CN115716288B - Mechanical automatic cutting equipment - Google Patents

Abstract

The invention provides mechanical automatic cutting equipment, and belongs to the technical field of plate cutting. The problem of current cutting equipment slider drive saw blade reciprocates for a long time and then slider wearing and tearing seriously appear rocking, lead to the cutting unstable is solved. It includes cutting organism, lubricating oil tank, dead lever II, fixed frame and angle adjustment mechanism, and dead lever II transversely installs on the cutting organism, and the equipartition has a plurality of fixed frames on the dead lever II, is equipped with the mechanism of oiling in the fixed frame, and the mechanism of oiling communicates with lubricating oil tank, and the mid-section slidable mounting of a plurality of fixed frames has dead lever I, installs a plurality of saw blades on the dead lever I, and the fixed frame is connected with angle adjustment mechanism. It is mainly used for cutting the plate.

Description

Mechanical automatic cutting equipment

Technical Field

The invention belongs to the technical field of plate cutting, and particularly relates to mechanical automatic cutting equipment.

Background

The board is a material used in industries such as furniture and buildings, is usually wood, and when the board is used, the board is usually required to be processed in a targeted manner, wherein the processing modes are mainly cutting, polishing, coloring and the like, and the product can be subjected to plasticity in a targeted manner when the board is cut.

The plate cutting machine is a common machine for cutting plates, the plates which are cut preliminarily are placed on a workbench of the plate cutting machine, and then the plates are cut by a cutter on the plate cutting machine according to the requirements of customers; but the saw blade that current panel cutting equipment used is equidistant in rows and installs, then the saw blade passes through cylinder drive slider and drives the saw blade and do vertical up-and-down fast motion and cut panel, and because slider long-term up-and-down reciprocating motion leads to the slider wearing and tearing seriously, appears rocking, leads to the cutting unstable.

Disclosure of Invention

In view of the above, the invention aims to provide a mechanical automatic cutting device, so as to solve the problem that the existing cutting device has a sliding block which drives a saw blade to move up and down for a long time, so that the sliding block is severely worn and shakes, and the cutting is unstable.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a mechanical automation cutting equipment, includes cutting organism, lubricating oil tank, dead lever II, fixed frame and angle adjustment mechanism, the dead lever II transversely installs on the cutting organism, the equipartition has a plurality of fixed frames on the dead lever II, be equipped with the mechanism of oiling in the fixed frame, the mechanism of oiling communicates with lubricating oil tank, and the mid-portion slidable mounting of a plurality of fixed frames has dead lever I, install a plurality of saw blades on the dead lever I, the fixed frame is connected with angle adjustment mechanism.

Still further, oiling mechanism includes oil storage chamber, play oil passageway, push pedal, slider, swiveling wheel, movable plate and sponge piece, the oil storage chamber is installed in fixed frame top, play oil passageway sets up the exit at oil storage chamber, go out the oil pipe is installed respectively to the both sides of oil passageway, go out the oil end and be connected with the sponge piece of oil pipe, go out the interior slidable mounting of oil passageway and have the push pedal, the push pedal passes through the connecting rod and is connected with the slider, the swiveling wheel is all installed at the both ends of slider, the below of oil storage chamber just is located the both sides of oil passageway and all is equipped with the cavity, the sponge piece is installed in the cavity, the movable plate is installed to the inner of sponge piece, movable plate and slider sliding connection, dead lever I is installed on the slider, slider and saw blade all reciprocate in fixed frame through the cylinder.

Furthermore, three springs II are uniformly distributed on the outer side of the movable plate along the vertical direction, and the springs II penetrate through grooves formed in the sponge block and are connected with the inner side wall of the fixed frame.

Furthermore, a plurality of oil outlets are arranged at the contact position of the moving plate and the rotating wheel, and the moving plate is in a wavy shape.

Furthermore, a limiting plate protruding out of an oil inlet at the top of the oil outlet channel is arranged below the oil storage cavity and at the top of the oil outlet channel.

Still further, angle adjustment mechanism includes spout I that angle adjustment board and angle adjustment board surface were seted up, fixed frame passes through spout I joint on the angle adjustment board, the both ends of angle adjustment board all are equipped with the spacing groove, the upper and lower surface symmetry of spacing groove is provided with the locked groove, be provided with locking assembly in the locked groove.

Still further, locking assembly includes stopper, spring I and locking piece, the inside of angle adjusting plate has the stopper through the spacing groove block at both ends, the inside of stopper is equipped with spring I, the locking piece is all installed at spring I's both ends.

Furthermore, one end of the angle adjusting plate is connected with an angle adjusting gear in a meshed mode, and a rotating head is arranged on the angle adjusting gear.

Furthermore, the sliding grooves I are uniformly distributed on the angle adjusting plate in a fan shape.

Furthermore, the lock grooves are arranged in a plurality, and the lock grooves are distributed at equal intervals.

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

1. according to the invention, through the arranged sponge block, the rotating wheel, the moving plate, the push plate, the sliding block and the oil outlet pipe, the sliding block slides up and down in the oil outlet channel through the air cylinder, when the rotating wheel is contacted with the convex position of the sponge block, the extruded oil of the sponge block is discharged through the oil outlet hole to be wrapped on the surface of the rotating wheel, so that the lubrication degree of the rotating wheel is increased, the rotating wheel is prevented from sliding rapidly along the surface of the moving plate, the phenomenon of abrasion and shaking caused by too fast rotation speed of the rotating wheel is avoided, and the unstable phenomenon of a saw blade during cutting can be avoided.

2. According to the invention, the sliding height of the push plate can be limited by arranging the limiting plate in the oil storage cavity, so that lubricating oil is prevented from leaking downwards along the gap due to the fact that the gap appears when the push plate slides upwards and is higher than the oil inlet at the top of the oil outlet channel, and the lubricating oil which leaks downwards is prevented from being positioned at the bottom of the oil outlet channel and is lower than the connection point of the oil outlet pipe and the oil outlet channel, and damage to a cutting part of the device caused by waste oil which is easily deteriorated due to overlong time is avoided.

3. According to the invention, through the sliding chute I, the angle adjusting gear and the limiting groove which are arranged, the angle adjusting gear is meshed with one end of the angle adjusting plate, the rotating head rotates to drive the limiting groove and the angle adjusting plate to rotate in the same direction, and the saw blade slides on the fixed rod I through the rotating direction and the rotating angle of the angle adjusting plate to change the distance, so that the flexible adjustment can be performed according to the diameter and the cutting thickness of the plate, and the accuracy is higher.

Drawings

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 invention. In the drawings:

FIG. 1 is a schematic view of a mechanical automated cutting apparatus according to the present invention;

FIG. 2 is a schematic structural view of a fixing frame according to the present invention;

FIG. 3 is a schematic view illustrating an internal structure of a fixing frame according to the present invention;

FIG. 4 is a schematic view of a portion of a structure of a fixing frame according to the present invention;

FIG. 5 is a rear view of a mechanical automated cutting apparatus according to the present invention;

FIG. 6 is a schematic view of an angle adjusting mechanism according to the present invention;

FIG. 7 is an inside view of a fixing frame according to the present invention;

fig. 8 is an internal view of the limiting groove according to the present invention.

The cutting machine comprises a cutting machine body, a 2-lubricating oil tank, a 3-angle adjusting plate, 301-sliding grooves I, 302-angle adjusting gears, 303-rotating heads, 304-limiting grooves, 305-limiting blocks, 306-springs I, 307-locking blocks, 308-locking grooves, 4-fixing frames, 401-oil outlet channels, 402-sliding blocks, 403-connecting rods, 404-moving plates, 405-sponge blocks, 406-cavities, 407-springs II, 408-rotating wheels, 409-oil outlet pipes, 410-pushing plates, 411-oil storage cavities, 5-fixing rods I, 6-fixing rods II and 7-saw blades.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It should be noted that, in the case of no conflict, embodiments of the present invention and features of the embodiments may be combined with each other, and the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1 to 8, the present embodiment is described, a mechanical automatic cutting apparatus, characterized in that: including cutting organism 1, lubricating oil tank 2, dead lever II 6 and angle adjustment mechanism, dead lever II 6 transversely installs on cutting organism 1, the equipartition has a plurality of dead levers 4 on the dead lever II 6, be equipped with oil feeding mechanism in the dead lever 4, oil feeding mechanism and lubricating oil tank 2 intercommunication, the mid-sliding mounting of a plurality of dead levers 4 has dead lever I5, install a plurality of saw blades 7 on the dead lever I5, dead lever 4 is connected with angle adjustment mechanism, oil feeding mechanism includes oil storage cavity 411, goes out oily passageway 401, push pedal 410, slider 402, swiveling wheel 408, movable plate 404 and sponge piece 405, oil storage cavity 411 installs in the dead lever 4 top, oil outlet passageway 401 sets up in the exit of oil storage cavity 411, oil outlet pipe 409 is installed respectively to the both sides of oil outlet passageway 401, the oil outlet end of oil outlet pipe 409 is connected with sponge piece 405, slidable mounting push pedal 410 in oil outlet passageway 401, push pedal 410 passes through the connecting rod 402 and slider 402 are connected with slider 402, swiveling wheel 408 is equipped with the slider 404 and is equipped with in the shape of moving plate 404, and the shape of moving plate 404 is equipped with in the shape of the slider 404, and the shape of both sides of slider 404 are all fixed with slider 404.

The inside of oil storage chamber 411 stores lubricating oil, saw blade 7 and slider 402 all slide from top to bottom through the cylinder on fixed frame 4, as shown in fig. 2, slider 402 drives connecting rod 403 syntropy motion when sliding from top to bottom simultaneously, and push pedal 410 slides along the inner wall of oil outlet channel 401 through connecting rod 403, make oil storage chamber 411 and the inside atmospheric pressure that produces of oil outlet channel 401, when push pedal 410 gliding height is less than the tie point of oil outlet pipe 409 and oil outlet channel 401, lubricating oil flows out through oil outlet pipe 409 and covers on sponge piece 405, the same reason, when push pedal 410 gliding height is higher than the tie point of oil outlet pipe 409 and oil outlet channel 401, lubricating oil level then is located push pedal 410 top and is higher than oil outlet pipe 409 and oil outlet channel 401's tie point simultaneously, and two rotatory wheels 408 slide along the surface of movable plate 404 respectively, just promote the movable plate 404 and extrude sponge piece 405 to the direction removal of sponge piece 405 when rotatory wheel 408 and movable plate 404 surface's bulge position contact, the oil that sponge piece 405 was extruded through the oil outlet pipe 409, the oil that is extruded out covers on sponge piece 405, the surface cut and roll up on the surface of rotatory wheel 408, the high-speed is avoided the cutting device that the cutting is difficult to appear in the steady motion when the slider is difficult to appear, and the steady abrasion phenomenon is cut and the surface is avoided when the cutting and the sliding device is rotated down to the surface of the slider is not to the steady to the side of the sliding surface is rotated.

Further, three springs ii 407 are uniformly distributed on the outer side of the moving plate 404 along the vertical direction, and the springs ii 407 penetrate through grooves formed in the sponge block 405 and are connected with the inner side wall of the fixed frame 4.

Further, the below of oil storage chamber 411 and the position that is located oil passageway 401 top are equipped with the limiting plate that stands out in oil passageway 401 top oil inlet, and the position that is located oil passageway 401 top below of oil storage chamber 411 is equipped with the limiting plate that stands out in oil passageway 401 top oil inlet, and when push pedal 410 upwards gliding height was too high, limiting plate can restrict its push pedal 410 gliding height, and the clearance appears when avoiding push pedal 410 to be higher than the oil inlet height at oil passageway 401 top when upwards sliding and makes lubricating oil leak down along the clearance, prevents that the lubricating oil that leaks down from being located oil passageway 401 bottom and highly being less than the tie point of oil outlet pipe 409 and oil passageway 401, avoids the time overlength to appear going bad easily and forms waste oil and cause the damage to the cutting member of device.

Further, angle adjustment mechanism includes spout I301 that angle adjustment board 3 and angle adjustment board 3 surface were seted up, fixed frame 4 passes through spout I301 joint on angle adjustment board 3, angle adjustment board 3's both ends all are equipped with spacing groove 304, spacing groove 304's upper and lower surface symmetry is provided with locked groove 308, be provided with locking assembly in the locked groove 308, locking assembly includes stopper 305, spring I306 and locking piece 307, the inside of angle adjustment board 3 has stopper 305 through the spacing groove 304 block at both ends, the inside of stopper 305 is equipped with spring I306, locking piece 307 is all installed at the both ends of spring I306, angle adjustment board 3's one end meshing is connected with angle adjustment gear 302, install rotating head 303 on the angle adjustment gear 302.

The manual rotation swivel 303 rotates simultaneously angle adjusting gear 302 syntropy thereupon, angle adjusting gear 302 meshes with the one end of angle adjusting plate 3, angle adjusting gear 302 can change the angle of angle adjusting plate 3 when rotatory, every saw blade 7 moves on dead lever I5 according to the rotation of angle adjusting plate 3, when angle adjusting plate 3 anticlockwise rotates, the interval between every saw blade 7 can grow, otherwise diminish, after angle adjusting plate 3 has adjusted the cutting angle, insert in corresponding locked groove 308 through the locking piece 307 on stopper 305 and fix the angle that angle adjusting plate 3 adjusted, this structure is convenient for carry out nimble regulation according to the diameter and the cutting thickness of panel.

Further, the sliding grooves I301 are uniformly distributed on the angle adjusting plate 3 in a fan shape, and a plurality of locking grooves 308 are formed in the plurality of locking grooves 308 at equal intervals.

The embodiments of the invention disclosed above are intended only to help illustrate the invention. The examples are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention.

Claims (1)

1. A mechanical automation cutting device, characterized in that: the automatic cutting machine comprises a cutting machine body (1), a lubricating oil tank (2), a fixing rod II (6), fixing frames (4) and an angle adjusting mechanism, wherein the fixing rod II (6) is transversely arranged on the cutting machine body (1), a plurality of fixing frames (4) are uniformly distributed on the fixing rod II (6), an oiling mechanism is arranged in the fixing frames (4), the oiling mechanism is communicated with the lubricating oil tank (2), fixing rods I (5) are slidably arranged in the middle of the fixing frames (4), a plurality of saw blades (7) are arranged on the fixing rods I (5), and the fixing frames (4) are connected with the angle adjusting mechanism;

the oiling mechanism comprises an oil storage cavity (411), an oil outlet channel (401), a push plate (410), a sliding block (402), a rotating wheel (408), a moving plate (404) and a sponge block (405), wherein the oil storage cavity (411) is arranged in the top of a fixed frame (4), the oil outlet channel (401) is arranged at the outlet of the oil storage cavity (411), two sides of the oil outlet channel (401) are respectively provided with an oil outlet pipe (409), the oil outlet end of the oil outlet pipe (409) is connected with the sponge block (405), the push plate (410) is slidably arranged in the oil outlet channel (401), the push plate (410) is connected with the sliding block (402) through a connecting rod (403), the rotating wheel (408) is arranged at two ends of the sliding block (402), cavities (406) are arranged below the oil storage cavity (411) and are arranged at two sides of the oil outlet channel (401), the sponge block (405) is arranged in the cavities (406), the inner ends of the sponge block (405) are respectively provided with the moving plate (404), the sliding plate (402) and the sliding block (402) are slidably connected with the sliding block (402) and the sliding block (402) are fixedly arranged on the fixed frame (4);

three springs II (407) are uniformly distributed on the outer side of the moving plate (404) along the vertical direction, and the springs II (407) penetrate through grooves formed in the sponge block (405) and are connected with the inner side wall of the fixed frame (4); the utility model discloses a rotary oil storage device, including oil storage cavity (411), angle adjustment mechanism, fixed frame (4), fixed frame (3) and angle adjustment mechanism, fixed frame (3) is equipped with a plurality of oil outlet holes with rotary wheel (408) contact position, the shape of movable plate (404) is wave form shape, the below of oil storage cavity (411) and the position that is located oil outlet channel (401) top are equipped with the limiting plate that exceeds in oil outlet channel (401) top oil inlet, angle adjustment mechanism includes spout I (301) that angle adjustment plate (3) and angle adjustment plate (3) surface were seted up, fixed frame (4) pass through spout I (301) joint on angle adjustment plate (3), the both ends of angle adjustment plate (3) all are equipped with spacing groove (304), the upper and lower surface symmetry of spacing groove (304) is provided with locked groove (308), be provided with locking subassembly in locked groove (308), locking subassembly includes stopper (305), spring I (306) and locking piece (307), the inside of angle adjustment plate (3) has stopper (304) block through spacing groove (304) block at both ends, the inside of stopper (305) is equipped with spring I (306), angle adjustment plate (306) is equipped with angle adjustment plate (302), the sliding chute I (301) is uniformly distributed on the angle adjusting plate (3) in a fan shape, a plurality of locking grooves (308) are formed, and the locking grooves (308) are distributed at equal intervals.