CN115431152B

CN115431152B - Base support of abrasive wheel cutting machine

Info

Publication number: CN115431152B
Application number: CN202211078918.9A
Authority: CN
Inventors: 王惠达
Original assignee: Chengxi Shipyard Co Ltd
Current assignee: Chengxi Shipyard Co Ltd
Priority date: 2022-09-05
Filing date: 2022-09-05
Publication date: 2024-03-19
Anticipated expiration: 2042-09-05
Also published as: CN115431152A

Abstract

The invention belongs to the technical field of cutting machine equipment, and particularly relates to a base bracket of a grinding wheel cutting machine, which comprises a collecting cavity, wherein a fixing bracket is arranged on the collecting cavity, and a fixing hole is formed in the fixing bracket; the collecting cavity is rotationally connected with a pair of splines, and the splines are provided with two sides of a fixed bracket; a pair of the splines are both connected with a movable support in a sliding manner, a rotating bevel gear set matched with the splines is arranged on the movable support, and the output ends of the rotating bevel gear sets are both connected with movable wheels; the spline is also connected with a pair of spline cylinders matched with the pair of movable brackets in a sliding manner, and the pair of spline cylinders are connected with a top spring matched with the pair of movable brackets; the invention effectively solves the problems that the existing abrasive wheel cutting machine is inconvenient to transport and the sparks splash to bring great trouble to operators when in use.

Description

Base support of abrasive wheel cutting machine

Technical Field

The invention belongs to the technical field of cutting machine equipment, and particularly relates to a base support of a grinding wheel cutting machine.

Background

The steel pipe cutting operation is often carried out by using a grinding wheel cutting machine on a ship construction production site. However, most of the existing grinding wheel cutting machines purchased by companies are simple grinding wheel cutting machines, and no base support exists, so that accidental damage and safety accidents are easy to cause during lifting, carrying and using; in addition, when the abrasive wheel cutting machine is used, sparks splash to enable operators to be overwhelmed, and especially after the use of the abrasive wheel cutting machine is finished, the operators also need to clean the sparks, so that great trouble is brought to the operators.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the base bracket of the abrasive wheel cutting machine, which effectively solves the problems that the conventional abrasive wheel cutting machine is inconvenient to transport and the sparks splash to bring great trouble to operators when in use.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the base bracket of the grinding wheel cutting machine comprises a collecting cavity, wherein a fixing bracket is arranged on the collecting cavity, and a fixing hole is formed in the fixing bracket; the collecting cavity is rotationally connected with a pair of splines, and the splines are provided with two sides of a fixed bracket; a pair of the splines are both connected with a movable support in a sliding manner, a rotating bevel gear set matched with the splines is arranged on the movable support, and the output ends of the rotating bevel gear sets are both connected with movable wheels; the spline is also connected with a pair of spline barrels matched with the pair of movable brackets in a sliding manner, and the pair of spline barrels are connected with a top spring matched with the pair of movable brackets.

Further, a transmission case is fixedly connected to the collecting cavity, and a motor is fixedly connected to the transmission case; the output of motor is connected with the switch structure, is connected with the structure of rocking that drives a pair of spline cylinder synchronization action on the switch structure, still is connected with the moving structure that drives spline pivoted on the switch structure.

Further, the switching structure comprises a driving wheel connected with the output end of the motor, and the driving wheel is meshed with a driving wheel; one surface of the driving wheel is connected with a driving inner ratchet wheel, and a driving shaft is rotationally connected to the transmission case; the driving shaft is provided with a driving disc corresponding to the driving inner ratchet wheel, the driving disc is rotatably connected with a driving pawl matched with the driving inner ratchet wheel, and the driving disc is provided with a driving reset spring matched with the driving pawl.

Further, a swaying inner ratchet wheel is connected to the other surface of the driving wheel, the swaying inner ratchet wheel and the teeth of the driving inner ratchet wheel are opposite in direction, and a swaying shaft is also rotatably connected to the transmission case; the shaking shaft is fixedly connected with a shaking disc matched with the shaking inner ratchet wheel, the shaking disc is rotationally connected with a shaking pawl matched with the shaking inner ratchet wheel, and the shaking disc is provided with a shaking reset spring matched with the shaking pawl.

Further, the shaking structure comprises a lower crank connected with the shaking shaft, and a synchronous crank is connected to the lower crank; the synchronous crank is rotationally connected with a pair of connecting rods, and the connecting rods are respectively rotationally connected with two sides of the synchronous crank; the spline cylinder is rotationally connected with a traction cylinder, the connecting rod is rotationally connected with a synchronizing rod, and two ends of the synchronizing rod are respectively fixedly connected with the corresponding traction cylinder.

Further, the moving structure comprises an input bevel gear set connected with the driving shaft, and the output end of the input bevel gear set is connected with a connecting bevel gear set; the output end of the connecting bevel gear set is connected with a driving bevel gear set, the output end of the driving bevel gear set is connected with a pair of output bevel gear sets, and the output end of the pair of output bevel gear sets is connected with a pair of splines.

Further, a baffle is fixedly connected to the collecting cavity, and a storage cavity matched with the baffle is fixedly connected to the collecting cavity; the storage cavity is provided with an opening, the storage cavity is connected with a sealing plate matched with the opening in a sliding manner, and the sealing plate is vertically connected with a lifting plate.

Further, a pair of support plates are fixedly connected to the collecting cavity, and a pair of slide ways matched with the movable wheels are arranged on the support plates.

Further, the collecting cavity is fixedly connected with a lifting lug, and the collecting cavity and the storage cavity are fixedly connected with supporting legs.

Compared with the prior art, the invention has the following beneficial effects:

when the grinding wheel cutting machine is used, the grinding wheel cutting machine is fixed through the fixing holes on the fixing support; when the abrasive wheel cutting machine is used, the splash Mars are shielded through the baffle plate, so that the Mars fall into the collecting cavity, the collecting cavity collects the splash Mars, the damage to an operator caused by the splash Mars can be effectively prevented, the problem of inconvenient cleaning is reduced, and the convenience of the abrasive wheel cutting machine is improved.

When the movable support is used, under the action of the top spring, the movable support drives the rotary bevel gear set and the movable wheels on the rotary bevel gear set to clamp a workpiece; the spline is rotated, the spline drives the bevel gear group of rotation to act, and the bevel gear group of rotation drives the removal wheel and rotates, removes the removal wheel and drives the work piece and remove, makes this application can carry out corresponding removal to the cutting position of work piece, need not the operator and removes the work piece again, improves the convenience of this application operation.

Drawings

FIG. 1 is an isometric view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a first isometric view of a switching structure of the present invention;

FIG. 4 is a second perspective view of the switching structure of the present invention;

FIG. 5 is a schematic diagram showing the fit of the moving structure and the shaking structure in the present invention;

in the figure: 1. the support leg, 2, the transmission case, 3, the collection chamber, 4, the backup pad, 5, the fixed bolster, 6, the movable wheel, 7, the fixed orifices, 8, the baffle, 9, the lug, 10, deposit chamber, 11, the closing plate, 12, the motor, 13, the switching structure, 14, input bevel gear group, 15, connection bevel gear group, 16, drive bevel gear group, 17, output bevel gear group, 18, traction cylinder, 19, top spring, 20, the movable bolster, 21, rotation bevel gear group, 22, synchronous crank, 23, lower crank, 24, rocking axle, 25, drive axle, 26, drive inner ratchet wheel, 27, drive wheel, 28, drive disc, 29, drive pawl, 30, action wheel, 31, inner ratchet wheel rocking, 32, rocking disc, 33, rocking pawl, 34, synchronizing lever, 35, connecting rod, 36, spline.

Detailed Description

The base bracket of the grinding wheel cutting machine, as shown in figures 1-5, comprises a collecting cavity 3, wherein a fixing bracket 5 is arranged on the collecting cavity 3, and a fixing hole 7 is arranged on the fixing bracket 5; the collecting cavity 3 is rotatably connected with a pair of splines 36, and the pair of splines 36 are provided with two sides of the fixed bracket 5; a pair of the splines 36 are both connected with a movable support 20 in a sliding manner, a rotating bevel gear set 21 matched with the splines 36 is arranged on the movable support 20, and the output ends of the rotating bevel gear sets 21 are both connected with a movable wheel 6; the spline 36 is also slidably connected with a pair of spline cylinders which are matched with the pair of movable brackets 20, and the pair of spline cylinders are connected with a top spring 19 which is matched with the pair of movable brackets 20.

When the grinding wheel cutting machine is used, the grinding wheel cutting machine is fixed through the fixing holes 7 on the fixing support 5; when the abrasive wheel cutting machine is used, splash sparks are collected through the collecting cavity 3; when a workpiece is installed and cut, under the action of the top spring 19, the movable support 20 drives the rotary bevel gear set 21 and the movable wheel 6 on the rotary bevel gear set to clamp the workpiece; the spline 36 is rotated, the spline 36 drives the rotary bevel gear set 21 to act, the rotary bevel gear set 21 drives the moving wheel 6 to rotate, and the moving wheel 6 drives the workpiece to move, so that the cutting position of the workpiece can be correspondingly moved, an operator is not required to move the workpiece, and the convenience of operation of the workpiece cutting machine is improved; through spline section of thick bamboo along spline 36 slip, spline section of thick bamboo drives the reciprocating motion of top spring 19, can effectually clear up the spark that falls on top spring 19, spline 36, movable support 20 etc. improves the clean and tidy nature of this application.

Further, a transmission case 2 is fixedly connected to the collecting cavity 3, and a motor 12 is fixedly connected to the transmission case 2; the output end of the motor 12 is connected with a switching structure 13, the switching structure 13 is connected with a shaking structure for driving a pair of spline cylinders to synchronously act, and the switching structure 13 is also connected with a moving structure for driving the spline 36 to rotate; the motor 12 drives the shaking structure and the moving structure through the switching structure 13 respectively, so that the automation degree of the application can be effectively improved.

Further, the switching structure 13 includes a driving wheel 30 connected to the output end of the motor 12, and the driving wheel 30 is engaged with a driving wheel 27; one side of the driving wheel 27 is connected with a driving inner ratchet wheel 26, and the transmission case 2 is rotatably connected with a driving shaft 25; the driving shaft 25 is provided with a driving disc 28 corresponding to the driving inner ratchet wheel 26, the driving disc 28 is rotatably connected with a driving pawl 29 matched with the driving inner ratchet wheel 26, and the driving disc 28 is provided with a driving reset spring matched with the driving pawl 29.

When the switching structure 13 is used, the motor 12 rotates, the motor 12 drives the driving wheel 30 to rotate, and the driving wheel 30 drives the driving wheel 27 to rotate; the driving wheel 27 is matched with the driving pawl 29 through the driving inner ratchet wheel 26 to drive the driving disc 28 to rotate, and the driving disc 28 drives the driving shaft 25 to rotate.

Further, a swinging inner ratchet wheel 31 is connected to the other surface of the driving wheel 27, the swinging inner ratchet wheel 31 and the driving inner ratchet wheel 26 are opposite in tooth direction, and a swinging shaft 24 is also rotatably connected to the transmission case 2; the shaking shaft 24 is fixedly connected with a shaking disc 32 matched with the shaking inner ratchet wheel 31, the shaking disc 32 is rotatably connected with a shaking pawl 33 matched with the shaking inner ratchet wheel 31, and the shaking disc 32 is provided with a shaking reset spring matched with the shaking pawl 33.

When the motor 12 rotates reversely, the motor 12 drives the shaking inner ratchet wheel 31 to rotate, the shaking inner ratchet wheel 31 drives the shaking disc 32 to rotate through the shaking pawl 33, and the shaking disc 32 drives the shaking shaft 24 to rotate; at the same time, since the shaking inner ratchet 31 is opposite to the teeth of the driving inner ratchet 26, the driving pawl 29 slides along the back of the ratchet of the driving inner ratchet 26; through setting up the tooth opposite of rocking interior ratchet 31 and the interior ratchet 26 of drive, when making motor 12 forward and backward, can drive respectively and rock structure, remove the structure action, can effectually improve the degree of automation of this application.

Further, the shaking structure comprises a lower crank 23 connected with a shaking shaft 24, and a synchronous crank 22 is connected to the lower crank 23; a pair of connecting rods 35 are rotatably connected to the synchronous crank 22, and the connecting rods 35 are respectively rotatably connected to two sides of the synchronous crank 22; the spline cylinder is rotationally connected with the traction cylinder 18, the connecting rod 35 is rotationally connected with the synchronizing rod 34, and two ends of the synchronizing rod 34 are fixedly connected with the corresponding traction cylinder 18 respectively.

When the shaking structure is used, the shaking shaft 24 drives a pair of connecting rods 35 to synchronously act through the cooperation of the lower crank 23 and the synchronous crank 22, the connecting rods 35 drive the traction cylinder 18 to act through the synchronous rods 34, the traction cylinder 18 drives the spline cylinder to slide along the spline 36, and further shaking of the movable support 20, the movable wheel 6 and the like is realized, so that sparks on the top spring 19, the movable support 20, the movable wheel 6 and the like fall off, and convenience of the application is improved.

Further, the moving structure comprises an input bevel gear set 14 connected with a driving shaft 25, and the output end of the input bevel gear set 14 is connected with a connecting bevel gear set 15; the output end of the connecting bevel gear set 15 is connected with a driving bevel gear set 16, the output end of the driving bevel gear set 16 is connected with a pair of output bevel gear sets 17, and the output end of the pair of output bevel gear sets 17 is connected with a pair of splines 36.

The input bevel gear set 14, the connecting bevel gear set 15, the output bevel gear set 17 and the rotating bevel gear set 21 all comprise driving bevel gears, driven bevel gears are meshed on the driving bevel gears, the driving bevel gears are input ends, and the driven bevel gears are output ends; the driving bevel gear set 16 includes an input bevel gear, on which a pair of output bevel gears disposed coaxially are meshed, the input bevel gear being an input end, and the output bevel gear being an output end.

When the driving shaft 25 rotates, the driving shaft 25 drives the input bevel gear set 14 to act, the input bevel gear set 14 drives the connecting bevel gear set 15 to act, the connecting bevel gear set 15 drives the pair of output bevel gear sets 17 to act through the driving bevel gear set 16, and the pair of output bevel gear sets 17 drive the corresponding spline 36 to rotate.

Further, a baffle plate 8 is fixedly connected to the collecting cavity 3, and a storage cavity 10 matched with the baffle plate 8 is fixedly connected to the collecting cavity 3; an opening is formed in the storage cavity 10, a sealing plate 11 matched with the opening is connected to the storage cavity 10 in a sliding mode, and a lifting plate is vertically connected to the sealing plate 11; the splash of sparks can be effectively prevented through the baffle plate 8, the sparks are stored through the storage cavity 10, and when the sparks need to be cleaned, the opening is opened through the sealing plate 11 to take out the sparks.

Further, a pair of support plates 4 are fixedly connected to the collecting cavity 3, and a pair of slide ways matched with the moving wheels 6 are arranged on the support plates 4; supporting the mobile wheel 6 by means of the support plate 4 improves the stability of the present application.

Further, a lifting lug 9 is fixedly connected to the collecting cavity 3, and supporting legs 1 are fixedly connected to the collecting cavity 3 and the storage cavity 10; through the setting of lug 9, make this application be convenient for remove, improve the convenience of this application.

The working process of the invention is as follows:

when the grinding wheel cutting machine is used, the grinding wheel cutting machine is fixed through the fixing holes 7 on the fixing support 5; when a workpiece is installed and cut, under the action of the top spring 19, the movable support 20 drives the rotary bevel gear set 21 and the movable wheel 6 on the rotary bevel gear set to clamp the workpiece; the motor 12 rotates, the motor 12 drives the driving wheel 30 to rotate, and the driving wheel 30 drives the driving wheel 27 to rotate; the driving wheel 27 is matched with the driving pawl 29 through the driving inner ratchet wheel 26 to drive the driving disc 28 to rotate, and the driving disc 28 drives the driving shaft 25 to rotate; the driving shaft 25 drives the input bevel gear set 14 to act, the input bevel gear set 14 drives the connecting bevel gear set 15 to act, the connecting bevel gear set 15 drives the pair of output bevel gear sets 17 to act through the driving bevel gear set 16, and the pair of output bevel gear sets 17 drive the corresponding spline 36 to rotate; spline 36 drives and rotates bevel gear group 21 action, rotates bevel gear group 21 and drives and remove round 6 rotation, removes round 6 and drive the work piece and remove, makes this application can carry out corresponding removal to the cutting position of work piece, need not the operator and removes the work piece again, improves the convenience of this application operation.

When the abrasive wheel cutting machine is used, splash sparks are collected through the collecting cavity 3; the splash sparks are shielded by the baffle plate 8, so that the sparks fall into the collecting cavity 3, the collecting cavity 3 collects the splash sparks, the damage to operators caused by the splash sparks can be effectively prevented, and the problem of inconvenient cleaning can be effectively reduced; the sparks are stored through the storage cavity 10, and when the sparks need to be cleaned, the sparks are taken out by opening the opening through the sealing plate 11.

After the abrasive wheel cutting machine is used, the motor 12 reversely rotates, the motor 12 drives the inner shaking ratchet wheel 31 to rotate, the inner shaking ratchet wheel 31 drives the shaking disc 32 to rotate through the shaking pawl 33, and the shaking disc 32 drives the shaking shaft 24 to rotate; at the same time, since the shaking inner ratchet 31 is opposite to the teeth of the driving inner ratchet 26, the driving pawl 29 slides along the back of the ratchet of the driving inner ratchet 26; the shaking shaft 24 drives a pair of connecting rods 35 to synchronously act through the cooperation of the lower crank 23 and the synchronous crank 22, the connecting rods 35 drive the traction cylinder 18 to act through the synchronous rods 34, and the traction cylinder 18 drives the spline cylinder to slide along the spline 36; the spline cylinder drives the top spring 19 to reciprocate, can effectually clear up the spark that falls on top spring 19, spline 36, movable support 20 etc., improves the clean and tidy nature of this application.

Claims

1. The utility model provides a grinding wheel cutting machine base support which characterized in that: comprises a collecting cavity (3), a fixed bracket (5) is arranged on the collecting cavity (3), and a fixed hole (7) is arranged on the fixed bracket (5); a pair of splines (36) are rotatably connected to the collecting cavity (3), and the splines (36) are provided with two sides of the fixed support (5); a pair of the splines (36) are both connected with a movable support (20) in a sliding manner, a rotating bevel gear set (21) matched with the splines (36) is arranged on the movable support (20), and the output ends of the rotating bevel gear sets (21) are both connected with a movable wheel (6); the spline (36) is also connected with a pair of spline barrels matched with the pair of movable brackets (20) in a sliding manner, and the pair of spline barrels are connected with a top spring (19) matched with the pair of movable brackets (20);

a transmission case (2) is fixedly connected to the collecting cavity (3), and a motor (12) is fixedly connected to the transmission case (2); the output end of the motor (12) is connected with a switching structure (13), the switching structure (13) is connected with a shaking structure for driving a pair of spline cylinders to synchronously act, and the switching structure (13) is also connected with a moving structure for driving the spline (36) to rotate;

the switching structure (13) comprises a driving wheel (30) connected with the output end of the motor (12), and a driving wheel (27) is meshed with the driving wheel (30); one surface of the driving wheel (27) is connected with a driving inner ratchet wheel (26), and the transmission case (2) is rotationally connected with a driving shaft (25); a driving disc (28) corresponding to the driving inner ratchet wheel (26) is arranged on the driving shaft (25), a driving pawl (29) matched with the driving inner ratchet wheel (26) is rotatably connected to the driving disc (28), and a driving reset spring matched with the driving pawl (29) is arranged on the driving disc (28);

a swinging inner ratchet wheel (31) is connected to the other surface of the driving wheel (27), the direction of teeth of the swinging inner ratchet wheel (31) is opposite to that of teeth of the driving inner ratchet wheel (26), and a swinging shaft (24) is also connected to the transmission case (2) in a rotating way; a shaking disc (32) matched with the shaking inner ratchet wheel (31) is fixedly connected to the shaking shaft (24), a shaking pawl (33) matched with the shaking inner ratchet wheel (31) is rotatably connected to the shaking disc (32), and a shaking reset spring matched with the shaking pawl (33) is arranged on the shaking disc (32);

the shaking structure comprises a lower crank (23) connected with a shaking shaft (24), and a synchronous crank (22) is connected to the lower crank (23); a pair of connecting rods (35) are rotatably connected to the synchronous crank (22), and the connecting rods (35) are respectively rotatably connected with two sides of the synchronous crank (22); the spline cylinder is rotationally connected with a traction cylinder (18), the connecting rod (35) is rotationally connected with a synchronizing rod (34), and two ends of the synchronizing rod (34) are fixedly connected with the corresponding traction cylinder (18) respectively;

the movable structure comprises an input bevel gear set (14) connected with a driving shaft (25), and the output end of the input bevel gear set (14) is connected with a connecting bevel gear set (15); the output end of the connecting bevel gear set (15) is connected with a driving bevel gear set (16), the output end of the driving bevel gear set (16) is connected with a pair of output bevel gear sets (17), and the output end of the pair of output bevel gear sets (17) is connected with a pair of splines (36).

2. The abrasive cutoff machine base bracket of claim 1 wherein: a baffle (8) is fixedly connected to the collecting cavity (3), and a storage cavity (10) matched with the baffle (8) is fixedly connected to the collecting cavity (3); the storage cavity (10) is provided with an opening, the storage cavity (10) is connected with a sealing plate (11) matched with the opening in a sliding manner, and the sealing plate (11) is vertically connected with a lifting plate.

3. The abrasive cutoff machine base bracket of claim 1 wherein: a pair of support plates (4) are fixedly connected to the collecting cavity (3), and a pair of slide ways matched with the movable wheels (6) are arranged on the support plates (4).

4. The abrasive cutoff machine base bracket of claim 1 wherein: lifting lugs (9) are fixedly connected to the collecting cavity (3), and supporting legs (1) are fixedly connected to the collecting cavity (3) and the storage cavity (10).