CN210453075U - Novel high-efficient numerical control cutting machine - Google Patents

Abstract

The utility model discloses a novel high-efficient numerical control cutting machine, which comprises a frame, first workstation and second workstation are installed respectively at frame upside both ends, install first planer-type tong and second planer-type tong in the frame of first workstation both sides, first workstation upside and downside are installed respectively and are drilled and mill assembly and lower drilling and milling assembly through elevating system, second planer-type tong one side is installed and is pushed away the material cylinder, the milling cutter assembly is installed through elevating system to second workstation upside, first planer-type tong, second planer-type tong and milling cutter assembly lower part all install tong driving motor, and tong driving motor one end passes through the rack and pinion and is connected with the transmission of frame both sides, the control electricity cabinet is installed to frame one side, the utility model relates to a novel high-efficient numerical control cutting machine can realize going up, The groove broaching and drilling of the lower drilling and milling assembly work simultaneously, so that the working efficiency is extremely high; the workpiece does not need to be turned over, and the labor intensity of workers is reduced.

Description

Novel high-efficient numerical control cutting machine

Technical Field

The utility model relates to a cut material machine technical field, specifically be a novel material machine is cut in high-efficient numerical control.

Background

The cutting machine is indispensable equipment in some light industry industries. In the conventional concept, the cutting machine is a machine which presses a cutting die by means of the acting force of the movement of the machine to cut and process the material. The recent cutting machine has changed a few, and advanced technologies such as high-pressure water beam, ultrasonic wave and the like are used in the leather punching technology, but people still generalize the devices into cutting machine type devices. Such machines have been adapted by a number of different names according to the habits of the respective region. Abroad, people call it a cutting machine; in taiwan, people are called as material opening machines according to the coincidence of English translation and Chinese meaning; in hong Kong, people call it a beer machine according to its function; in continents, people are also called blanking machines according to their use. In coastal areas of china, there are also some corresponding references to such products. For example, Guangdong refers to a cutting bed, Fujian refers to a punching machine, Wenzhou refers to a blanking machine, Shanghai refers to a cutting machine, and some places refer to cutting machines, blanking machines, shoe machines and the like. All these designations naturally form the key of the cutting machine. In fact, most people are still used to call the material cutting machine.

Traditional numerical control is opened material machine, can not realize upper surface hole and lower surface hole simultaneous processing, generally all be after having bored the hole of lower surface, need turn over the plank, carry out the drilling on another surface again, lead to work efficiency low like this, workman intensity of labour is big, and the dimensional error of turn-over processing is big in addition, influences furniture product quality.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel material machine is driven in high-efficient numerical control to solve the problem among the prior art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a novel high-efficient numerical control cutting machine, includes frame and tong top board, first workstation and second workstation are installed respectively at frame upside both ends, install first planer-type tong and second planer-type tong in the frame of first workstation both sides, first workstation upside and downside are installed respectively and are bored milling assembly and lower brill milling assembly through elevating system, second planer-type tong one side is installed and is pushed away the material cylinder, the milling cutter assembly is installed through elevating system to second workstation upside, tong driving motor is all installed to first planer-type tong, second planer-type tong and milling cutter assembly lower part, and tong driving motor one end passes through rack and frame both sides transmission and is connected, the control cabinet is installed to frame one side, and each control circuit all with control cabinet electric connection.

Further, first planer-type tong and second planer-type tong are all including being provided with the portal frame, the lift cylinder is installed to the portal frame upside, and the tong top board is installed to lift cylinder downside output, the portal frame lateral wall of tong top board downside installs tong lower supporting bench perpendicularly.

Furthermore, vacuum chucks are installed on the lower side of the upper pressing plate of the clamping arm, five vacuum chucks are installed in parallel, and the upper sides of the vacuum chucks are connected with the air suction end of the air pump through pipelines.

Furthermore, the lifting mechanism consists of a movable cross beam, an X-axis transverse rotation driving motor, an aluminum alloy hanging plate and a Z-axis vertical lifting driving motor, the movable cross beam is fixedly connected with the rack, the X-axis transverse rotation driving motor is installed on the upper side of the movable cross beam, one side of the X-axis transverse rotation driving motor is fixedly connected with the Z-axis vertical lifting driving motor through the aluminum alloy hanging plate, and the lower side of the Z-axis vertical lifting driving motor is respectively and fixedly connected with one side of the upper drilling and milling assembly, the lower drilling and milling assembly and the milling cutter assembly through ball screws.

Furthermore, the upper drilling and milling assembly and the lower drilling and milling assembly are respectively composed of a drilling and milling motor and a drill bit, the drill bit is installed at the output end of the drilling and milling motor, the milling cutter assembly is composed of a drilling and milling motor and a milling cutter, and the milling cutter is installed at the output end of the drilling and milling motor.

Furthermore, a material pressing roller assembly is installed on the upper side of the first workbench and comprises an L-shaped support which is vertically installed on one side of the first workbench, a material pressing cylinder is installed at the top of the L-shaped support, a material pressing frame is installed on the lower side of the material pressing cylinder, and a material pressing roller is transversely installed on the lower side of the material pressing frame through a connecting shaft.

Furthermore, an upper drilling auxiliary pinch roller is installed on one side of the upper drilling and milling assembly.

Furthermore, follow-up auxiliary supporting rollers are installed beside the second gantry type clamping hand through connecting rods, each follow-up auxiliary supporting roller consists of a supporting rod and a roller, and at least two follow-up auxiliary supporting rollers are installed.

Furthermore, the second workbench adopts a vacuum adsorption workbench, and the lower side of the vacuum adsorption workbench is connected with a vacuum pressure pump.

Furthermore, the side pushes away the material cylinder installed to second workstation upside, the side pushes away the material cylinder and pushes away the material cylinder output on and all installs the ejector pin, the second workstation upside is installed and is pushed away the dust hood.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the gantry type large board clamping hand is driven by power to clamp the whole board and realize longitudinal movement, the clamping hand is matched with the upper and lower drilling and milling assemblies, the board can be drilled and milled from the upper part and the lower part at the same time, then the large board clamping hand conveys the board to the next vacuum adsorption workbench for cutting, the working efficiency is extremely high, the groove broaching and drilling of the upper and lower drilling and milling assemblies can be realized at the same time, and the working efficiency is extremely high; the workpiece does not need to be turned over, and the labor intensity of workers is reduced.

(2) The compression roller device is arranged above the first workbench, so that the influence of the warping of the wood board on the precision is avoided; one side of the upper drilling and milling assembly is provided with a pressing wheel, and the pressing wheel presses downwards during drilling, so that the wood board cannot be tilted.

(3) One side of the second gantry type clamping hand is provided with a following type auxiliary supporting roller, a connecting rod is arranged between the clamping hand bracket and the roller bracket, the distance between the clamping hand and the roller is kept within 800mm, and one end of a large plate is prevented from drooping; the structure of the clamping hand does not interfere with the upper and lower drilling and milling assemblies during working, so the clamping hand does not need to do avoiding action.

Drawings

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

FIG. 2 is a front view of the gantry type clamping arm structure of the present invention;

fig. 3 is the structural schematic diagram of the material pressing roller assembly of the utility model.

In the figure: 1. a frame; 2. a first gantry type gripper; 3. a lower supporting table for clamping the handle; 4. A lifting cylinder; 5. pressing plates are arranged on the clamping hands; 501. a vacuum chuck; 6. a first table; 7. a gripper driving motor; 8. a drilling and milling assembly; 9. drilling and milling the assembly; 10. a nip roll assembly; 101. an L-shaped bracket; 102. a material pressing cylinder; 103. a material pressing frame; 104. a material pressing roller; 11. drilling an auxiliary pressing wheel; 12. a second gantry type gripper; 13. an upper material pushing cylinder; 14. a follow-up auxiliary support roller; 15. controlling the electric cabinet; 16. a connecting rod; 17. a vacuum pressure pump; 18. a second table; 19. moving the beam; 20. a material pushing and dust collecting cover; 21. an X-axis transverse rotation driving motor; 22. an aluminum alloy hanging plate; 23. a Z-axis vertical lifting driving motor; 24. a milling cutter assembly; 25. a side material pushing cylinder; 26. a gantry; 27. a lifting mechanism.

Detailed Description

The technical solution in the embodiment of the present invention will be made clear below with reference to the drawings in the embodiment of the present invention; the present invention has been described in considerable detail with reference to certain preferred versions thereof. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, in the embodiment of the present invention, a novel high-efficiency numerical control cutting machine comprises a frame 1 and a clamping upper pressing plate 5, wherein a first working table 6 and a second working table 18 are respectively installed at two ends of the upper side of the frame 1, the first working table 6 is used for drilling and milling grooves on wood, a first gantry type clamping arm 2 and a second gantry type clamping arm 12 are installed on the frame 1 at two sides of the first working table 6, and can clamp and fix two sides of a wood board for drilling and milling grooves, an upper drilling and milling assembly 9 and a lower drilling and milling assembly 8 are respectively installed at the upper side and the lower side of the first working table 6 through a lifting mechanism 27, so as to drill and mill the wood board from the upper side and the lower side simultaneously, an upper material pushing cylinder 13 is installed at one side of the second gantry type clamping arm 12 for pushing the wood board into the second working table 18, a milling assembly 24 is installed at the upper side of the second working table 18 through the lifting mechanism 27, can drive milling cutter assembly 24 and reciprocate and operate, first planer-type tong 2, tong driving motor 7 is all installed to second planer-type tong 12 and milling cutter assembly 24 lower part, be used for driving first planer-type tong 2, second planer-type tong 12 and milling cutter assembly 24 horizontal migration, and 7 one end of tong driving motor is passed through rack and pinion and is connected with the transmission of 1 both sides of frame, control electricity cabinet 15 is installed to 1 one side of frame, and control electricity cabinet 15 adopts the PLC switch board, and each control circuit all with control electricity cabinet 15 electric connection, be convenient for carry out whole regulation and control.

Preferably, first planer-type tong 2 and second planer-type tong 12 are all including being provided with portal frame 26, and lift cylinder 4 is installed to the portal frame 26 upside, and tong top board 5 is installed to 4 downside outputs of lift cylinder, and tong lower support platform 3 is installed perpendicularly to the portal frame 26 lateral wall of 5 downside of tong top board, and lift cylinder 4 can drive tong top board 5 and pushes down the plank on tong lower support platform 3, is convenient for fix the plank both ends.

Preferably, 5 downside of tong top board is installed vacuum chuck 501, and vacuum chuck 501 installs five side by side, and vacuum chuck 501 upside passes through the pipeline and is connected with the air pump end of breathing in, and the vertical removal is realized to the plank of being convenient for on can adsorbing the plank through vacuum chuck 501 when tong top board 5 pushes down.

Preferably, the lifting mechanism 27 is composed of a movable beam 19, an X-axis transverse rotation driving motor 21, an aluminum alloy hanging plate 22 and a Z-axis vertical lifting driving motor 23, the movable beam 19 is fixedly connected with the frame 1, the X-axis transverse rotation driving motor 21 is installed on the upper side of the movable beam 19, a motor is installed on the upper side of the movable beam 19 through a gear I, the X-axis transverse rotation driving motor 21 drives the gear I to drive the gear II to rotate, and can adjust the horizontal use angle, one side of the X-axis transverse rotation driving motor 21 is fixedly connected with the Z-axis vertical lifting driving motor 23 through the aluminum alloy hanging plate 22, the lower side of the Z-axis vertical lifting driving motor 23 is respectively and fixedly connected with one side of the upper milling and drilling assembly 9, the lower milling assembly 8 and the milling assembly 24 through ball screws, and the motor of the Z-axis vertical lifting driving motor 23 drives the ball screws to stretch and can adjust the, The height of the lower drilling and milling assembly 8 and the milling cutter assembly 24.

Preferably, the upper drilling and milling assembly 9 and the lower drilling and milling assembly 8 are both composed of a drilling and milling motor and a drill, the drill is installed at the output end of the drilling and milling motor, the drilling and milling motor drives the drill to rotate so as to facilitate drilling and groove milling, the milling cutter assembly 24 is composed of a drilling and milling motor and a milling cutter, the milling cutter is installed at the output end of the drilling and milling motor, and the drilling and milling motor drives the milling cutter to rotate at high speed so as to cut the wood board.

Preferably, the material pressing roller assembly 10 is installed on the upper side of the first workbench 6, the material pressing roller assembly 10 comprises an L-shaped support 101 vertically installed on one side of the first workbench 6, a material pressing cylinder 102 is installed at the top of the L-shaped support 101, a material pressing frame 103 is installed on the lower side of the material pressing cylinder 102, a material pressing roller 104 is transversely installed on the lower side of the material pressing frame 103 through a connecting shaft, the material pressing cylinder 102 drives the material pressing roller 104 to press down on a wood board, and the influence on the precision caused by the warping of the wood board is avoided.

Preferably, an upper drilling auxiliary pressure wheel 11 is installed on one side of the upper drilling and milling assembly 9, and the pressure wheel presses downwards during drilling, so that the wood board cannot be tilted.

Preferably, the side of the second gantry type clamping hand 12 is provided with following type auxiliary supporting rollers 14 through connecting rods 16, each following type auxiliary supporting roller 14 consists of a supporting rod and a roller, at least two following type auxiliary supporting rollers 14 are arranged, the distance between the clamping hand and the roller is controlled within 800mm through the connecting rods 16 arranged between the clamping hand support and the roller support, and one end of a large plate is prevented from sagging.

Preferably, the second workbench 18 adopts a vacuum adsorption workbench, and the lower side of the vacuum adsorption workbench is connected with a vacuum pressure pump 17, so that the lower side of the wood board can be conveniently sucked and positioned.

Preferably, a side pushing cylinder 25 is installed on the upper side of the second workbench 18, pushing rods are installed at the output ends of the side pushing cylinder 25 and the upper pushing cylinder 13, so that pushing and feeding are facilitated, a pushing suction hood 20 is installed on the upper side of the second workbench 18, and one end of the pushing suction hood 20 is in transmission connection with the pushing cylinder, so that the pushing suction hood 20 can push a processed workpiece out of the second workbench 18.

The working principle is as follows: the wood board is placed on a first workbench 6, an upper pressing plate 5 of a clamping hand is driven to press the wood board downwards by a first gantry type clamping hand 2 and a second gantry type clamping hand 12, the two ends of the wood board are sucked by a vacuum chuck 501, the wood board can be gripped to move longitudinally, then the drilling and milling assembly 9 and the lower drilling and milling assembly 8 are used for lifting up and down and moving transversely to drill and mill the groove, then the second gantry type clamping hand 12 is driven by power, the wood board is pulled to a second workbench 18, the wood board is cut by a milling cutter assembly 24, and finally the second workbench 18 is pushed out by a workpiece processed by a side material pushing cylinder 25.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a novel material machine is driven in high-efficient numerical control, includes frame (1) and tong top board (5), its characterized in that: the automatic milling machine is characterized in that a first workbench (6) and a second workbench (18) are respectively installed at two ends of the upper side of the rack (1), a first gantry type clamping hand (2) and a second gantry type clamping hand (12) are installed on the rack (1) at two sides of the first workbench (6), an upper drilling and milling assembly (9) and a lower drilling and milling assembly (8) are respectively installed at the upper side and the lower side of the first workbench (6) through a lifting mechanism (27), an upper material pushing cylinder (13) is installed at one side of the second gantry type clamping hand (12), a milling cutter assembly (24) is installed at the upper side of the second workbench (18) through the lifting mechanism (27), clamping hand driving motors (7) are installed at the lower parts of the first gantry type clamping hand (2), the second gantry type clamping hand (12) and the milling cutter assembly (24), and one end of each clamping hand driving motor (7) is in transmission connection with two sides of the rack (1) through a gear rack, the control electric cabinet (15) is installed to frame (1) one side, and each control circuit all with control electric cabinet (15) electric connection.

2. The novel efficient numerical control cutting machine as claimed in claim 1, characterized in that: first planer-type tong (2) and second planer-type tong (12) are all including being provided with portal frame (26), lift cylinder (4) are installed to portal frame (26) upside, and tong top board (5) are installed to lift cylinder (4) downside output, tong under bracing platform (3) are installed perpendicularly to portal frame (26) lateral wall of tong top board (5) downside.

3. The novel efficient numerical control cutting machine as claimed in claim 1, characterized in that: vacuum chuck (501) are installed to tong top board (5) downside, and vacuum chuck (501) install five side by side, and vacuum chuck (501) upside passes through the pipeline and is connected with the air pump end of breathing in.

4. The novel efficient numerical control cutting machine as claimed in claim 1, characterized in that: elevating system (27) are by moving beam (19), X axle transverse rotation driving motor (21), aluminum alloy link plate (22) and Z axle vertical lift driving motor (23) are constituteed, moving beam (19) and frame (1) fixed connection, X axle transverse rotation driving motor (21) are installed at moving beam (19) upside, X axle transverse rotation driving motor (21) one side is through aluminum alloy link plate (22) and Z axle vertical lift driving motor (23) fixed connection, Z axle vertical lift driving motor (23) downside passes through ball screw and all mills assembly (9) with last brill respectively, one side fixed connection of drilling and milling assembly (8) and milling cutter assembly (24) down.

5. The novel efficient numerical control cutting machine as claimed in claim 1, characterized in that: the upper drilling and milling assembly (9) and the lower drilling and milling assembly (8) are respectively composed of a drilling and milling motor and a drill bit, the drill bit is installed at the output end of the drilling and milling motor, the milling cutter assembly (24) is composed of a drilling and milling motor and a milling cutter, and the milling cutter is installed at the output end of the drilling and milling motor.

6. The novel efficient numerical control cutting machine as claimed in claim 1, characterized in that: the material pressing device is characterized in that a material pressing roller assembly (10) is installed on the upper side of the first workbench (6), the material pressing roller assembly (10) comprises an L-shaped support (101) which is vertically installed on one side of the first workbench (6), a material pressing cylinder (102) is installed at the top of the L-shaped support (101), a material pressing frame (103) is installed on the lower side of the material pressing cylinder (102), and a material pressing roller (104) is transversely installed on the lower side of the material pressing frame (103) through a connecting shaft.

7. The novel efficient numerical control cutting machine as claimed in claim 1, characterized in that: and an upper drilling auxiliary pressing wheel (11) is arranged on one side of the upper drilling and milling assembly (9).

8. The novel efficient numerical control cutting machine as claimed in claim 1, characterized in that: the following type auxiliary supporting rollers (14) are installed at the sides of the second gantry type clamping hands (12) through connecting rods (16), the following type auxiliary supporting rollers (14) are composed of supporting rods and rollers, and at least two following type auxiliary supporting rollers (14) are installed.

9. The novel efficient numerical control cutting machine as claimed in claim 1, characterized in that: the second workbench (18) adopts a vacuum adsorption workbench, and the lower side of the vacuum adsorption workbench is connected with a vacuum pressure pump (17).

10. The novel efficient numerical control cutting machine as claimed in claim 1, characterized in that: the side pushes away material cylinder (25) is installed to second workstation (18) upside, the side pushes away material cylinder (25) and goes up to push away the material cylinder (13) output and all install the ejector tie rod, second workstation (18) upside is installed and is pushed away material suction hood (20).

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