CN217045405U - Triaxial numerical control double-end chamfer marking machine - Google Patents

Abstract

The utility model relates to a technical field of chamfer marking machine equipment, in particular to a three-axis numerical control double-head chamfer marking machine, which comprises a frame, wherein a fixed end cutter cylinder power head and a movable end cutter cylinder power head are respectively arranged on the frame; the fixed end unclamping cylinder power head and the movable end unclamping cylinder power head are arranged in a left-right opposite mode; the machine frame is provided with a marking mechanism, the marking mechanism is arranged on one side of a power head of a moving-end unclamping cylinder, the marking mechanism and the power head of the moving-end unclamping cylinder are arranged side by side, a hydraulic fixing shaft is arranged at one end opposite to the marking mechanism, the hydraulic fixing shaft is arranged on one side of the power head of the fixed-end unclamping cylinder, and the hydraulic fixing shaft and the power head of the fixed-end unclamping cylinder are arranged side by side; and the rack is also provided with a chip removal machine for automatically removing chips of the chamfered scrap iron. The utility model discloses can collect beveler and marking machine in an organic whole, accomplish behind the realization chamfer and beat the mark action, realize automatic, intelligent control, effectively improve production efficiency.

Description

Triaxial numerical control double-end chamfer marking machine

Technical Field

The utility model relates to a chamfer marking machine equipment technical field especially relates to a triaxial numerical control double-end chamfer marking machine.

Background

At present, the chamfering machine and the marking machine sold in the market are mechanical equipment with independent processes, namely, the chamfering machine is a chamfering machine, the marking machine is a marking machine, only one person can operate the machine with one process, new mechanical equipment needs to be added when the process is increased, and the large challenge is brought to the mobile capital and labor cost of enterprises. Moreover, the machinery provided by the prior art cannot achieve the scientific management concept of quick switching and man-machine friendliness, and the search for integrated efficient and intelligent processing mechanical equipment is an effective way for reducing the burden of enterprises.

Therefore, the application needs to design a three-axis numerical control double-head chamfering marking machine to solve the technical problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcoming that exists among the prior art, and the triaxial numerical control double-end chamfer marking machine that proposes can collect beveler and marking machine in an organic whole, accomplishes behind the realization chamfer and marks the mark action, realizes automation, intelligent control.

In order to realize the purpose, the utility model adopts the following technical scheme:

a three-axis numerical control double-head chamfering marking machine comprises a rack, wherein a fixed end cutter cylinder power head and a movable end cutter cylinder power head are respectively arranged on the rack; the fixed end unclamping cylinder power head and the movable end unclamping cylinder power head are arranged in a left-right opposite mode;

the machine frame is provided with a marking mechanism, the marking mechanism is arranged on one side of a power head of a moving-end unclamping cylinder, the marking mechanism and the power head of the moving-end unclamping cylinder are arranged side by side, a hydraulic fixing shaft is arranged at one end opposite to the marking mechanism, the hydraulic fixing shaft is arranged on one side of the power head of the fixed-end unclamping cylinder, and the hydraulic fixing shaft and the power head of the fixed-end unclamping cylinder are arranged side by side;

a chip removal machine is also arranged on the rack and is used for automatically removing chips from the chamfered scrap iron;

one end of the fixed end unclamping cylinder power head is provided with a hydraulic station, and one end of the movable end unclamping cylinder power head is respectively provided with a human-computer interaction interface and an electric box.

Preferably, the front end parts of the fixed end unclamping cylinder power head and the movable end unclamping cylinder power head are respectively provided with a tool adjusting clamping table and a chamfering end clamp in sequence, and the tool adjusting clamping table is connected with a first driving motor; a chamfering oil cylinder is arranged above the chamfering end clamp; the marking mechanism and the front end of the hydraulic fixing shaft are both provided with marking end clamps, and marking cylinders are arranged above the marking end clamps.

Preferably, the knife adjustment clamping table comprises a numerical control knife handle and a knife handle positioning table connected with the numerical control knife handle, the front end of the knife handle positioning table is connected with a knife disc positioning table, a numerical control knife disc is mounted on the knife disc positioning table, a knife rest is arranged on the numerical control knife disc, and a blade is mounted on the knife rest; the front end of the numerical control cutter head is provided with a clamp positioning table, and a clamp is arranged on the clamp positioning table; the chamfer end clamp and the clamp positioning table are arranged in an up-and-down corresponding mode.

Preferably, the marking mechanism comprises a marking hydraulic cylinder, and the front end part of the marking hydraulic cylinder is connected with a marking matrix through a marking movable shaft.

By adopting the technical scheme: the chamfering machine comprises a fixed end marking cylinder power head, a movable end marking cylinder power head, a marking mechanism, a chamfering machine and a marking machine, wherein the fixed end marking cylinder power head and the movable end marking cylinder power head can chamfer a machined workpiece; meanwhile, the double-head chamfering marking machine is controlled by a PLC (programmable logic controller), so that automatic and intelligent control is realized, and the production efficiency is effectively improved.

Preferably, one side of marking mechanism is equipped with second driving motor, second driving motor is connected with the gear train through the square shaft, the gear train is connected with the swing arm through the connecting axle, the swing arm is connected with the layer board through the spliced pole, the front side of anchor clamps location platform is located to the layer board.

Preferably, a plurality of first V-shaped grooves are arranged on the supporting plate and are uniformly arranged at intervals; a plurality of second V-shaped grooves are formed in the clamp positioning table and are uniformly arranged at intervals; the first V-shaped groove and the second V-shaped groove are correspondingly arranged.

Preferably, a guide rail fixing block is arranged at one end of the fixture positioning table, a guide rail and a guide rail plate are respectively installed on the guide rail fixing block, and a self-resetting linear displacement sensor is arranged at one end, close to the guide rail fixing block, of the fixture positioning table.

By adopting the technical scheme: the second driving motor drives the swing arm to move through the gear set, and further drives the supporting plate connected with the swing arm to do swing motion in the longitudinal direction, so that a machined workpiece can be automatically loaded and unloaded, and the labor intensity of workers is reduced.

Preferably, one side of the power head of the moving end unclamping cylinder is provided with a third driving motor, the third driving motor is connected with a screw rod, the screw rod is connected with a sliding table at the bottom of the power head of the moving end unclamping cylinder through a screw nut, and the sliding table can slide along the sliding rail in the horizontal direction.

By adopting the technical scheme: the power head of the movable end unclamping cylinder is driven by a third driving motor to slide on the slide rail in the horizontal direction through a screw rod and a screw rod nut.

The utility model discloses following beneficial effect has:

1. the utility model discloses can collect beveler and marking machine in an organic whole, accomplish behind the realization chamfer and beat the mark action, realize automatic, intelligent control, effectively improve production efficiency.

2. The utility model discloses a set up the knife adjustment and press from both sides the platform, can debug the cutter in advance under the beveler during operation, a key tool changing need not online frequently to debug the chamfer size.

3. The utility model discloses a set up human-computer interaction interface, it is simple and clear, show operating condition in real time, easy operation, control is convenient.

Drawings

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

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a front view of FIG. 1;

fig. 4 is a schematic structural view of the power head of the middle moving-end unclamping cylinder of the present invention;

FIG. 5 is a side view of FIG. 4;

FIG. 6 is a top view of FIG. 4;

fig. 7 is a schematic structural view of the middle adjusting tool clamping table and the clamp positioning table of the present invention.

In the figure: the automatic marking device comprises a machine frame 1, a fixed end marking cylinder power head 2, a movable end marking cylinder power head 3, a hydraulic fixed shaft 4, a chip removal machine 5, a hydraulic station 6, a human-computer interaction interface 7, an electric box 8, a chamfering end clamp 9, a first driving motor 10, a chamfering oil cylinder 11, a marking end clamp 12, a marking air cylinder 13, a numerical control knife handle 14, a knife handle positioning table 15, a knife handle positioning table 16, a knife head positioning table 17, a numerical control knife head, a knife rest 18, a blade 19, a clamp positioning table 20, a clamp 21, a movable shaft 22, a marking character die 23, a second driving motor 24, a square shaft 25, a gear set 26, a swing arm 27, a supporting plate 28, a first V-shaped groove 29, a second V-shaped groove 30, a guide rail fixing block 31, a guide rail 32, a guide rail plate 33, a linear displacement sensor 34, a third driving motor 35, a lead screw 36, a lead screw nut 37, a sliding table 38, a sliding rail 39 and a self-resetting marking hydraulic cylinder 40.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-7, a three-axis numerical control double-head chamfer marking machine comprises a frame 1, wherein a fixed end cutter cylinder power head 2 and a movable end cutter cylinder power head 3 are respectively arranged on the frame 1; the fixed end unclamping cylinder power head and the movable end unclamping cylinder power head are arranged in a left-right opposite mode.

Wherein, be equipped with marking mechanism in frame 1, marking mechanism locates the one side of removing end unclamping cylinder unit head 3, marking mechanism sets up side by side with removing end unclamping cylinder unit head 3, and the relative one end of marking mechanism is provided with hydraulic pressure fixed axle 4, one side of stiff end unclamping cylinder unit head 2 is located to hydraulic pressure fixed axle 4, and hydraulic pressure fixed axle 4 sets up side by side with stiff end unclamping cylinder unit head 2.

The frame 1 is also provided with a chip removal machine 5 for automatically removing chips after chamfering; during practical application, can avoid iron fillings in disorder to fly with the iron fillings automatic discharge after the chamfer through chip removal machine 5 to cause the potential safety hazard to guarantee that operational environment is neat and orderly.

Wherein, one end of the fixed end unclamping cylinder power head 2 is provided with a hydraulic station 6, and one end of the movable end unclamping cylinder power head 3 is respectively provided with a human-computer interaction interface 7 and an electric box 8; in practical application, the electric box 8 is used for controlling all driving motors of the chamfering marking machine to work; the human-computer interaction interface 7 is operated by a touch screen, is simple and clear, displays the working state in real time, warns by an alarm red light when a fault occurs, and can be cleared by an operator according to the operation of displaying the fault and processing prompt by the touch screen without professional technicians.

Specifically, referring to fig. 5, the front end portions of the fixed-end unclamping cylinder power head 2 and the movable-end unclamping cylinder power head 3 are respectively provided with a tool adjusting clamp table and a chamfer end clamp 9 in sequence, and the tool adjusting clamp table is connected with a first driving motor 10; a chamfering oil cylinder 11 is arranged above the chamfering end clamp 9; the marking mechanism and the front end part of the hydraulic fixed shaft 4 are both provided with a marking end clamp 12, and a marking cylinder 13 is arranged above the marking end clamp 12; the chamfering oil cylinder 11 and the marking air cylinder 13 can respectively drive the chamfering end clamp 9 and the marking end clamp 12 to do lifting motion in the longitudinal direction.

Specifically, referring to fig. 7, the knife adjustment clamping table includes a numerical control knife handle 14 and a knife handle positioning table 15 connected to the numerical control knife handle 14, a knife disc positioning table 16 is connected to the front end of the knife handle positioning table 15, a numerical control knife disc 17 is installed on the knife disc positioning table 16, a knife rest 18 is arranged on the numerical control knife disc 17, and a blade 19 is installed on the knife rest 18; the front end of the numerical control cutter head 17 is provided with a fixture positioning table 20, and a fixture 21 is arranged on the fixture positioning table 20; the chamfering end clamp 9 and the clamp positioning table 20 are arranged up and down correspondingly.

Specifically, referring to fig. 2, the marking mechanism includes a marking hydraulic cylinder 40, and a marking matrix 23 is connected to a front end of the marking hydraulic cylinder 40 through a marking movable shaft 22.

In the embodiment, a machined workpiece can be chamfered through the fixed end cutter cylinder power head 2 and the movable end cutter cylinder power head 3, then the chamfered workpiece is marked by the marking mechanism, and the chamfering machine and the marking machine are integrated into a whole, so that the marking action is completed after chamfering; meanwhile, the double-head chamfering marking machine is controlled by a PLC (programmable logic controller), so that automatic and intelligent control is realized, and the production efficiency is effectively improved. During practical application, the clamp is designed by adopting a quick clamp, and 2 cutters, 2 chamfering clamps, 2 marking clamps and 2 character dies are adopted to adjust the length, so that the process can be completed within 2 minutes. Meanwhile, during chamfering, a numerical control center machining cutter (a BT40 cutter handle is matched with a custom cutter head and a numerical control blade) is adopted to complete cutter changing within 20 seconds, and personnel are not needed to grind the cutter; in addition, the tool adjusting clamp platform is configured, so that a tool can be debugged in advance offline and can be changed by one key when the chamfering machine works, and the chamfering size does not need to be debugged frequently online.

Specifically, referring to fig. 4 and 6, one side of the marking mechanism is provided with a second driving motor 24, the second driving motor 24 is connected with a gear set 26 through a square shaft 25, the gear set 26 is connected with a swing arm 27 through a connecting shaft, the swing arm 27 is connected with a supporting plate 28 through a connecting column, and the supporting plate 28 is arranged on the front side of the fixture positioning table 20.

Specifically, a plurality of first V-shaped grooves 29 are formed in the supporting plate 28, and the first V-shaped grooves 29 are uniformly arranged at intervals; a plurality of second V-shaped grooves 30 are formed in the fixture positioning table 20, and the second V-shaped grooves 30 are uniformly arranged at intervals; the first V-shaped groove 29 is disposed corresponding to the second V-shaped groove 30.

Specifically, a guide rail fixing block 31 is arranged at one end of the fixture positioning table 20, a guide rail 32 and a guide rail plate 33 are respectively arranged on the guide rail fixing block 31, and a self-resetting linear displacement sensor 34 is arranged at one end, close to the guide rail fixing block 31, of the fixture positioning table 20.

In this embodiment, the second driving motor 24 drives the swing arm 27 to move through the gear set 26, and further drives the supporting plate 28 connected thereto to perform a swing motion in the longitudinal direction; in practical application, a workpiece to be processed is placed on the first V-shaped groove 29 and the second V-shaped groove 30 which are correspondingly arranged, and the processed workpiece can automatically reach the marking machine after chamfering under the action of the second driving motor 24, so that the processed workpiece can be automatically fed and discharged, and the labor intensity of workers is reduced.

Specifically, referring to fig. 3, one side of the moving end unclamping cylinder power head 3 is provided with a third driving motor 35, the third driving motor 35 is connected with a lead screw 36, the lead screw 36 is connected with a sliding table 38 at the bottom of the moving end unclamping cylinder power head 3 through a lead screw nut 37, and the sliding table 38 can slide along a sliding rail 39 in the horizontal direction.

In this embodiment, the third driving motor 35 is adopted for driving, and the moving-end unclamping cylinder power head 3 is driven by the lead screw 36 and the lead screw nut 37 to slide on the slide rail 29 in the horizontal direction, so as to meet the actual use requirement and realize automatic control.

In addition, when in practical application, the utility model is additionally provided with an on-line length measurement, and the machine is automatically stopped when the length is unqualified, thereby ensuring the safe work of the machine; current monitoring is additionally arranged, and the cutter is automatically stopped when being broken; the service life of the cutter can be set, and the cutter is automatically stopped when the set service life is reached; the device can be connected, so that the data acquisition networking is facilitated, and a plurality of devices can be operated by one person.

The utility model discloses during the use, place the work piece that will process on chamfer end anchor clamps 9, start stiff end unclamping cylinder unit head 2 and remove end unclamping cylinder unit head 3 and can carry out the chamfer to the processing work piece, then beat the mark again to the work piece after the chamfer by marking mechanism, collect beveler and marking machine in an organic whole, accomplish behind the realization chamfer and beat the mark action.

In conclusion, this triaxial numerical control double-end chamfer marking machine can collect beveler and marking machine in an organic whole, accomplishes marking action after realizing the chamfer, realizes automatic, intelligent control, effectively improves production efficiency.

The above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, which are designed to be replaced or changed equally, all should be covered within the protection scope of the present invention.

Claims (8)

1. A three-axis numerical control double-head chamfering marking machine comprises a rack (1) and is characterized in that a fixed end cutter cylinder power head (2) and a movable end cutter cylinder power head (3) are respectively arranged on the rack (1); the fixed end unclamping cylinder power head and the movable end unclamping cylinder power head are arranged in a left-right opposite mode;

the marking mechanism is arranged on one side of the moving end unclamping cylinder power head (3), the marking mechanism and the moving end unclamping cylinder power head (3) are arranged side by side, a hydraulic fixing shaft (4) is arranged at one end opposite to the marking mechanism, the hydraulic fixing shaft (4) is arranged on one side of the fixed end unclamping cylinder power head (2), and the hydraulic fixing shaft (4) and the fixed end unclamping cylinder power head (2) are arranged side by side;

a chip removal machine (5) is also arranged on the rack (1) and is used for automatically removing chips from the chamfered scrap iron;

one end of the fixed end unclamping cylinder power head (2) is provided with a hydraulic station (6), and one end of the movable end unclamping cylinder power head (3) is provided with a human-computer interaction interface (7) and an electric box (8) respectively.

2. The three-axis numerical control double-head chamfering marking machine according to claim 1, characterized in that the front end parts of the fixed end forging cylinder power head (2) and the movable end forging cylinder power head (3) are respectively provided with a cutter adjusting clamp table and a chamfering end clamp (9) in sequence, and the cutter adjusting clamp table is connected with a first driving motor (10); a chamfering oil cylinder (11) is arranged above the chamfering end clamp (9); the marking mechanism and the front end part of the hydraulic fixing shaft (4) are both provided with marking end clamps (12), and marking cylinders (13) are arranged above the marking end clamps (12).

3. The three-axis numerical control double-head chamfer marking machine according to claim 2, characterized in that the cutter adjusting clamp comprises a numerical control cutter handle (14) and a cutter handle positioning table (15) connected with the numerical control cutter handle (14), the front end of the cutter handle positioning table (15) is connected with a cutter positioning table (16), a numerical control cutter (17) is installed on the cutter positioning table (16), a cutter rest (18) is arranged on the numerical control cutter (17), and a blade (19) is installed on the cutter rest (18); a clamp positioning table (20) is arranged at the front end of the numerical control cutter head (17), and a clamp (21) is arranged on the clamp positioning table (20); the chamfering end clamp (9) and the clamp positioning table (20) are arranged up and down correspondingly.

4. The three-axis numerical control double-headed chamfer marking machine according to claim 2, wherein the marking mechanism comprises a marking hydraulic cylinder (40), and the front end part of the marking hydraulic cylinder (40) is connected with a marking matrix (23) through a marking movable shaft (22).

5. The three-axis numerical control double-head chamfer marking machine according to claim 3, characterized in that one side of the marking mechanism is provided with a second driving motor (24), the second driving motor (24) is connected with a gear set (26) through a square shaft (25), the gear set (26) is connected with a swing arm (27) through a connecting shaft, the swing arm (27) is connected with a supporting plate (28) through a connecting column, and the supporting plate (28) is arranged at the front side of the fixture positioning table (20).

6. The three-axis numerical control double-head chamfer marking machine according to claim 5, characterized in that a plurality of first V-shaped grooves (29) are arranged on the supporting plate (28), and the first V-shaped grooves (29) are uniformly arranged at intervals; a plurality of second V-shaped grooves (30) are formed in the clamp positioning table (20), and the second V-shaped grooves (30) are uniformly arranged at intervals; the first V-shaped groove (29) and the second V-shaped groove (30) are correspondingly arranged.

7. The machine according to claim 6, wherein a guide rail fixing block (31) is arranged at one end of the fixture positioning table (20), a guide rail (32) and a guide rail plate (33) are respectively arranged on the guide rail fixing block (31), and a self-resetting linear displacement sensor (34) is arranged at one end, close to the guide rail fixing block (31), of the fixture positioning table (20).

8. The three-axis numerical control double-head chamfering marking machine according to claim 6, wherein a third driving motor (35) is arranged on one side of the moving end cutter cylinder power head (3), the third driving motor (35) is connected with a lead screw (36), the lead screw (36) is connected with a sliding table (38) at the bottom of the moving end cutter cylinder power head (3) through a lead screw nut (37), and the sliding table (38) can slide along a sliding rail (39) in the horizontal direction.

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