, polishing reducer 54 for the first time, polishing trolley 55, polishing hydraulic cylinder 56, polishing mounting plate 57, polishing motor 58 for the second time and polishing reducer 59 for the second time, the lower terminal surface of landing leg is connected with the upper terminal surface of two lateral shifting trolleys 21 respectively around polishing portal 51, polishing track 52 is provided to the fore-and-aft direction on the upper terminal surface of polishing portal 51, polishing trolley 55 middle part is provided with the fluting, the inside top of fluting is provided with the walking wheel, polishing reducer 54 for the first time and polishing motor 53 for the first time are all installed in polishing trolley 55 upper end, the output of polishing motor 53 is connected with the input of polishing reducer 54 for the first time, the output of polishing reducer 54 for the first time passes polishing trolley 55 upper end and is connected with the walking wheel of polishing trolley 55, polishing portal 51 top beam passes polishing trolley 55 middle part, be connected with polishing trolley 55 through polishing track 52, polishing trolley 55 can walk on polishing track 52 for the polishing trolley 55, the stiff end of polishing hydraulic cylinder 56 is connected with the lower terminal surface of polishing motor 59 for the polishing motor 58 for the second time, the output of polishing reducer 59, the polishing motor 59 for the second time is installed on polishing trolley 55.

As shown in fig. 1 to 6, a cutting and polishing integrated machine for mechanical transmission parts of the present invention is operated by placing a raw material on a supporting steel plate 14, starting a traverse motor 22 on a traverse carriage 21 at the lower end of a cutting gantry 31, the traverse motor 22 transmitting power to a traveling wheel of the traverse carriage 21 through a traverse reducer 23 to travel on a traverse rail 12, starting a cutting motor 34, the cutting motor 34 transmitting power to the traveling wheel of the cutting carriage 33 through a cutting reducer 35 to travel on a cutting rail 32, starting a cutting hydraulic cylinder 36, controlling the output end of a laser torch 38 to approach a cutting position through the cutting hydraulic cylinder 36, starting the laser torch 38 to cut in cooperation with the movement of the traverse carriage 21 and the cutting carriage 33, starting a traverse structure 2 at the lower end of a transporting gantry 41 after cutting, driving the transporting gantry 41 to travel above the mechanical transmission parts, starting a transporting motor 62, transmitting power to the traveling wheel of the transporting carriage 61 through a transporting reducer 63, controlling the transporting carriage 61 to travel above the mechanical transmission parts, starting an electric hoist 64 to lower end face of the transporting carriage 22, lowering the transporting carriage onto the mechanical transmission parts through a transporting electromagnet 53, and lowering the transporting carriage 22 to a polishing electromagnet 53, control dolly 55 of polishing is located mechanical transmission part top, then opens grinding hydraulic cylinder 56 and makes the mill 50 close to the machining part, later opens No. two grinding motor 58, and No. two grinding motor 58 drives the mill 50 through No. two grinding reduction gears 59 with power transmission to the mill 50 and rotates, polishes mechanical transmission part through the cooperation of mill 50, lateral shifting structure 2 and dolly 55 of polishing, and the equipment of closing after polishing the completion can.

The installation mode, the connection mode or the setting mode of the mechanical transmission part cutting and polishing integrated machine of the utility model are common mechanical modes, and the mechanical transmission part cutting and polishing integrated machine can be implemented as long as the beneficial effects can be achieved; the utility model discloses a mechanical transmission part cutting all-in-one of polishing 54 reduction gear, a polishing motor 53, cutting motor 34, cutting reduction gear 35, sideslip motor 22, sideslip reduction gear 23, cutting pneumatic cylinder 36, laser spray gun 38, polishing pneumatic cylinder 56, no. two polishing motor 58, no. two polishing reduction gear 59, the dish 50 of polishing, transport motor 62, transport reduction gear 63, electric hoist 64 and electro-magnet 66 are purchase on the market, this industry technical staff only need according to its subsidiary instructions install and operate can, and need not the technical staff in the field and pay out creative work.

All technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (7)

1. A cutting and polishing integrated machine for a mechanical transmission part comprises a polishing disc (50); it is characterized by also comprising: the device comprises a supporting structure (1), a plurality of groups of transverse moving structures (2), a cutting structure (3), a conveying structure (4) and a polishing structure (5), wherein the supporting structure (1) supports the device main body and provides a space for mounting and walking the device; the multiple groups of transverse moving structures (2) are all arranged on the supporting structure (1) and provide transverse moving capability for the equipment; the cutting structure (3) is arranged on the transverse moving structure (2) and is a raw material cutting part; the conveying structure (4) is arranged on the transverse moving structure (2), and the conveying structure (4) conveys the workpiece processed by the cutting structure (3); the polishing structure (5) is arranged on the transverse moving structure (2), and the polishing structure (5) polishes the mechanical transmission part.

2. The integrated machine for cutting and grinding the mechanical transmission part as claimed in claim 1, wherein the supporting structure (1) comprises a base plate (11) and two traverse rails (12), the two traverse rails (12) are respectively installed at the front end and the rear end of the upper end surface of the base plate (11) in parallel, a plurality of groups of uniformly arranged supporting steel plates (14) are arranged on the upper end surface of the right part of the base plate (11), the tops of the supporting steel plates (14) are pointed, the plurality of groups of supporting steel plates (14) are all located in a space between the two traverse rails (12), two protection plates (13) are arranged on the left part of the base plate (11), and the two protection plates (13) are all located between the two traverse rails (12).

3. The mechanical transmission part cutting and grinding integrated machine as claimed in claim 2, wherein the traverse structure (2) comprises 6 sets of traverse trolleys (21), 3 sets of traverse motors (22) and 3 sets of traverse reducers (23), the lower end face of each traverse trolley (21) is installed at the upper end of a traverse rail (12), the lower end face of each traverse trolley (21) is provided with a slot, a traveling wheel is arranged in each slot, each traverse motor (22) and each traverse reducer (23) are installed at the front end of each traverse trolley (21), the output end of each traverse motor (22) is connected with the input end of each traverse reducer (23), and the output end of each traverse reducer (23) penetrates through the front end of each traverse trolley (21) and is connected with the traveling wheels in the slots of each traverse trolley (21).

4. The cutting and grinding integrated machine of the mechanical transmission component as claimed in claim 3, wherein the cutting structure (3) comprises a cutting gantry (31), a cutting trolley (33), a cutting motor (34), a cutting reducer (35), a cutting hydraulic cylinder (36), a cutting mounting plate (37) and a laser spray gun (38), the lower end faces of front and rear legs of the cutting gantry (31) are respectively connected with the upper end faces of two transverse moving trolleys (21), a cutting track (32) is arranged on the upper end face of the cutting gantry (31) in the front-rear direction, a notch is formed in the middle of the cutting trolley (33), a traveling wheel is arranged at the top end inside the notch, the cutting motor (34) and the cutting reducer (35) are both mounted at the upper end of the cutting trolley (33), the output end of the cutting motor (34) is connected with the input end of the cutting reducer (35), the output end of the cutting reducer (35) penetrates through the upper end of the cutting trolley (33) to be connected with the traveling wheel of the cutting trolley (33), a top beam of the cutting gantry (31) penetrates through the middle of the cutting trolley (33) to be connected with the cutting trolley (33) through the cutting track (32), the cutting trolley (33) can be mounted on the upper end face of the cutting track (32), the cutting trolley (36) and the fixed end face of the cutting hydraulic cylinder (36) is connected with the fixed end face of the cutting trolley (36), the fixed end of the laser spray gun (38) is arranged at the lower end of the cutting mounting plate (37).

5. The integrated machine for cutting and grinding the mechanical transmission part as claimed in claim 4, wherein the transportation structure (4) comprises a transportation portal frame (41) and a plurality of groups of hoisting trolleys (6), the lower ends of two legs of the transportation portal frame (41) are respectively installed on the upper end surfaces of the two transverse moving trolleys (21), a plurality of T-shaped rails (42) are arranged in the front-back direction of the top of the transportation portal frame (41), and the plurality of groups of hoisting trolleys (6) are all installed on the T-shaped rails (42).

6. The mechanical transmission part cutting and grinding integrated machine according to claim 5, wherein the hoisting trolley (6) comprises a transfer trolley (61), a transfer motor (62), a transfer reducer (63), an electric hoist (64), a steel wire (65), an electromagnet (66) and two rollers (67), the two rollers (67) are arranged at the top of the transfer trolley (61), the T-shaped rail (42) penetrates through the middle of the transfer trolley (61), the transfer trolley (61) is connected with the T-shaped rail (42) through the two rollers (67) at the top, the transfer motor (62) and the transfer reducer (63) are both installed on the left end face of the transfer trolley (61), the output end of the transfer motor (62) is connected with the input end of the transfer reducer (63), the output end of the transfer reducer (63) penetrates through the left end face of the transfer trolley (61) to be connected with the rollers (67), the fixed end of the electric hoist (64) is installed on the lower end face of the transfer trolley (61), and the lower end of the steel wire (65) is connected with the electromagnet (66).

7. The cutting and polishing integrated machine for the mechanical transmission part as claimed in claim 6, wherein the polishing structure (5) comprises a polishing disk (50), a polishing portal (51), a polishing track (52), a polishing motor (53), a polishing reducer (54), a polishing trolley (55), a polishing hydraulic cylinder (56), a polishing mounting plate (57), a polishing motor (58) and a polishing reducer (59), the lower end faces of the front and rear legs of the polishing portal (51) are respectively connected with the upper end faces of the two traverse trolleys (21), the polishing track (52) is arranged on the upper end face of the polishing portal (51) in the front-rear direction, a groove is arranged in the middle of the polishing trolley (55), a traveling wheel is arranged at the top end inside the groove, the polishing reducer (54) and the polishing motor (53) are both mounted on the upper end of the polishing trolley (55), the output end of the polishing motor (53) is connected with the input end of the polishing reducer (54), the output end of the polishing reducer (54) passes through the upper end of the polishing track (55) and is connected with the polishing trolley (55), the polishing trolley (52) through the top end face of the polishing track (51) and the polishing trolley (55), the polishing reducer is connected with the polishing trolley (55), the up end of the mounting panel (57) of polishing is connected with the removal end of the pneumatic cylinder (56) of polishing, and No. two polishing motor (58) and No. two polishing reduction gear (59) are all installed on the lower terminal surface of mounting panel (57) of polishing, and the output of No. two polishing motor (58) is connected with the input of No. two polishing reduction gear (59), and the dish of polishing (50) are installed on the output of No. two polishing reduction gear (59).

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