CN217254564U - Cutting fluid spraying structure for CNC (computer numerical control) machining center - Google Patents

Abstract

The utility model discloses a CNC machining center is with cutting fluid spraying structure relates to cutting fluid spraying technical field, the on-line screen storage device comprises a base, the equal fixedly connected with support frame in the left and right sides on base side surface, first recess has all been seted up on the relative side surface of two support frames, the inner wall of two first recesses is provided with the slide bar jointly, the second recess has been seted up on the lower side surface of slide bar, the inside of second recess is provided with the movable block, the lower side fixed surface of movable block is connected with places the shell, the inner wall fixedly connected with collecting chamber of placing the shell, the equal fixedly connected with catheter of collecting chamber downside all around, circular spout has been seted up on the right side of a plurality of guide tube inner walls, the inner wall of circular spout has the fender shell through first slider sliding connection. The utility model discloses the device conveniently adjusts according to the different positions of the cutting of miller when using, has avoided needing the manual inconvenience of adjusting of operating personnel, avoids because the operation of miller, causes the injury to operating personnel.

Description

Cutting fluid spraying structure for CNC machining center

Technical Field

The utility model relates to a cutting fluid spouts technical field, in particular to CNC machining center is with cutting fluid spouts structure.

Background

The cutting fluid is an industrial fluid used for cooling and lubricating a cutter and a workpiece in the metal cutting and grinding process, is formed by scientifically compounding and matching various super-strong functional additives, has the characteristics of good cooling performance, lubrication performance, antirust performance, oil removal and cleaning function, anticorrosion function and easy dilution, overcomes the defects that the traditional soap-based emulsion is easily smelly in summer, difficult to dilute in winter and poor in antirust effect, has no adverse effect on lathe paint, is suitable for cutting and grinding of ferrous metals, belongs to the current leading grinding product, has various indexes superior to those of saponified oil, has the characteristics of good cooling, cleaning, antirust and the like, and has the characteristics of no toxicity, no smell, no corrosion to a human body, no corrosion to equipment, no pollution to the environment and the like.

Current CNC machining center is when using cutting fluid, mostly all needs the manual regulation shower nozzle, carries out the cutting fluid spraying to the machined part being processed, needs adjust according to the angle of processing at any time, and not only troublesome, waste time and energy simultaneously inconvenient the adjusting in machined part processing, produce danger easily.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a CNC machining center is with cutting fluid spraying structure to solve the current CNC machining center that proposes in the above-mentioned background art and when using the cutting fluid, mostly all need the manual regulation shower nozzle, carry out the cutting fluid spraying to the machined part of just being processed, need adjust according to the angle of processing at any time, not only troublesome, waste time and energy moreover, inconvenient the adjusting in the machined part processing simultaneously, produce dangerous problem easily.

In order to achieve the above object, the utility model provides a following technical scheme: a cutting fluid spraying structure for a CNC (computer numerical control) machining center comprises a base, wherein the left side and the right side of the upper side surface of the base are fixedly connected with supporting frames, the opposite side surfaces of the two supporting frames are respectively provided with a first groove, the inner walls of the two first grooves are jointly provided with a sliding rod, the lower side surface of the sliding rod is provided with a second groove, a moving block is arranged inside the second groove, the lower side surface of the moving block is fixedly connected with a placing shell, the inner wall of the placing shell is fixedly connected with a liquid collecting chamber, the lower sides of the periphery of the liquid collecting chamber are respectively fixedly connected with a liquid guide pipe, the right sides of the inner walls of the liquid guide pipes are provided with a circular sliding groove, the inner wall of the circular sliding groove is slidably connected with a blocking shell through a first sliding block, the front side surface, the rear side surface, the upper side surface and the lower side surface of the blocking shell are respectively provided with a fluid inlet, and the opposite side surface of the fluid inlet is respectively fixedly connected with a spring, it is a plurality of equal fixedly connected with baffle in left side of drain pipe inner wall, it is a plurality of the relative side surface of baffle all with the opposite one end fixed connection of spring, it is a plurality of the relative side surface of baffle has all been seted up and has been walked out, the upside fixedly connected with inlet tube of collection liquid room left surface, the left end of inlet tube runs through the left side of placing shell inner wall to its left surface.

Preferably, the lower side surfaces of the plurality of liquid guide pipes are fixedly connected with hoses, the lower ends of the plurality of hoses penetrate through the lower side of the inner wall of the placing shell to the lower side surface of the placing shell, the rod walls of the plurality of hoses are fixedly connected with valves, and the lower ends of the plurality of hoses are fixedly connected with spray heads.

Preferably, a cutting machine is fixedly connected to the lower side surface of the placing shell, and a cutting head is fixedly connected to the lower side surface of the cutting machine.

Preferably, the left side of the inner wall of the second groove is rotatably connected with a threaded rod, a first cavity is formed in the right side of the upper side surface of the sliding rod, the right end of the threaded rod penetrates through the left side surface of the moving block and the right side of the inner wall of the second groove to the inside of the first cavity, a first motor is fixedly connected to the inner wall of the first cavity, the output end of the first motor is fixedly connected with the right end of the threaded rod, a first sliding groove is formed in the upper side of the inner wall of the second groove, and the inner wall of the first sliding groove is slidably connected with the upper side surface of the moving block through a second sliding block.

Preferably, two third recesses, two have all been seted up to the downside of first recess inner wall the inner wall fixedly connected with pneumatic cylinder of third recess, two the equal sliding connection of inner wall of pneumatic cylinder has the hydraulic stem, two the upper end of hydraulic stem all is connected with the downside fixed surface of slide bar, two the second spout has all been seted up to relative one side of first recess inner wall, two the inner wall of second spout all through the third slider respectively with the left and right sides sliding surface connection of slide bar.

Preferably, the upper side surface of the base is provided with a fourth groove, and the inner wall of the fourth groove is provided with a clamping mechanism.

Preferably, a second cavity is formed in the lower side surface of the base, a second motor is fixedly connected to the inner wall of the second cavity, the output end of the second motor penetrates through the upper side of the inner wall of the second cavity to the lower side of the inner wall of the fourth groove, and the output end of the second motor is fixedly connected with the lower side of the clamping mechanism.

The utility model discloses a technological effect and advantage:

1. through setting up base, support frame, first recess, slide bar, second recess, movable block, placing shell, collecting chamber, catheter, circular spout, keeping off the shell, income liquid hole, spring, baffle, portal, inlet line, the device conveniently adjusts according to the different positions of the cutting of miller when using, has avoided needing the manual inconvenience of adjusting of operating personnel, avoids because the operation of miller, causes the injury to operating personnel.

2. The machining device comprises a placing shell, a liquid guide pipe, a hose, a valve, a spray head, a cutting machine and a cutting head, wherein a machined part to be machined is cut, cutting liquid is sprayed out to machine the machined part, and the machining device can be used for machining different heights and different positions by arranging a sliding rod, a second groove, a moving block, a threaded rod, a first cavity, a first motor, a first sliding groove, a third groove, a hydraulic cylinder, a hydraulic rod and a second sliding groove and adjusting the machining positions according to the positions of the machined part, so that the operation is convenient.

3. Through setting up base, fourth recess, clamping mechanism, second cavity, second motor, press from both sides tightly the machined part, conveniently adjust the position to the machined part simultaneously, avoid can only carrying out the inconvenience of processing to one side of machined part.

Drawings

Fig. 1 is a schematic view of the overall three-dimensional structure of the present invention.

Fig. 2 is a schematic view of the planing surface structure on the front side of the base of the present invention.

Fig. 3 is a schematic view of the a-part enlarged structure of the present invention.

Fig. 4 is a schematic diagram of the enlarged structure of part B of the present invention.

Fig. 5 is a left side view structural diagram of the baffle of the present invention.

In the figure: 1. a base; 2. a support frame; 3. a first groove; 4. a slide bar; 5. a second groove; 6. a moving block; 7. placing the shell; 8. a liquid collection chamber; 9. a catheter; 10. a circular chute; 11. a blocking shell; 12. a liquid inlet hole; 13. a spring; 14. a baffle plate; 15. an outlet hole; 16. a hose; 17. a valve; 18. a spray head; 19. a cutting machine; 20. a cutting head; 21. a threaded rod; 22. a first cavity; 23. a first motor; 24. a first chute; 25. a third groove; 26. a liquid inlet pipe; 27. a hydraulic cylinder; 28. a hydraulic rod; 29. a second chute; 30. a fourth groove; 31. a clamping mechanism; 32. a second cavity; 33. a second motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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. 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.

The utility model provides a cutting fluid spraying structure for CNC machining center as shown in figures 1-5, which comprises a base 1, wherein the left and right sides of the upper surface of the base 1 are fixedly connected with support frames 2, the opposite side surfaces of the two support frames 2 are respectively provided with a first groove 3, the inner walls of the two first grooves 3 are jointly provided with a slide bar 4, the lower surface of the slide bar 4 is provided with a second groove 5, the inside of the second groove 5 is provided with a moving block 6, the lower surface of the moving block 6 is fixedly connected with a placing shell 7, the inner wall of the placing shell 7 is fixedly connected with a liquid collecting chamber 8, the lower side of the periphery of the liquid collecting chamber 8 is fixedly connected with a liquid guide pipe 9, the right side of the inner walls of the liquid guide pipes 9 is provided with a circular chute 10, the inner wall of the circular chute 10 is slidably connected with a blocking shell 11 through a first slide block, the front and back surfaces and the upper and lower surfaces of the four sides of the blocking shells 11 are respectively provided with a liquid inlet 12, the equal fixedly connected with spring 13 in the opposite side surface of a plurality of income liquid holes 12, the equal fixedly connected with baffle 14 in the left side of a plurality of catheter 9 inner walls, the equal and opposite one end fixed connection of spring 13 in the opposite side surface of a plurality of baffles 14, 15 have all been seted up in the opposite side surface of a plurality of baffles 14, the upside fixedly connected with income liquid pipe 26 of the 8 left surface of collecting chamber, the left end of income liquid pipe 26 runs through the left side of placing shell 7 inner wall to its left surface, the device conveniently adjusts according to the different positions of the cutting of miller 19 when using, the inconvenience that needs the manual adjustment of operating personnel has been avoided, avoid because the operation of miller 19, cause the injury to operating personnel.

As shown in fig. 2 and 4, hoses 16 are fixedly connected to the lower side surfaces of the plurality of liquid guide tubes 9, the lower ends of the plurality of hoses 16 penetrate through the lower side of the inner wall of the placing shell 7 to the lower side surface thereof, valves 17 are fixedly connected to the rod walls of the plurality of hoses 16, nozzles 18 are fixedly connected to the lower ends of the plurality of hoses 16, a cutting machine 19 is fixedly connected to the lower side surface of the placing shell 7, and a cutting head 20 is fixedly connected to the lower side surface of the cutting machine 19, so that a workpiece to be machined is cut, and cutting fluid is sprayed out to machine the workpiece.

As shown in fig. 2, a threaded rod 21 is rotatably connected to the left side of the inner wall of the second groove 5, a first cavity 22 is formed on the right side of the upper surface of the sliding rod 4, the right end of the threaded rod 21 penetrates through the left surface of the moving block 6 and the right side of the inner wall of the second groove 5 to the inside of the first cavity 22, a first motor 23 is fixedly connected to the inner wall of the first cavity 22, the output end of the first motor 23 is fixedly connected to the right end of the threaded rod 21, a first sliding groove 24 is formed on the upper side of the inner wall of the second groove 5, the inner wall of the first sliding groove 24 is slidably connected to the upper surface of the moving block 6 through a second slider, third grooves 25 are formed on the lower sides of the inner walls of the two first grooves 3, hydraulic cylinders 27 are fixedly connected to the inner walls of the two third grooves 25, hydraulic cylinders 28 are slidably connected to the inner walls of the two hydraulic cylinders 27, and the upper ends of the two hydraulic cylinders 28 are fixedly connected to the lower surface of the sliding rod 4, the opposite sides of the inner walls of the two first grooves 3 are provided with second sliding grooves 29, the inner walls of the two second sliding grooves 29 are connected with the surfaces of the left side and the right side of the sliding rod 4 in a sliding mode through third sliding blocks respectively, the positions of machining can be adjusted according to the positions of machined parts, the machining can be conducted on different heights and different positions, and the operation is convenient.

As shown in fig. 2, a fourth groove 30 has been seted up on the upper surface of the base 1, the inner wall of the fourth groove 30 is provided with a clamping mechanism 31, a second cavity 32 has been seted up on the lower surface of the base 1, the inner wall fixedly connected with second motor 33 of the second cavity 32, the output end of the second motor 33 runs through the upper side of the inner wall of the second cavity 32 to the lower side of the inner wall of the fourth groove 30, the output end of the second motor 33 is fixedly connected with the lower side of the clamping mechanism 31, the workpiece is clamped, meanwhile, the workpiece adjusting position is conveniently adjusted, and inconvenience that only one side of the workpiece can be processed is avoided.

The utility model discloses the theory of operation: when the device is used, a workpiece to be processed is placed on the clamping mechanism 31 in the fourth groove 30 on the base 1 to be clamped, the second motor 33 in the second cavity 32 is started, the second motor 33 drives the clamping mechanism 31 to rotate, meanwhile, the hydraulic cylinder 27 and the hydraulic rod 28 in the third groove 25 drive the sliding rod 4 to move in the second sliding groove 29 in the first groove 3 on the support frame 2, the sliding rod 4 moves downwards, meanwhile, the first motor 23 in the first cavity 22 is started, the first motor 23 drives the threaded rod 21 in the second groove 5 to rotate, meanwhile, the moving block 6 rotates in the first sliding groove 24 on the second groove 5, and the moving block 6 is driven to be adjusted to a position to be processed;

cutting fluid is injected into the fluid collection chamber 8 in the placing shell 7 through the fluid inlet pipe 26, the cutting machine 19 is started to enable the cutting head 20 to operate, meanwhile, the cutting fluid in the fluid collection chamber 8 extrudes the blocking shells 11 in the plurality of fluid guide pipes 9, meanwhile, the blocking shells 11 slide in the circular sliding grooves 10, the cutting fluid enters the interior of the fluid guide pipes 9 through the fluid inlet holes 12 in the blocking shells 11 and extrudes the springs 13, the cutting fluid enters the hoses 16 through the outlet holes 15 in the blocking plates 14, the output size of the cutting fluid is adjusted through the valves 17, and meanwhile, the cutting fluid enters and is output through the spray nozzles 18 to spray fluid.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions on some technical features, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (7)

1. The utility model provides a CNC machining center is with cutting fluid spraying structure, includes base (1), its characterized in that: the liquid storage device is characterized in that support frames (2) are fixedly connected to the left side and the right side of the upper side surface of the base (1), first grooves (3) are formed in the opposite side surfaces of the two support frames (2), sliding rods (4) are jointly arranged on the inner walls of the two first grooves (3), second grooves (5) are formed in the lower side surfaces of the sliding rods (4), moving blocks (6) are arranged inside the second grooves (5), a placement shell (7) is fixedly connected to the lower side surface of each moving block (6), a liquid collection chamber (8) is fixedly connected to the inner wall of each placement shell (7), liquid guide pipes (9) are fixedly connected to the lower sides of the periphery of each liquid collection chamber (8), circular sliding grooves (10) are formed in the right sides of the inner walls of the liquid guide pipes (9), and blocking shells (11) are slidably connected to the inner walls of the circular sliding grooves (10) through first sliding blocks, liquid inlet holes (12) are formed in the front, back, upper and lower four side surfaces of the retaining shells (11), springs (13) are fixedly connected to the opposite side surfaces of the liquid inlet holes (12), baffles (14) are fixedly connected to the left sides of the inner walls of the liquid guide pipes (9), the opposite side surfaces of the baffles (14) are fixedly connected with the opposite ends of the springs (13), holes (15) are formed in the opposite side surfaces of the baffles (14), liquid inlet pipes (26) are fixedly connected to the upper sides of the left side surfaces of the liquid collection chambers (8), and the left ends of the liquid inlet pipes (26) penetrate through the left side of the inner wall of the placing shell (7) to the left side surface of the placing shell.

2. The cutting fluid spraying structure for a CNC machining center according to the claim 1, characterized in that: the lower side surface of the liquid guide pipe (9) is fixedly connected with a hose (16), the lower end of the hose (16) penetrates through the lower side of the inner wall of the placing shell (7) to the lower side surface of the placing shell, the rod wall of the hose (16) is fixedly connected with a valve (17), and the lower end of the hose (16) is fixedly connected with a spray head (18).

3. The cutting fluid spraying structure for a CNC machining center according to the claim 1, characterized in that: the lower side surface of the placing shell (7) is fixedly connected with a cutting machine (19), and the lower side surface of the cutting machine (19) is fixedly connected with a cutting head (20).

4. The cutting fluid spraying structure for a CNC machining center according to the claim 1, characterized in that: the left side of the inner wall of the second groove (5) is rotatably connected with a threaded rod (21), a first cavity (22) is formed in the right side of the upper side surface of the sliding rod (4), the right end of the threaded rod (21) penetrates through the left side surface of the moving block (6) and the right side of the inner wall of the second groove (5) to the inside of the first cavity (22), a first motor (23) is fixedly connected with the inner wall of the first cavity (22), the output end of the first motor (23) is fixedly connected with the right end of the threaded rod (21), a first sliding groove (24) is formed in the upper side of the inner wall of the second groove (5), and the inner wall of the first sliding groove (24) is connected with the upper side surface of the moving block (6) through a second sliding block in a sliding mode.

5. The cutting fluid spraying structure for a CNC machining center according to the claim 1, characterized in that: two third recess (25), two have all been seted up to the downside of first recess (3) inner wall the inner wall fixedly connected with pneumatic cylinder (27), two of third recess (25) the equal sliding connection of inner wall of pneumatic cylinder (27) has hydraulic stem (28), two the upper end of hydraulic stem (28) all is connected with the downside fixed surface of slide bar (4), two second spout (29), two have all been seted up to relative one side of first recess (3) inner wall the inner wall of second spout (29) all through the third slider respectively with slide bar (4) about both sides surface sliding connection.

6. The cutting fluid spraying structure for a CNC machining center according to claim 1, wherein: a fourth groove (30) is formed in the upper side surface of the base (1), and a clamping mechanism (31) is arranged on the inner wall of the fourth groove (30).

7. The cutting fluid spraying structure for a CNC machining center according to claim 6, wherein: second cavity (32) have been seted up to the downside surface of base (1), the inner wall fixedly connected with second motor (33) of second cavity (32), the output of second motor (33) runs through the downside of upside to fourth recess (30) inner wall of second cavity (32) inner wall, the output of second motor (33) and the downside fixed connection of clamping mechanism (31).

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