CN201442291U - Digital control wooden door carving comprehensive machine - Google Patents

Abstract

The utility model provides a digital control wooden door carving comprehensive machine, which comprises a bottom bracket, wherein a walking frame is installed on the bottom bracket, a driving device is installed on the walking frame, a third guideway is arranged on the walking frame, a second sliding sleeve is installed on the third guideway, a driving plate is arranged on the second sliding sleeve, a first guideway is arranged on the driving plate, a first sliding sleeve is arranged on the first guideway, a box body is arranged on the first sliding sleeve, a leading screw and a power mechanism are arranged on the driving plate, a nut is arranged on the leading screw, the nut is connected with the box body, a rotation shaft is arranged in the box body, one end of the rotation shaft is provided with a second gear, the other end of the rotation shaft is provided with a rotary table, a first main shaft is installed on the rotary table, a fourth hydraulic cylinder is arranged in the box body, a second rack is arranged on a piston rod of the fourth hydraulic cylinder, the second rack is engaged with the second gear, the walking mechanism is arranged on the driving plate, and the walking mechanism is connected with the walking frame. The machine can horizontally bore wooden doors, also can vertically cut the wooden doors, can reduce the processing time, and improves the processing efficiency.

Description

The numerical control timber is carved comprehensive machine

Technical field

The utility model relates to a kind of numerical control timber and carves comprehensive machine.

Background technology

Existing all kinds of timber engraving machine has the following disadvantages, and only can vertically carve, and does not possess level engraving function,, therefore, the processing Yishanmen, need be cooperated with above-mentioned engraving machine by horizontal punch devices such as puncheres and just can finish, operation is wasted time and energy, process engineering complexity, crudy are low.

Summary of the invention

The purpose of this utility model has provided a kind of numerical control timber and has carved comprehensive machine, and it both can carry out the level punching to timber, can carry out perpendicular cuts to timber again, can shorten process time, improve working (machining) efficiency.

The purpose of this utility model is achieved through the following technical solutions: the numerical control timber is carved comprehensive machine, comprise underframe, walker is installed on the underframe, first drive unit and second drive unit are installed on the walker, first drive unit is connected with underframe with second drive unit, the 3rd guide rail is set on the walker, second sliding sleeve is installed on the 3rd guide rail, on second sliding sleeve drive plate is installed, first guide rail is set on the drive plate, first sliding sleeve is installed on first guide rail, on first sliding sleeve casing is installed, leading screw and actuating unit are installed on the drive plate, actuating unit is connected with leading screw, nut is installed on the leading screw, and nut is connected with casing, and rotating shaft is installed in the casing, one end of rotating shaft is installed second gear, the other end of rotating shaft is installed rotating disk, and first main shaft is installed on the rotating disk, and the 4th hydraulic cylinder is installed in the casing, second tooth bar is installed on the piston rod of the 4th hydraulic cylinder, second tooth bar and second gears engaged are installed walking mechanism on the drive plate, walking mechanism is connected with walker.

For further realizing the purpose of this utility model, can also realize by the following technical solutions: described actuating unit is connected and composed by first motor, second drive, first driving-belt and first drive, second drive is installed on the output shaft of first motor, first drive is installed on the leading screw, and first drive is connected with second drive by first driving-belt.Described walking mechanism is connected and composed by second motor, the 3rd drive, the 4th drive and second driving-belt, connecting plate is set on the drive plate, second motor is installed on the connecting plate, the 3rd drive is installed on the output shaft of second motor, the 3rd drive is connected with the 4th drive by second driving-belt, the axle of the 4th drive is gone up first gear is installed, and first tooth bar is set, first tooth bar and first gears engaged on the end face of walker.First locating surface and second locating surface are set on the rotating disk, and second locating surface is vertical with first locating surface, and the 3rd hydraulic cylinder is installed in the casing, on the piston rod of the 3rd hydraulic cylinder position block is installed, and position block is positioned at the rotating disk top.The both sides of casing are installed first hydraulic cylinder and second hydraulic cylinder respectively, the left and right sides of casing is provided with guide rail respectively, sliding sleeve all is installed on the guide rail, second main shaft and the 3rd main shaft are installed respectively on two sliding sleeves, second main shaft is connected with the piston rod of first hydraulic cylinder, and the 3rd main shaft is connected with the piston rod of second hydraulic cylinder.Described second drive unit is connected and composed by the 3rd motor, the 5th drive, the 3rd driving-belt and the 6th drive, the 3rd motor is installed on the walker, the 5th drive is installed on the output shaft of the 3rd motor, the 5th drive is connected with the 6th drive by the 3rd driving-belt, the axle of the 6th drive is gone up the 3rd gear is installed, the 3rd tooth bar is set, the 3rd tooth bar and the 3rd gears engaged on the underframe.

Good effect of the present utility model is: its main shaft is rotatable to be vertical and two positions of level, and engraving machine is independent just can to carry out vertical and level is carved or punching work, and easy and simple to handle, time saving and energy saving, high efficiency, quality are good.It also can install the cutter of three kinds of different models simultaneously, can reduce the number of times of tool changing in process, thereby can further improve the efficient of processing.The utility model also has compactness simple for structure, makes adult advantage cheap and safe and convenient to use.

Description of drawings

Fig. 1 is a structural representation of the present utility model; Fig. 2 is that the A of Fig. 1 is to the structure for amplifying schematic diagram; Fig. 3 is that the B-B of Fig. 2 analyses and observe the structure for amplifying schematic diagram; Fig. 4 is the local structure for amplifying schematic diagram of the worker of Fig. 1.

Number in the figure: 1 underframe, 2 first drive units, 3 second drive units, 4 walkers, 5 first main shafts, 6 second main shafts 7 the 3rd main shaft, 8 first hydraulic cylinders, 9 second hydraulic cylinders, 10 drive plates, 11 first drives, 12 leading screws, 13 first guide rails, 14 second guide rails, 15 casings, 16 nuts, 17 first sliding sleeves, 18 first driving-belts, 19 second drives, 20 first motors, 21 second motors 22 the 3rd drive, 23 second driving-belts 24 the 4th drive, 25 first gears, 26 first tooth bars 27 the 3rd guide rail, 28 second sliding sleeves 29 the 3rd hydraulic cylinder, 30 position blocks, 31 rotating disks 32 the 4th hydraulic cylinder, 33 second tooth bars, 34 second gears, 35 rotating shafts, 36 first locating surfaces, 37 second locating surfaces 38 the 3rd motor 39 the 5th drive 40 the 3rd driving-belt 41 the 6th drive 42 the 3rd gear 43 the 3rd tooth bar, 44 first sliding sleeves 45 the 4th guide rail.

The specific embodiment

Numerical control timber described in the utility model is carved comprehensive machine, comprise underframe 1, walker 4 is installed on the underframe 1, first drive unit 2 and second drive unit 3 are installed on the walker 4, first drive unit 2 is connected with underframe 1 with second drive unit 3, walker 4 can be at the drive lower edge of first drive unit 2 and second drive unit 3 underframe 1 moving linearly, the 3rd guide rail 27 is set on the walker 4, second sliding sleeve 28 is installed on the 3rd guide rail 27, drive plate 10 is installed on second sliding sleeve 28, be provided with on the drive plate 10 to install on first guide rail, 13, the first guide rails 13 casing 15 is installed on first sliding sleeve, 17, the first sliding sleeves 17; For casing 15 relative drive plates 10 are moved up and down steadily, second guide rail 14 also can be set on the drive plate 10, another first sliding sleeve 17 is installed on second guide rail 14, this first sliding sleeve 17 is connected with casing 15, leading screw 12 and actuating unit are installed on the drive plate 10, actuating unit is connected with leading screw 12, actuating unit can drive leading screw 12 and rotate, nut 16 is installed on the leading screw 12, nut 16 is connected with casing 15, and leading screw 12 rotates and can make nut 16 drive casing 15 along first guide rail 13 and second guide rail, 14 works rectilinear motion up and down; Rotating shaft 35 is installed in the casing 15, rotating shaft 35 can be rotated with respect to casing 15, one end of rotating shaft 35 is installed second gear 34, the other end of rotating shaft 35 is installed rotating disk 31, first main shaft 5 is installed on the rotating disk 31, the 4th hydraulic cylinder 32 is installed in the casing 15, second tooth bar 33 is installed on the piston rod of the 4th hydraulic cylinder 32, second tooth bar 33 and 34 engagements of second gear, on the drive plate 10 walking mechanism is installed, walking mechanism is connected with walker 4, and walking mechanism can drive the rectilinear motion about drive plate 10 is done along walker 4.

During use, timber to be processed is positioned on the underframe 1, cutter is installed on first main shaft 5; First drive unit 2 drives walker 4 relative underframe 1 with second drive unit 3 and moves to desired location, above-mentioned walking mechanism drives drive plate 10 relative walkers 4 and moves to desired location, above-mentioned actuating unit by leading screw 12 drive casings 15 relatively drive plate 10 make progress or under move, first main shaft 5 is moved to the original position of cutting, the 3rd hydraulic cylinder 29 can drive second tooth bar 33 and move up and down, second tooth bar 33 drives second gear 34 and rotates, second gear 34 drives 5 rotations of first main shaft by rotating shaft 35 and rotating disk 31, thereby can realize perpendicular cuts or horizontal resection.

As shown in Figure 2, described actuating unit can be connected and composed by first motor 20, second drive 19, first driving-belt 18 and first drive 11, second drive 19 is installed on the output shaft of first motor 20, first drive, 11, the first drives 11 are installed on the leading screw 12 to be connected with second drive 19 by first driving-belt 18.First motor 20 can pass through second drive 19, first driving-belt 18 and first drive 11 and drive leading screw 12 rotations.

As shown in Figure 2, described walking mechanism is by second motor 21, the 3rd drive 22, the 4th drive 24 and second driving-belt 23 connect and compose, on the drive plate 10 connecting plate is set, second motor 21 is installed on the connecting plate, the 3rd drive 22 is installed on the output shaft of second motor 21, the 3rd drive 22 is connected with the 4th drive 24 by second driving-belt 23, the axle of the 4th drive 24 is gone up first gear 25 is installed, the 4th drive 24 is installed on the connecting plate of above-mentioned drive plate 10, first tooth bar, 26, the first tooth bars 26 and 25 engagements of first gear are set on the end face of walker 4.Second motor 21 can pass through the 3rd drive 22, second driving-belt 23 and the 4th drive 24 and drive 25 rotations of first gear, and first gear 25 is made left and right sides straight line with first tooth bar, 26 cooperation drive drive plates 10 relative to walker 4 and moved.

As shown in Figure 3, first locating surface 36 can be set on the rotating disk 31 and second locating surface, 37, the second locating surfaces 37 are vertical with first locating surface 36, the 3rd hydraulic cylinders 29 are installed in the casing 15, position block 30 is installed on the piston rod of the 3rd hydraulic cylinder 29, and position block 30 is positioned at rotating disk 31 tops.After first main shaft 5 turned to horizontal or vertical position, the 3rd hydraulic cylinder 29 can drive position block 30 and first locating surface 36 or second locating surface, 37 compression fit, and first main shaft 5 is played the role of positioning, and prevents that first main shaft 5 deflects in cutting process.

For at cutting process, reduce the inconvenience of tool changing tool, as shown in Figure 1, the both sides of casing 15 are installed first hydraulic cylinder 8 and second hydraulic cylinder 9 respectively, the left and right sides of casing 15 is provided with guide rail respectively, and sliding sleeve all is installed on the guide rail, and second main shaft 6 and the 3rd main shaft 7 are installed respectively on two sliding sleeves, second main shaft 6 is connected with the piston rod of first hydraulic cylinder 8, and the 3rd main shaft 7 is connected with the piston rod of second hydraulic cylinder 9.When need use the cutter of different model, can drive drive plate 10 is adjusted casing 15 with respect to walker 4 position by above-mentioned walking mechanism, make first main shaft 5, second main shaft 6 or the 3rd main shaft 7 that required model cutter is housed aim at cutting position, can regulate second main shaft 6 or the 3rd main shaft 7 upper-lower positions by first hydraulic cylinder 8 and second hydraulic cylinder 9.First main shaft 5, second main shaft 6 and the 3rd main shaft 7 can be the permanent power motors of high speed frequency conversion.

The planform of first drive unit 2 and second drive unit 3 is symmetry fully, as shown in Figure 4, described second drive unit 3 is by the 3rd motor 38, the 5th drive 39, the 3rd driving-belt 40, connect and compose with the 6th drive 41, the 3rd motor 38 is installed on the walker 4, the 5th drive 39 is installed on the output shaft of the 3rd motor 38, the 5th drive 39 is connected with the 6th drive 41 by the 3rd driving-belt 40, the axle of the 6th drive 41 is gone up the 3rd gear 42 is installed, be installed on the walker 4 on the 6th drive 41, the 3rd tooth bar 43, the three tooth bars 43 and 42 engagements of the 3rd gear are set on the underframe 1.The 3rd motor 38 can pass through the 5th drive 39, the 3rd driving-belt 40 and the 6th drive 41 and drive 42 rotations of the 3rd gear, moves thereby make walker 4 drive underframe 1.As shown in Figure 4, move steadily along underframe 1, be provided with on the walker 4 and the 4th guide rail 45, the four guide rails 45 are set on first sliding sleeve 44,1 cooperate with first sliding sleeve 44 for making walker 4.

The utility model not technology contents of detailed description is known technology.

Claims (6)

1. the numerical control timber is carved comprehensive machine, comprise underframe (1), underframe (1) is gone up walker (4) is installed, walker (4) is gone up first drive unit (2) and second drive unit (3) is installed, first drive unit (2) is connected with underframe (1) with second drive unit (3), it is characterized in that: the 3rd guide rail (27) is set on the walker (4), the 3rd guide rail (27) is gone up second sliding sleeve (28) is installed, second sliding sleeve (28) is gone up drive plate (10) is installed, first guide rail (13) is set on the drive plate (10), first guide rail (13) is gone up first sliding sleeve (17) is installed, first sliding sleeve (17) is gone up casing (15) is installed, drive plate (10) is gone up leading screw (12) and actuating unit is installed, actuating unit is connected with leading screw (12), leading screw (12) is gone up nut (16) is installed, nut (16) is connected with casing (15), rotating shaft (35) is installed in the casing (15), one end of rotating shaft (35) is installed second gear (34), the other end of rotating shaft (35) is installed rotating disk (31), rotating disk (31) is gone up first main shaft (5) is installed, the 4th hydraulic cylinder (32) is installed in the casing (15), second tooth bar (33) is installed on the piston rod of the 4th hydraulic cylinder (32), second tooth bar (33) and second gear (34) engagement, drive plate (10) is gone up walking mechanism is installed, and walking mechanism is connected with walker (4).

2. numerical control timber according to claim 1 is carved comprehensive machine, it is characterized in that: described actuating unit is connected and composed by first motor (20), second drive (19), first driving-belt (18) and first drive (11), second drive (19) is installed on the output shaft of first motor (20), leading screw (12) is gone up first drive (11) is installed, and first drive (11) is connected with second drive (19) by first driving-belt (18).

3. numerical control timber according to claim 2 is carved comprehensive machine, it is characterized in that: described walking mechanism is by second motor (21), the 3rd drive (22), the 4th drive (24) and second driving-belt (23) connect and compose, drive plate is provided with connecting plate on (10), second motor (21) is installed on the connecting plate, the 3rd drive (22) is installed on the output shaft of second motor (21), the 3rd drive (22) is connected with the 4th drive (24) by second driving-belt (23), the axle of the 4th drive (24) is gone up first gear (25) is installed, first tooth bar (26) is set, first tooth bar (26) and first gear (25) engagement on the end face of walker (4).

4. carve comprehensive machine according to claim 1,2 or 3 described numerical control timbers, it is characterized in that: first locating surface (36) and second locating surface (37) are set on the rotating disk (31), second locating surface (37) is vertical with first locating surface (36), the 3rd hydraulic cylinder (29) is installed in the casing (15), position block (30) is installed on the piston rod of the 3rd hydraulic cylinder (29), and position block (30) is positioned at rotating disk (31) top.

5. numerical control timber according to claim 4 is carved comprehensive machine, it is characterized in that: the both sides of casing (15) are installed first hydraulic cylinder (8) and second hydraulic cylinder (9) respectively, the left and right sides of casing (15) is provided with guide rail respectively, sliding sleeve all is installed on the guide rail, second main shaft (6) and the 3rd main shaft (7) are installed respectively on two sliding sleeves, second main shaft (6) is connected with the piston rod of first hydraulic cylinder (8), and the 3rd main shaft (7) is connected with the piston rod of second hydraulic cylinder (9).

6. numerical control timber according to claim 5 is carved comprehensive machine, it is characterized in that: described second drive unit (3) is by the 3rd motor (38), the 5th drive (39), the 3rd driving-belt (40), connect and compose with the 6th drive (41), walker (4) is gone up the 3rd motor (38) is installed, the 5th drive (39) is installed on the output shaft of the 3rd motor (38), the 5th drive (39) is connected with the 6th drive (41) by the 3rd driving-belt (40), the axle of the 6th drive (41) is gone up the 3rd gear (42) is installed, the 3rd tooth bar (43) is set, the 3rd tooth bar (43) and the 3rd gear (42) engagement on the underframe (1).

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