CN220407262U - Automatic angle sign indicating number cutting machine of automatic feeding - Google Patents

Abstract

The utility model discloses an automatic feeding automatic corner connector cutting machine which comprises supporting legs, a driving mechanism and a linkage mechanism, wherein a base is connected to the supporting legs, a cutting mechanism is arranged on the base, the driving mechanism is arranged in the base, a conveying mechanism is connected to the driving mechanism, a moving mechanism is arranged on the right side of the driving mechanism, the linkage mechanism is connected to the moving mechanism, and a feeding mechanism is connected to the inside of the linkage mechanism. The automatic corner brace cutting machine capable of automatically feeding is provided with the moving mechanism capable of further fixing the corner brace workpieces, so that the situation that the positions of the corner brace workpieces need to be fixed manually is avoided, the cutting efficiency is improved, and the feeding mechanism is arranged, so that the waste of the tail corner brace workpieces is avoided.

Description

Automatic angle sign indicating number cutting machine of automatic feeding

Technical Field

The utility model relates to the technical field of automatic feeding, in particular to an automatic corner connector cutting machine capable of automatically feeding.

Background

In architecture the corner fitting is a hardware connecting 90 degree right angle intersecting members. The model and the form of the corner connector and the type of the material are determined according to the stress of the connected components. The corner connector is often used in decoration engineering and furniture assembly, when the corner connector is produced, a corner connector cutting machine is needed to cut the strip-shaped corner connector according to the required size, and when the corner connector is cut, the corner connector raw material is needed to be pushed so as to achieve continuity of the corner connector when the corner connector is cut.

Through retrieval, patent number CN202022760337.6 discloses a corner brace cutting machine, which comprises a frame, wherein a feeding mechanism, a fixing mechanism, a cutting mechanism and a cooling mechanism are arranged on the frame; the cutting mechanism comprises a cutting frame, a cutting cylinder is arranged on the cutting frame, and a cutter is arranged at the piston rod end of the cutting cylinder; the cooling mechanism comprises a first cooling block and a second cooling block, the cooling cavities of the first cooling block and the second cooling block are communicated, a cooling water tank is arranged on one side of the machine frame, a water pump is arranged in the cooling water tank, the water outlet end of the water pump is communicated with the cooling cavity of the first cooling block through a water inlet pipe, and the cooling cavity of the second cooling block is communicated with the cooling water tank through a return pipe.

This angle sign indicating number cutting machine has set up first cooling block and second cooling block in cutter both sides, not only can cool off the cutter, can also guarantee the planarization of cutter, prevent wearing and tearing deformation, guarantee cutting accuracy, the piece that can also block when cutting splashes simultaneously, reduce the potential safety hazard, reduce environmental pollution, extension cutting machine life, but when using this angle sign indicating number cutting machine to cut the pay-off to angle sign indicating number work piece, because the length shortens after the angle sign indicating number work piece cuts to a certain extent, consequently this angle sign indicating number cutting machine can not be timely carry out the material loading to remaining angle sign indicating number work piece, lead to angle sign indicating number work piece extravagant, consequently, to the above problem, we make change and innovation to the automatic angle sign indicating number cutting machine of original automatic feeding.

Disclosure of Invention

The utility model aims to provide an automatic corner brace cutting machine capable of automatically feeding, so as to solve the problem that the length of a corner brace cutting machine in the current market, which is proposed by the background technology, is shortened after a corner brace workpiece is cut to a certain extent, and therefore, the corner brace cutting machine cannot timely feed the rest corner brace workpieces, and the corner brace workpieces are wasted.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an automatic angle sign indicating number cutting machine of automatic feeding, includes supporting leg, driving mechanism and link gear, the base has been connected above the supporting leg, and installed cutting mechanism above the base, install driving mechanism in the base, and connected transport mechanism above the driving mechanism, moving mechanism has been installed on driving mechanism right side, and linked gear has been connected above the moving mechanism, link gear internally connected feeding mechanism.

Preferably, the cutting mechanism comprises a first cylinder and a cutting blade, wherein the first cylinder is arranged at one side position on the base, and the lower part of the first cylinder is connected with the cutting blade to form a telescopic structure.

Preferably, the driving mechanism is composed of a servo motor, a first rotating shaft, a first bevel gear, a second bevel gear and a second rotating shaft, the servo motor is arranged at the center position of the front side inside the base, the two sides of the servo motor are connected with the first rotating shaft to form a rotating structure, the top end of the first rotating shaft is provided with the first bevel gear, the first bevel gear is transversely meshed with the second bevel gear, and the second bevel gear is connected with the second rotating shaft to form the rotating structure.

Preferably, the conveying mechanism comprises a connecting sleeve, a second air cylinder and a pressing plate, wherein the connecting sleeve is connected to the second rotating shaft to form a moving structure, the second air cylinder is arranged on the connecting sleeve, and the pressing plate is arranged below the second air cylinder to form a telescopic structure.

Preferably, the moving mechanism is composed of a motor, a third rotating shaft, a first gear, a first rack and a connecting plate, wherein the motor is arranged at the inner position of the base, the motor is vertically connected with the third rotating shaft to form a rotating structure, the first gear is arranged at the top of the third rotating shaft, two sides of the first gear are meshed with the first rack, the connecting plate is arranged on the first rack, and the connecting plate is connected with the first gear through the first rack to form the moving structure.

Preferably, the link gear comprises fixed shell, second gear, third gear, connecting rod, belt pulley, belt and fourth rotation axis, the fixed shell is installed on the third rotation axis, and has connected the second gear on the third rotation axis and constitute revolution mechanic, the third gear has been installed to second gear bilateral symmetry, and has connected the connecting rod on the third gear, the belt pulley has been installed on the top of connecting rod, and has connected the belt on the belt pulley, belt one end is connected in another group belt pulley constitution link structure, the fourth rotation axis has been connected on the belt pulley and has become revolution mechanic.

Preferably, the feeding mechanism is composed of a connecting shell, a second rack and a fourth gear, wherein the connecting shell is arranged in front of the connecting plate, 2 groups of second racks are symmetrically arranged on the connecting shell up and down, the fourth gear is arranged in the connecting shell, 2 groups of fourth gears are arranged on the connecting shell up and down, and the fourth rotating shaft is connected with the fourth gear to form a rotating structure.

Compared with the prior art, the utility model has the beneficial effects that: the automatic corner connector cutting machine capable of automatically feeding materials;

1. the automatic corner brace cutting machine with automatic feeding is provided with the moving mechanism which is convenient for fixing the corner brace workpieces, before the corner brace cutting machine is required to cut the corner brace workpieces, the fixed positions of the corner brace workpieces need to be manually adjusted by manpower, so that the corner brace workpieces of the follow-up corner brace cutting machine are cut, when a large number of workpieces are cut, the fixed positions are manually adjusted manually, the time consumption is reduced, the cutting efficiency is reduced, and therefore the moving mechanism is arranged, the moving mechanism can automatically fix the positions of the workpieces, the cutting efficiency is improved, and meanwhile, multiple groups of workpieces can be simultaneously fixed.

2. When the corner brace cutting machine cuts a corner brace workpiece, the length of the corner brace workpiece is shorter and shorter because the cutting machine continuously works, and when the corner brace cutting machine cuts the tail end of the workpiece, the conveying mechanism cannot cut and convey the rest workpiece because of insufficient length of the workpiece, so that the waste of the corner brace workpiece is caused, and the feeding mechanism capable of conveying the corner brace workpiece with insufficient residual length and cutting distance is arranged, so that the waste of the corner brace workpiece is avoided.

Drawings

FIG. 1 is a schematic diagram of the overall side view cross-section structure of the present utility model;

FIG. 2 is an enlarged schematic view of the structure A in FIG. 1 according to the present utility model;

FIG. 3 is a schematic top view of the overall structure of the present utility model;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3B according to the present utility model;

FIG. 5 is a schematic view of the partial cross-sectional structure of FIG. 3 according to the present utility model;

fig. 6 is a schematic view of a partial front sectional structure of the present utility model.

In the figure: 1. support legs; 2. a base; 3. a cutting mechanism; 3-1, a first cylinder; 3-2, cutting blades; 4. an active mechanism; 4-1, a servo motor; 4-2, a first rotation axis; 4-3, a first bevel gear; 4-4, a second bevel gear; 4-5, a second rotating shaft; 5. a conveying mechanism; 5-1, connecting sleeve; 5-2, a second cylinder; 5-3, pressing plate; 6. a moving mechanism; 6-1, a motor; 6-2, a third rotation axis; 6-3, a first gear; 6-4, a first rack; 6-5, connecting the plates; 7. a linkage mechanism; 7-1, fixing the shell; 7-2, a second gear; 7-3, a third gear; 7-4, connecting rods; 7-5, belt pulley; 7-6, a belt; 7-7, a fourth rotation axis; 8. a feeding mechanism; 8-1, connecting the shells; 8-2, a second rack; 8-3, fourth gear.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides a technical solution: the utility model provides an automatic angle sign indicating number cutting machine of automatic feeding, includes supporting leg 1, initiative mechanism 4 and link gear 7, the base 2 has been connected above the supporting leg 1, and installs cutting mechanism 3 above the base 2, install initiative mechanism 4 in the base 2, and connected transport mechanism 5 above the initiative mechanism 4, moving mechanism 6 has been installed on initiative mechanism 4 right side, and link gear 7 has been connected above the moving mechanism 6, feeding mechanism 8 has been connected to link gear 7 internal connection.

The driving mechanism 4 consists of a servo motor 4-1, a first rotating shaft 4-2, a first bevel gear 4-3, a second bevel gear 4-4 and a second rotating shaft 4-5, wherein the servo motor 4-1 is arranged at the middle position of the front side inside the base 2, the two sides of the servo motor 4-1 are connected with the first rotating shaft 4-2 to form a rotating structure, the top end of the first rotating shaft 4-2 is provided with the first bevel gear 4-3, the first bevel gear 4-3 is transversely meshed with the second bevel gear 4-4, the second bevel gear 4-4 is connected with the second rotating shaft 4-5 to form a rotating structure, and the two sides of the servo motor 4-1 are connected with the first rotating shaft 4-2, so that the two sides of the conveying mechanism 5 can move simultaneously, and the stability of the conveying mechanism 5 is improved.

The conveying mechanism 5 consists of a connecting sleeve 5-1, a second air cylinder 5-2 and a pressing plate 5-3, the connecting sleeve 5-1 is connected to the second rotating shaft 4-5 to form a moving structure, the second air cylinder 5-2 is arranged on the connecting sleeve 5-1, the pressing plate 5-3 is arranged below the second air cylinder 5-2 to form a telescopic structure, and the conveying mechanism 5 can enable the diagonal code workpieces to be vertically fixed and pushed at equal intervals.

The moving mechanism 6 comprises a motor 6-1, a third rotating shaft 6-2, a first gear 6-3, a first rack 6-4 and a connecting plate 6-5, wherein the motor 6-1 is arranged at the inner position of the base 2, the motor 6-1 is vertically connected with the third rotating shaft 6-2 to form a rotating structure, the first gear 6-3 is arranged at the top of the third rotating shaft 6-2, two sides of the first gear 6-3 are meshed with the first rack 6-4, the connecting plate 6-5 is arranged on the first rack 6-4, the connecting plate 6-5 is connected with the first gear 6-3 through the first rack 6-4 to form a moving structure, and the two sides of a corner code workpiece are transversely fixed by the installation of the moving mechanism 6, so that the corner code workpiece is further ensured to be stable during cutting.

The linkage mechanism 7 consists of a fixed shell 7-1, a second gear 7-2, a third gear 7-3, a connecting rod 7-4, a belt pulley 7-5, a belt 7-6 and a fourth rotating shaft 7-7, wherein the fixed shell 7-1 is arranged on the third rotating shaft 6-2, the third rotating shaft 6-2 is connected with the second gear 7-2 to form a rotating structure, the third gear 7-3 is symmetrically arranged on two sides of the second gear 7-2, the connecting rod 7-4 is connected with the third gear 7-3, the belt pulley 7-5 is arranged at the top end of the connecting rod 7-4, the belt pulley 7-5 is connected with a belt 7-6, one end of the belt 7-6 is connected with the other group of belt pulleys 7-5 to form a linkage structure, the fourth rotating shaft 7-7 is connected with the belt pulley 7-5 to form a rotating structure, and the installation of the linkage mechanism 7 can drive the feeding mechanism 8 to move.

The feeding mechanism 8 consists of a connecting shell 8-1, a second rack 8-2 and a fourth gear 8-3, wherein the connecting shell 8-1 is arranged in front of a connecting plate 6-5, 2 groups of second racks 8-2 are symmetrically arranged on the connecting shell 8-1 up and down, the fourth gear 8-3 is arranged in the connecting shell 8-1, 2 groups are arranged on the fourth gear 8-3 up and down, a fourth rotating shaft 7-7 is connected with the fourth gear 8-3 to form a rotating structure, and the feeding mechanism 8 is arranged to feed the corner code workpiece when the end of the corner code workpiece is cut and cannot be pushed in time, so that the waste of the corner code workpiece is avoided.

Working principle: when the automatic corner-code cutting machine with automatic feeding is used, firstly, a worker places a corner-code workpiece on a base 2, then a second cylinder 5-2 is started to vertically fix the workpiece, in order to ensure the stability of the corner-code workpiece during cutting, a motor 6-1 is required to be started, a motor 6-1 drives a third rotating shaft 6-2 to rotate, as the top end of the third rotating shaft 6-2 is provided with a first gear 6-3, when the third rotating shaft 6-2 rotates, the first gear 6-3 is simultaneously driven to rotate, as a connecting plate 6-5 is meshed with the first gear 6-3 through a first rack 6-4 connected with the bottom, when the first gear 6-3 rotates, the first rack 6-4 meshed with the two sides is simultaneously driven to move, and then the connecting plate 6-5 connected with the first rack 6-4 drives a connecting shell 8-1 connected with the front side to do bidirectional movement, and further the two sides of the corner-code workpiece can be transversely fixed, when the corner-code workpiece is placed, the position of the motor is not required to be manually and then automatically adjusted, the motor is required to rotate, and then the bevel gear 4 is driven to rotate, and the bevel gear 4 is connected with the first gear 4 is driven to rotate, and the bevel gear 4 is driven to rotate by the first gear 4-4 to rotate, and then the bevel gear 4 rotates 4 is connected with the first gear 4 and the bevel gear 4 rotates, and the bevel gear 4 rotates 4 is connected with the first gear 4 by the first gear 4 through the first gear 4 and 4 when the bevel gear 4 is connected with the first gear 4-4, because the connecting sleeve 5-1 is connected to the second rotating shaft 4-5, when the second rotating shaft 4-5 rotates, the connecting sleeve 5-1 moves on the second rotating shaft 4-5, because the second air cylinder 5-2 is installed on the connecting sleeve 5-1, and the corner-coded workpiece is fixed under the second air cylinder 5-2 by the pressing plate 5-3, when the connecting sleeve 5-1 drives the second air cylinder 5-2 to move on the second rotating shaft 4-5, the corner-coded workpiece is simultaneously driven to move forwards, when the corner-coded workpiece moves below the cutting blade 3-2, the second air cylinder 5-2 loosens the corner-coded workpiece, the random first air cylinder 3-1 drives the cutting blade 3-2 to cut the corner-coded workpiece downwards, after the cutting is completed, the corner-coded workpiece is fixed again, and then the driving mechanism 4 is utilized to move the workpiece again.

When the angle code workpiece is cut to the tail end, because the length of the angle code workpiece can not be transmitted by the transmission mechanism, in order to avoid the waste of the angle code workpiece, when the third rotation shaft 6-2 rotates, the second gear 7-2 arranged on the third rotation shaft 6-2 rotates at the same time, and because the two sides of the second gear 7-2 are rotationally meshed with the third gear 7-3, when the second gear 7-2 rotates, the third gear 7-3 is simultaneously driven to rotate, and because the connecting rod 7-4 is connected to the third gear 7-3, one end of the connecting rod 7-4 is provided with the belt pulley 7-5, when the third gear 7-3 rotates, the belt pulley 7-5 is simultaneously driven to rotate by the belt pulley 7-6, the belt pulley 7-5 connected to the fourth rotation shaft 7-7 through the belt pulley 7-6 also simultaneously drives the fourth rotation shaft 7-7 to rotate, and the fourth rotation shaft 7-7 penetrates through the fourth gear 7-5 to the fourth gear 8 and is connected to the fourth gear 3 through the fourth gear 7-3, the fourth gear 7-8 is simultaneously driven to rotate by the belt pulley 7-6 and the fourth gear 7-8 is meshed with the fourth gear 8-3 through the fourth gear 8-3, the fourth gear 7-3 is simultaneously driven to rotate by the belt pulley 7-5, the fourth gear 7-5 is simultaneously meshed with the fourth gear 7-8 through the fourth gear 8-3, the fourth gear 7-8 is simultaneously driven to rotate through the fourth gear 7-8, and the fourth gear 7-3 is meshed with the fourth gear 7-5 is meshed with the fourth gear 7-3 through the belt 7-5, and the fourth gear 7 is simultaneously, and thus the corner piece can be moved back and forth, which is not described in detail in this specification, and belongs to the prior art known to those skilled in the art.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. The utility model provides an automatic angle sign indicating number cutting machine of automatic feeding, includes supporting leg (1), driving mechanism (4) and link gear (7), its characterized in that: the cutting device is characterized in that the base (2) is connected to the supporting leg (1), the cutting mechanism (3) is arranged on the base (2), the driving mechanism (4) is arranged in the base (2), the conveying mechanism (5) is connected to the driving mechanism (4), the moving mechanism (6) is arranged on the right side of the driving mechanism (4), the linkage mechanism (7) is connected to the moving mechanism (6), and the feeding mechanism (8) is connected to the linkage mechanism (7) inside.

2. An automatic corner brace cutting machine for automatic feeding according to claim 1, wherein: the cutting mechanism (3) is composed of a first air cylinder (3-1) and a cutting blade (3-2), the first air cylinder (3-1) is arranged at one side position on the base (2), and the cutting blade (3-2) is connected below the first air cylinder (3-1) to form a telescopic structure.

3. An automatic corner brace cutting machine for automatic feeding according to claim 1, wherein: the driving mechanism (4) is composed of a servo motor (4-1), a first rotating shaft (4-2), a first bevel gear (4-3), a second bevel gear (4-4) and a second rotating shaft (4-5), wherein the servo motor (4-1) is installed at the center of the front side inside the base (2), the first rotating shaft (4-2) is connected to two sides of the servo motor (4-1) to form a rotating structure, the top end of the first rotating shaft (4-2) is provided with the first bevel gear (4-3), the first bevel gear (4-3) is transversely meshed with the second bevel gear (4-4), and the second rotating shaft (4-5) is connected to the second bevel gear (4-4) to form the rotating structure.

4. An automatic corner brace cutting machine for automatic feeding according to claim 1, wherein: the conveying mechanism (5) is composed of a connecting sleeve (5-1), a second air cylinder (5-2) and a pressing plate (5-3), the connecting sleeve (5-1) is connected to the second rotating shaft (4-5) to form a moving structure, the second air cylinder (5-2) is arranged on the connecting sleeve (5-1), and the pressing plate (5-3) is arranged below the second air cylinder (5-2) to form a telescopic structure.

5. An automatic corner brace cutting machine for automatic feeding according to claim 1, wherein: the moving mechanism (6) is composed of a motor (6-1), a third rotating shaft (6-2), a first gear (6-3), a first rack (6-4) and a connecting plate (6-5), wherein the motor (6-1) is installed at the inner position of the base (2), the motor (6-1) is vertically connected with the third rotating shaft (6-2) to form a rotating structure, the first gear (6-3) is installed at the top of the third rotating shaft (6-2), two sides of the first gear (6-3) are meshed with the first rack (6-4), the connecting plate (6-5) is installed on the first rack (6-4), and the connecting plate (6-5) is connected with the first gear (6-3) through the first rack (6-4) to form the moving structure.

6. An automatic corner brace cutting machine for automatic feeding according to claim 1, wherein: the linkage mechanism (7) is composed of a fixed shell (7-1), a second gear (7-2), a third gear (7-3), a connecting rod (7-4), a belt pulley (7-5), a belt (7-6) and a fourth rotating shaft (7-7), wherein the fixed shell (7-1) is installed on the third rotating shaft (6-2), the third rotating shaft (6-2) is connected with the second gear (7-2) to form a rotating structure, the third gear (7-3) is symmetrically installed on two sides of the second gear (7-2), the connecting rod (7-4) is connected to the third gear (7-3), the belt pulley (7-5) is installed at the top end of the connecting rod (7-4), the belt pulley (7-6) is connected to the belt pulley (7-5), one end of the belt pulley (7-6) is connected to the other group of belt pulleys (7-5) to form a rotating structure, and the fourth rotating shaft (7-7) is connected to form a rotating structure.

7. An automatic corner brace cutting machine for automatic feeding according to claim 1, wherein: the feeding mechanism (8) is composed of a connecting shell (8-1), a second rack (8-2) and a fourth gear (8-3), wherein the connecting shell (8-1) is arranged in front of a connecting plate (6-5), 2 groups of second racks (8-2) are symmetrically arranged on the connecting shell (8-1) up and down, the fourth gear (8-3) is arranged in the connecting shell (8-1), 2 groups of fourth gears (8-3) are arranged on the connecting shell up and down, and a fourth rotating shaft (7-7) of the fourth gear (8-3) is connected to the fourth rotating shaft (7-7) to form a rotating structure.