CN210758500U - Stone water jet cutting equipment - Google Patents

Abstract

The utility model relates to a stone material water sword cutting equipment, it includes: the stone storage rack comprises a base assembly for placing stones, wherein a beam assembly is connected to the base assembly and can move back and forth relative to the base assembly; the beam assembly is connected with a cutting assembly for cutting stone, and the cutting assembly can ascend and descend vertically relative to the base assembly. The utility model has the advantages of simple and reasonable structure, adopt the water sword cutting to reduce the dust dissipation in the ordinary cutting machine working process, influence operational environment's problem, be favorable to keeping operational environment's clean and tidy, adopt the sucking disc to move, make it move without shutting down in the course of working, improve production efficiency, adopt the upset to move and unload, avoid the problem of the stone material damage that artifical upset caused, improved work efficiency simultaneously.

Description

Stone water jet cutting equipment

Technical Field

The utility model relates to a stone material mechanical equipment field especially relates to a stone material water sword cutting equipment.

Background

Stone materials such as marble and granite are widely used as exterior, interior or floor materials in buildings, and the demand of various special-shaped boards is increasing along with the improvement of decoration requirements of people.

At present to the cutting of slabstone, often adopt the cutting machine cutting, the cutting process dust dissipates, pollutes operational environment, and the slabstone thickness is great moreover, need overturn the slabstone after the cutting, all adopts artifical upset among the prior art, and work efficiency is low, and manual operation leads to pounding the people easily moreover or causes the bruise to the stone material, causes the waste of stone material.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to solve the above problems in the prior art, the utility model provides a stone material water sword cutting equipment, its work efficiency is high, convenient operation, and the practicality is strong.

(II) technical scheme

In order to achieve the above object, the utility model discloses a main technical scheme include:

a stone water jet cutting apparatus, comprising: the stone storage rack comprises a base assembly for placing stones, wherein a beam assembly is connected to the base assembly and can move back and forth relative to the base assembly; the beam assembly is connected with a cutting assembly for cutting stone, and the cutting assembly can be lifted up and down relative to the base assembly;

the base assembly comprises a water jet cutter workbench assembly for placing stones, two sides of the water jet cutter workbench assembly are respectively connected with a water jet cutter longitudinal beam support, a longitudinal moving mechanism matched with the cross beam assembly is arranged on the water jet cutter longitudinal beam support, the cross beam assembly moves back and forth on the water jet cutter longitudinal beam support through the longitudinal moving mechanism, and the longitudinal moving mechanism comprises a longitudinal sliding rail and a longitudinal rack which are arranged on the water jet cutter longitudinal beam support;

the water knife working table assembly comprises a water knife working table underframe, a water tank is formed on the water knife working table underframe, a water knife working table plate is connected to the water knife working table underframe through a plate turnover mechanism and is positioned right above the water tank, and the water knife working table plate can turn over relative to the water knife working table underframe through the plate turnover mechanism; the water knife working table plate is provided with a flow dividing mechanism for dividing water in the water knife machining process, and the flow dividing mechanism is positioned right above the water tank; the flow dividing mechanism is arranged in a connecting groove of the water jet cutting working table plate.

Furthermore, the beam assembly comprises a beam connected to the water jet longitudinal beam support, and a longitudinal sliding block matched with the longitudinal sliding rail is connected to the beam; the longitudinal sliding block can slide relative to the longitudinal sliding rail; the water jet cutter is characterized in that a cross beam axle shaft is connected to the cross beam through a bearing with a seat, front and back traveling gears meshed with longitudinal racks arranged on water jet cutter longitudinal beam supports on two sides are arranged on two sides of the cross beam axle shaft respectively, a first driving motor used for driving the cross beam axle shaft to rotate is connected to the cross beam, and the output end of the first driving motor is connected with the cross beam axle shaft through a first speed reducer.

Furthermore, the cutting assembly comprises a cutting connecting plate connected with the cross beam, a transverse sliding block is connected onto the cutting connecting plate, the transverse sliding block is connected with a transverse sliding rail on the cross beam, and the cutting connecting plate can transversely move on the transverse sliding rail through the transverse sliding block; the cutting connecting plate is connected with a second driving motor, the output end of the second driving motor is connected with the input end of a second speed reducer arranged on the cutting connecting plate, the output end of the second speed reducer is connected with a transverse walking gear, and the transverse walking gear is meshed with a transverse rack arranged on the cross beam;

the cutting connecting plate is connected with a lifting seat, the lifting seat is connected with a lifting guide rail, the lifting guide rail is connected with a lifting slide block arranged on the cutting connecting plate, and the lifting guide rail can lift on the lifting slide block; the lifting seat is connected with a lifting cylinder, and a piston rod of the lifting cylinder is connected with a lifting connecting seat on the cutting connecting plate; the lifting seat is connected with a machine head assembly and a water jet cutting head for cutting stone, and the water jet cutting head is communicated with the high-pressure water pump through a high-pressure hose.

Further, the water jet cutting head is connected to a water jet fixing plate, a vertical sliding block is connected to the water jet fixing plate, the vertical sliding block is connected with a vertical guide rail on a lifting seat, the water jet fixing plate can move up and down relative to the lifting seat by taking the vertical guide rail as a guide, a water jet lifting cylinder is connected to the lifting seat, and a piston rod of the water jet lifting cylinder is connected with the water jet fixing plate.

Furthermore, the machine head assembly is connected with a machine head driving motor on the lifting seat, and a saw blade is connected to the machine head assembly; the machine head driving motor is connected to a motor connecting seat on the lifting seat, the machine head assembly is connected to the lifting seat, a driven gear is connected to the machine head assembly, a driving gear is connected to a motor shaft of the machine head driving motor, and the driving gear is connected with the driven gear through a belt.

Further, the machine head assembly comprises a machine head fixing seat, an input shaft is connected to the machine head fixing seat, the input shaft is connected with the lifting seat through a bearing, and a driven gear is connected to the input shaft; the aircraft nose driving motor work drives the aircraft nose fixing base and carries out 360 degrees rotations for the seat that goes up and down, be connected with the aircraft nose roating seat through the rotation axis on the aircraft nose fixing base, the one end of rotation axis is connected with the rotating electrical machines on locating the aircraft nose fixing base be connected with the cutting motor on the aircraft nose roating seat, be connected with the saw bit on the motor shaft of cutting motor.

Further, the plate turning mechanism comprises a plate turning support and a plate turning oil cylinder, the plate turning support is connected to the bottom frame of the water jet cutting machine, a plate turning front frame is connected to the plate turning support through a turning shaft, one end of the plate turning front frame is connected with the turning shaft, the other end of the plate turning front frame is connected with the water jet cutting machine table plate, and a piston rod of the plate turning oil cylinder is connected with the plate turning front frame.

Furthermore, the shunting mechanism comprises connecting plates arranged at two sides in the connecting groove, a plurality of supporting plates are connected between the connecting plates at the two sides at intervals, a plurality of clamping grooves are arranged on the supporting plates at intervals, and longitudinal supporting plates are clamped in the clamping grooves; the longitudinal support plate is connected with rubber buffer parts, and an interval for shunting water in the water jet cutting machining process is formed between every two adjacent rubber buffer parts.

Furthermore, a fixing assembly is connected to the machine head assembly and comprises a fixing cylinder connected to a machine head fixing seat, a piston rod of the fixing cylinder is connected with a sucker, and the sucker is located above the water jet cutting work table plate.

(III) advantageous effects

The utility model has the advantages that: simple structure is reasonable, adopts the water sword cutting to reduce the dust dissipation in the ordinary cutting machine working process, influences operational environment's problem, is favorable to keeping operational environment's clean and tidy, adopts the sucking disc to move, makes it move without shutting down in the course of working, improves production efficiency, adopts the upset to move and unloads, avoids the problem of the stone material damage that artifical upset caused, has improved work efficiency simultaneously.

Drawings

FIG. 1 is a front view of the overall structure of an embodiment of the present invention;

fig. 2 is a rear view of the overall structure of an embodiment of the present invention;

FIG. 3 is a schematic view of a portion of FIG. 2 at A;

fig. 4 is a perspective view of the overall structure of the base assembly according to an embodiment of the present invention;

fig. 5 is an exploded view of the base assembly according to an embodiment of the present invention;

fig. 6 is an exploded view of the overall structure of the water jet cutting table assembly according to an embodiment of the present invention;

fig. 7 is an exploded view of the cutting assembly according to an embodiment of the present invention;

fig. 8 is a front view of the overall structure of the head assembly according to an embodiment of the present invention;

fig. 9 is a rear view of the overall structure of the handpiece assembly according to an embodiment of the present invention.

[ description of reference ]

1: a water jet longitudinal beam support;

2: a longitudinal slide rail;

3: a longitudinal rack;

4: a water jet cutting table underframe;

5: a water jet cutting table;

6: a turning plate bracket;

7: a plate turnover oil cylinder;

8: a turning shaft;

9: a front frame of the turning plate;

10: turning over a rear frame;

11: a cross beam;

12: a longitudinal slide block;

13: a beam axle shaft;

14: a front and rear traveling gear;

15: a first drive motor;

16: a first speed reducer;

17: cutting the connecting plate;

18: a transverse slide block;

19: a transverse slide rail;

20: a second drive motor;

21: a second speed reducer;

22: a transverse traveling gear;

23: a transverse rack;

24: a lifting seat;

25: a lifting guide rail;

26: a water jet cutting head;

27: a lifting cylinder;

28: a lifting connecting seat;

29: a water jet cutter fixing plate;

30: a vertical slide block;

31: a vertical guide rail;

32: a water jet cutting lifting cylinder;

33: a handpiece driving motor;

34: a motor connecting seat;

35: a driven gear;

36: a driving gear;

37: a saw blade;

38: a machine head fixing seat;

39: an input shaft;

40: a rotating shaft;

41: a water tank;

42: a machine head rotating seat;

43: a rotating electric machine;

44: cutting the motor;

51: connecting grooves;

52: a connecting plate;

53: a support plate;

54: a card slot;

55: a longitudinal support plate;

56: a rubber buffer;

57: a blocking shaft;

66: a lifting slide block;

67: fixing the air cylinder;

68: and (4) sucking discs.

Detailed Description

For a better understanding of the present invention, reference will now be made in detail to the present invention, examples of which are illustrated in the accompanying drawings.

The utility model discloses a stone material water sword cutting equipment of an embodiment, as shown in fig. 1, fig. 2, it includes: the stone storage rack comprises a base assembly for placing stones, wherein a beam assembly is connected to the base assembly and can move back and forth relative to the base assembly; the beam assembly is connected with a cutting assembly for cutting stone, and the cutting assembly can ascend and descend relative to the base assembly so as to cut the stone on the base assembly.

The base component comprises a water jet cutting workbench component used for placing stone materials, two sides of the water jet cutting workbench component are respectively connected with a water jet cutting longitudinal beam support 1, a longitudinal moving mechanism matched with the cross beam component is arranged on the water jet cutting longitudinal beam support 1, the cross beam component moves back and forth on the water jet cutting longitudinal beam support through the longitudinal moving mechanism, and the longitudinal moving mechanism comprises a longitudinal sliding rail 2 and a longitudinal rack 3 which are arranged on the water jet cutting longitudinal beam support 1.

Specifically, as shown in fig. 4 and 5, the water jet cutting table assembly includes a water jet cutting table underframe 4, a water tank 41 is formed on the water jet cutting table underframe 4, a water jet cutting table plate 5 is connected to the water jet cutting table underframe 4 through a plate turnover mechanism, the water jet cutting table plate 5 is located right above the water tank 41, and the water jet cutting table plate 5 can be turned over relative to the water jet cutting table underframe 4 through the plate turnover mechanism; the water jet cutting working table plate 5 is provided with a flow dividing mechanism for dividing water in the water jet cutting machining process, and the flow dividing mechanism is positioned right above the water tank 41; the flow dividing mechanism is arranged in a connecting groove 51 of the water jet cutting table plate 5.

Specifically, as shown in fig. 4 and 5, the turning plate mechanism comprises a turning plate support 6 and a turning plate oil cylinder 7 which are connected to the water jet scalpel work table chassis 4, the turning plate support 6 is connected with a turning plate front frame 9 through a turning shaft 8, one end of the turning plate front frame 9 is connected with the turning shaft 8, the other end of the turning plate front frame 9 is connected with the water jet scalpel work table plate 5, a piston rod of the turning plate oil cylinder 7 is connected with the turning plate front frame 9, and when the piston rod of the turning plate oil cylinder 7 is contracted, the water jet scalpel work table plate 5 and the water jet scalpel work table chassis 4 are in a normal state and are used for placing stones; when a piston rod of the turning plate oil cylinder 7 extends, the turning plate front frame 9 is driven to turn up by taking the turning shaft 8 as a pivot, and then the water jet cutting table plate 5 connected with the turning plate front frame 9 is turned over relative to the water jet cutting table bottom frame 4, so that the processed stone on the water jet cutting table plate 5 is detached.

Furthermore, in order to ensure the strength of the front turning plate frame 9, a rear turning plate frame 10 is connected to the turning shaft 8, one end of the rear turning plate frame 10 is connected to the turning shaft 8, and the other end of the rear turning plate frame 10 is connected to the water jet cutting table plate 5.

Specifically, as shown in fig. 6, the flow dividing mechanism includes connecting plates 52 disposed at two sides in a connecting groove 51, a plurality of supporting plates 53 are connected between the connecting plates 52 at two sides at intervals, a plurality of slots 54 are disposed on the supporting plates 53 at intervals, and a longitudinal support plate 55 is clamped in the slots 54; in order to enable the stone on the water jet scalpel working table plate 5 to have a buffering effect when being placed, a rubber buffering piece 56 is connected to the longitudinal support plate 55, and the rubber buffering piece 56 is made of a buffering elastic material such as a rubber strip or sponge; a space for dividing water in the water jet machining process is formed between the adjacent two rubber buffers 56.

Further, in order to limit the stone on the water jet cutting table plate 5, a blocking shaft 57 is arranged on the side edge of the water jet cutting table plate 5, the blocking shaft 57 is of a detachable structure and can be detached or installed as required, and the blocking shaft can be connected with the sleeve through a shaft.

As shown in fig. 1 and 2, the cross beam assembly comprises a cross beam 11 connected to the water jet longitudinal beam support 1, and a longitudinal sliding block 12 matched with the longitudinal sliding rail 2 is connected to the cross beam 11; the longitudinal slide block 12 is slidable relative to the longitudinal slide rail 2; the cross beam 11 is connected with a cross beam axle shaft 13 through a bearing with a seat, two sides of the cross beam axle shaft 13 are respectively provided with a front walking gear and a rear walking gear 14 which are meshed with longitudinal racks 3 arranged on the water jet longitudinal beam supports 1 at two sides, the cross beam 11 is connected with a first driving motor 15 used for driving the cross beam axle shaft 13 to rotate, and in order to enable the motor rotating speed of the first driving motor 15 to better drive the cross beam axle shaft 13 to rotate, the output end of the first driving motor 15 is connected with the cross beam axle shaft 13 through a first speed reducer 16; the first driving motor 15 drives the beam axle 13 to rotate forwards or backwards, the beam axle 13 drives the front and rear walking gears 14 to rotate, and the front and rear walking gears 14 move forwards or backwards on the longitudinal rack 3, so that the beam assembly moves forwards or backwards on the water jet longitudinal beam support 1.

As shown in fig. 2 and 3, the cutting assembly includes a cutting connecting plate 17 connected to the beam 11, a transverse slider 18 is connected to the cutting connecting plate 17, the transverse slider 18 is connected to a transverse slide rail 19 on the beam 11, and the cutting connecting plate 17 can move transversely on the transverse slide rail 19 through the transverse slider 18; the cutting connecting plate 17 is connected with a second driving motor 20, an output end of the second driving motor 20 is connected with an input end of a second speed reducer 21 arranged on the cutting connecting plate 17, an output end of the second speed reducer 21 is connected with a transverse walking gear 22, the transverse walking gear 22 is meshed with a transverse rack 23 arranged on the cross beam 11, the second driving motor 20 drives the transverse walking gear 22 to work, and the transverse walking gear 22 is matched with the transverse rack 23, so that the cutting connecting plate 17 transversely moves on the cross beam 11.

As shown in fig. 2 and 7, the cutting connecting plate 17 is connected to a lifting seat 24, the lifting seat 24 is connected to a lifting guide rail 25, the lifting guide rail 25 is connected to a lifting slider 66 disposed on the cutting connecting plate 17, and the lifting guide rail 25 can be lifted on the lifting slider 66; the lifting seat 24 is connected with a lifting cylinder 27, a piston rod of the lifting cylinder 27 is connected with a lifting connecting seat 28 on the cutting connecting plate 17, and the piston rod of the lifting cylinder 27 extends or contracts to drive the lifting seat 24 to descend or ascend relative to the cutting connecting plate 17 by taking the lifting guide rail 25 as a guide; the lifting seat 24 is connected with a machine head assembly for stone cutting and a water jet cutting head 26, the water jet cutting head 26 is a commercially available part, the brand is WTB, the material number is 009966-1, the water jet cutting head 26 is communicated with a high-pressure water pump through a high-pressure hose, water generated in the processing of the water jet cutting head 26 flows into a water tank 41, and meanwhile, water in the water tank 41 plays a part of a buffering role on the stone on the water jet working table plate 5; the water jet cutting head 26 is connected to a water jet fixing plate 29, a vertical sliding block 30 is connected to the water jet fixing plate 29, the vertical sliding block 30 is connected to a vertical guide rail 31 arranged on the lifting seat 24, the water jet fixing plate 29 can move up and down relative to the lifting seat 24 by taking the vertical guide rail 31 as a guide, a water jet lifting cylinder 32 is connected to the lifting seat 24, a piston rod of the water jet lifting cylinder 32 is connected to the water jet fixing plate 29, and the water jet fixing plate 29 is driven to descend or ascend relative to the lifting seat 24 by extension or contraction of the piston rod of the water jet lifting cylinder 32, so that the water jet cutting head 26 descends or ascends to cut stone on the water jet working table plate 5.

As shown in fig. 8 and 9, the head assembly is connected with the head driving motor 33 on the lifting seat 24, and a saw blade 37 is connected to the head assembly; the machine head driving motor 33 is connected to a motor connecting seat 34 on the lifting seat 24, the machine head assembly is connected to the lifting seat 24, a driven gear 35 is connected to the machine head assembly, a driving gear 36 is connected to a motor shaft of the machine head driving motor 33, the driving gear 36 is connected with the driven gear 35 through a belt, the machine head driving motor 33 works to drive the machine head assembly to rotate 360 degrees relative to the lifting seat 24, and therefore the machine head assembly can cut stone on the water jet cutting table plate 5.

As shown in fig. 8 and 9, the handpiece assembly includes a handpiece fixing base 38, an input shaft 39 is connected to the handpiece fixing base 38, the input shaft 39 is connected to the lifting base 24 through a bearing, and a driven gear 35 is connected to the input shaft 39; aircraft nose driving motor 33 work drives aircraft nose fixing base 38 and carries out 360 degrees rotations for lift seat 24, be connected with aircraft nose roating seat 42 through rotation axis 40 on the aircraft nose fixing base 38, the one end of rotation axis 40 is connected with the rotating electrical machines 43 of locating on aircraft nose fixing base 38, and rotating electrical machines 43 work drives rotation axis 40 and rotates, and then drives aircraft nose roating seat 42 rotatory for aircraft nose fixing base 38, be connected with cutting motor 44 on the aircraft nose roating seat 42, be connected with saw bit 37 on cutting motor 44's the motor shaft.

Further, the machine head assembly is connected with a fixing assembly, the fixing assembly comprises a fixing cylinder 67 connected to the machine head fixing seat 38, a piston rod of the fixing cylinder 67 is connected with a sucking disc 68, the sucking disc 68 is located above the water jet cutting table plate 5 and used for moving the stone on the water jet cutting table plate 5 after cutting, and a next cutting process is conveniently achieved.

The cylinder in this embodiment can be replaced by an oil cylinder or a motor screw rod structure to achieve the same technical effect.

In conclusion, the water jet cutting machine has the advantages that the problem that dust dissipation in the working process of a common cutting machine affects the working environment is reduced by adopting water jet cutting, the working environment is kept clean, the sucker is used for moving, the machine is moved without stopping in the machining process, the production efficiency is improved, the stone is prevented from being damaged by manual turning by adopting turning and moving, and meanwhile, the working efficiency is improved.

Claims (9)

1. A stone water jet cutting device is characterized by comprising: the stone storage rack comprises a base assembly for placing stones, wherein a beam assembly is connected to the base assembly and can move back and forth relative to the base assembly; the beam assembly is connected with a cutting assembly for cutting stone, and the cutting assembly can be lifted up and down relative to the base assembly;

the base component comprises a water jet cutter workbench component for placing stone materials, two sides of the water jet cutter workbench component are respectively connected with a water jet cutter longitudinal beam support (1), a longitudinal moving mechanism matched with the cross beam component is arranged on the water jet cutter longitudinal beam support (1), the cross beam component moves back and forth on the water jet cutter longitudinal beam support through the longitudinal moving mechanism, and the longitudinal moving mechanism comprises a longitudinal slide rail (2) and a longitudinal rack (3) which are arranged on the water jet cutter longitudinal beam support (1);

the water jet cutting workbench assembly comprises a water jet cutting workbench underframe (4), a water tank (41) is formed on the water jet cutting workbench underframe (4), a water jet cutting workbench plate (5) is connected to the water jet cutting workbench underframe (4) through a plate turnover mechanism, the water jet cutting workbench plate (5) is located right above the water tank (41), and the water jet cutting workbench plate (5) can turn over relative to the water jet cutting workbench underframe (4) through the plate turnover mechanism; a flow dividing mechanism for dividing water in the water jet cutting machining process is arranged on the water jet cutting working table plate (5), and the flow dividing mechanism is positioned right above the water tank (41); the flow dividing mechanism is arranged in a connecting groove (51) of the water jet working table plate (5).

2. The stone water jet cutting device as claimed in claim 1, wherein: the cross beam assembly comprises a cross beam (11) connected to the water jet longitudinal beam support (1), and a longitudinal sliding block (12) matched with the longitudinal sliding rail (2) is connected to the cross beam (11); the longitudinal sliding block (12) can slide relative to the longitudinal sliding rail (2); the water jet cutting machine is characterized in that a cross beam axle shaft (13) is connected to the cross beam (11) through a bearing with a seat, front and rear traveling gears (14) meshed with longitudinal racks (3) arranged on water jet longitudinal beam supports (1) on two sides are arranged on two sides of the cross beam axle shaft (13) respectively, a first driving motor (15) used for driving the cross beam axle shaft (13) to rotate is connected to the cross beam (11), and the output end of the first driving motor (15) is connected with the cross beam axle shaft (13).

3. The stone water jet cutting device as claimed in claim 1, wherein: the cutting assembly comprises a cutting connecting plate (17) connected with the cross beam (11), a transverse sliding block (18) is connected onto the cutting connecting plate (17), the transverse sliding block (18) is connected with a transverse sliding rail (19) on the cross beam (11), and the cutting connecting plate (17) can transversely move on the transverse sliding rail (19) through the transverse sliding block (18); a second driving motor (20) is connected to the cutting connecting plate (17), the output end of the second driving motor (20) is connected with a transverse walking gear (22), and the transverse walking gear (22) is meshed with a transverse rack (23) arranged on the cross beam (11);

the cutting connecting plate (17) is connected with a lifting seat (24), the lifting seat (24) is connected with a lifting guide rail (25), the lifting guide rail (25) is connected with a lifting slide block (66) arranged on the cutting connecting plate (17), and the lifting guide rail (25) can be lifted on the lifting slide block (66); the lifting seat (24) is connected with a lifting cylinder (27), and a piston rod of the lifting cylinder (27) is connected with a lifting connecting seat (28) on the cutting connecting plate (17); the lifting seat (24) is connected with a machine head assembly for cutting stone and a water jet cutting head (26), and the water jet cutting head (26) is communicated with a high-pressure water pump through a high-pressure hose.

4. A stone water jet cutting apparatus as claimed in claim 3, wherein: the water jet cutting head (26) is connected to a water jet fixing plate (29), a vertical sliding block (30) is connected to the water jet fixing plate (29), the vertical sliding block (30) is connected with a vertical guide rail (31) arranged on a lifting seat (24), the water jet fixing plate (29) can move up and down relative to the lifting seat (24) by taking the vertical guide rail (31) as a guide, a water jet lifting cylinder (32) is connected to the lifting seat (24), and a piston rod of the water jet lifting cylinder (32) is connected with the water jet fixing plate (29).

5. The stone water jet cutting device as claimed in claim 4, wherein: the machine head assembly is connected with a machine head driving motor (33) on the lifting seat (24), and a saw blade (37) is connected to the machine head assembly; the aircraft nose driving motor (33) is connected on motor connecting seat (34) on lift seat (24), the aircraft nose subassembly is connected on lift seat (24), be connected with driven gear (35) on the aircraft nose subassembly, be connected with driving gear (36) on the motor shaft of aircraft nose driving motor (33), be connected through the belt between driving gear (36) and driven gear (35).

6. The stone water jet cutting device as claimed in claim 5, wherein: the machine head assembly comprises a machine head fixing seat (38), an input shaft (39) is connected to the machine head fixing seat (38), the input shaft (39) is connected with the lifting seat (24) through a bearing, and a driven gear (35) is connected to the input shaft (39); aircraft nose driving motor (33) work drives aircraft nose fixing base (38) and carries out 360 degrees rotations for lift seat (24), be connected with aircraft nose roating seat (42) through rotation axis (40) on aircraft nose fixing base (38), the one end of rotation axis (40) is connected with rotating electrical machines (43) of locating on aircraft nose fixing base (38) be connected with cutting motor (44) on aircraft nose roating seat (42), be connected with saw bit (37) on the motor shaft of cutting motor (44).

7. The stone water jet cutting device as claimed in claim 1, wherein: the turnover plate mechanism comprises a turnover plate support (6) and a turnover plate oil cylinder (7) which are connected to a water jet cutting table chassis (4), wherein the turnover plate support (6) is connected with a turnover plate front frame (9) through a turnover shaft (8), one end of the turnover plate front frame (9) is connected with the turnover shaft (8), the other end of the turnover plate front frame (9) is connected with a water jet cutting table plate (5), and a piston rod of the turnover plate oil cylinder (7) is connected with the turnover plate front frame (9).

8. The stone water jet cutting device as claimed in claim 1, wherein: the flow dividing mechanism comprises connecting plates (52) arranged on two sides in a connecting groove (51), a plurality of supporting plates (53) are connected between the connecting plates (52) on the two sides at intervals, a plurality of clamping grooves (54) are formed in the supporting plates (53) at intervals, and longitudinal support plates (55) are clamped in the clamping grooves (54); the longitudinal support plate (55) is connected with rubber buffer parts (56), and an interval for shunting water in the water jet cutting machining process is formed between every two adjacent rubber buffer parts (56).

9. The stone water jet cutting device as claimed in claim 6, wherein: the water jet cutting machine is characterized in that a fixing assembly is connected onto the machine head assembly, the fixing assembly comprises a fixing cylinder (67) connected onto a machine head fixing seat (38), a sucking disc (68) is connected onto a piston rod of the fixing cylinder (67), and the sucking disc (68) is located above the water jet cutting table plate (5).

Images