CN214721069U - Automatic production device of high-wear-resistance bevel cutting hole saw - Google Patents

Abstract

The utility model discloses an automated production device of high wear-resisting oblique angle cutting hole saw, the utility model relates to an automated production technical field, comprising a base plate, the bottom plate up end is installed processingequipment, belt cleaning device, drying device and oiling station from one side to opposite side in proper order, bottom plate up end intermediate position department has seted up and has been injectd the spout, bottom plate a side end intermediate position department fixed mounting has first motor, first motor output end fixed mounting has first lead screw, injectd spout up end sliding connection and have the processing board, sliding connection has the injectd slider between processing board and the injectd spout. The production device can better complete the clamping and fixing work of the processing assemblies with different sizes, thereby achieving a better fixing effect, also being capable of quickly and effectively completing the hole cutting work of the processing of the workpiece, being free from the operation treatment of external manual work and accelerating the processing efficiency.

Description

Automatic production device of high-wear-resistance bevel cutting hole saw

Technical Field

The utility model relates to an automated production technical field specifically is a high wear-resisting oblique angle cutting hole saw's automated production device.

Background

The hole saw is also called as a hole digger, is used as a practical hole machining cutter, is arranged on electric tools such as an electric hand drill, an impact drill and the like or a rocker drill, is widely applied to punching holes on metal or nonmetal workpieces, and at present, the main difficulty of the existing hole saw in the cutting process lies in how to effectively control the removal of cuttings, realize quick and stable cutting and ensure the quality of the surface of the cut workpiece.

Patent publication No. CN107378075A discloses an oblique angle cutting hole saw, in which the saw tooth cutting edges formed by the intersection lines of the rake face and the flank face of the hole saw guide tooth, the right saw tooth and the left saw tooth are all inclined straight lines, and the inclination directions are the same, and the rake face of the saw tooth is an arc inclined face. The hole saw is characterized in that the cutting edge of the hole saw is a horizontal straight line, namely the edge inclination angle is 0 degree, the cutting edge of the hole saw is oblique angle cutting of an inclined straight line, and the edge inclination angle adopts a negative value, so that the outflow direction of cuttings is changed, the cuttings can be rapidly and effectively discharged outwards along the inclined front cutter surface, the chip discharge efficiency is improved, the surface of a machined part is not scratched, and the surface machining quality of the part is improved; meanwhile, the hole saw is firstly point-contacted with the workpiece in the cutting process, so that the cutting edge gradually permeates the workpiece, the slipping phenomenon of the horizontal linear cutting edge in the cutting process is avoided, the centering capacity is improved, the cutting stability is improved, the vibration in the cutting process is reduced, and the machining efficiency is improved.

The above patents and the existing automatic production devices have the following defects when processing the cutting hole saw:

1. when the external machining assembly is subjected to hole cutting saw treatment, a better transmission clamping mechanism is not arranged in the device, so that the machining assemblies with different sizes are clamped and fixed, and the automatic production work of external personnel is not facilitated;

2. when cutting the pitch-row again, the inside better transmission cutting mechanism that does not set up of an oblique angle cutting hole saw device of publication No. CN107378075A, when leading to cutting the processing subassembly, still need outside personnel to operate, just cause construction danger very easily, inside does not set up an automated mechanism and directly accomplishes and cut processing work to the processing.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a high wear-resisting oblique angle cutting hole saw's automated production device has solved inside and has not set up better transmission clamping mechanism and inside and not set up better transmission cutting mechanism's problem.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: an automatic production device of a high-wear-resistance oblique-angle cutting hole saw comprises a base plate, wherein a processing device, a cleaning device, a drying device and an oiling device are sequentially arranged on the upper end face of the base plate from one side to the other side, a limiting chute is formed in the middle of the upper end face of the base plate, a first motor is fixedly arranged in the middle of the end face of one side of the base plate, a first lead screw is fixedly arranged at the output end of the first motor, a processing plate is connected to the upper end face of the limiting chute in a sliding mode, and a limiting sliding block is connected between the processing plate and the limiting chute in a sliding mode;

a rotating motor is fixedly installed at the middle position of the end face of one side of the processing plate, a middle sliding groove is formed in the middle position of the inner portion of the processing plate, two sides of the upper end face of the processing plate are both connected with clamping semicircular plates in a sliding mode, a transmission screw rod is fixedly installed at the output end of the rotating motor, a positive thread is formed in one side of the annular outer surface of the transmission screw rod, and a negative thread is formed in the other side of the annular outer surface of the transmission screw rod;

the processing device is characterized in that hydraulic cylinders are fixedly mounted at positions on two sides of the upper end face of the processing device, limit grooves are formed in two sides of the inner wall of the processing device, a built-in movable plate is connected between the limit grooves in a sliding mode and corresponds to the limit grooves in the limit groove in the limit plate in the limit groove in the limit plate in the limit position in the limit plate in the limit of the limit plate in the limit of the limit plate in the limit of the limit plate in the limit of the limit plate in the limit of the limit in the limit of the limit in the limit of the limit in the limit of the limit plate in the limit of the limit plate in the limit of the.

The inside intermediate position department of centre gripping semicircle board has seted up built-in spout, two are corresponding the equal swing joint of centre gripping semicircle board opposite face has built-in grip block, rotate between built-in grip block and the built-in spout and be connected with the connection dwang, two are corresponding connect the built-in contact spring of fixedly connected with between the dwang, a plurality of frosting line has been seted up to centre gripping semicircle inboard wall.

A working motor is fixedly mounted at one side of the upper end face of the built-in movable plate, a rotating gear is fixedly mounted at the output end of the working motor, and a transmission gear is fixedly mounted at the position, close to the upper end, of the annular outer surface of the machining disc;

an oil storage tank is fixedly mounted in the middle of the upper end face of the oil coating device, a second motor is fixedly mounted in the middle of the upper end face of the oil storage tank, a rotating threaded rod is fixedly mounted at the output end of the second motor, limiting concave discs are fixedly mounted on the upper side and the lower side of the interior of the oil storage tank, external threaded sleeves are movably connected to two sides of the annular outer surface of the rotating threaded rod, internal rotating shafts are fixedly mounted on two sides of the annular outer surface of each external threaded sleeve, and external laminating rollers are rotatably connected to the annular outer surface of each internal rotating shaft;

the cleaning device is characterized in that a water storage tank is fixedly mounted at the middle position of the upper end of the cleaning device, a circulation groove is formed in the middle position of the interior of the cleaning device, a flow equalizing plate is fixedly mounted at the middle position of the interior of the cleaning device, a plurality of scattering spray heads are fixedly mounted on the lower end face of the flow equalizing plate, direct spray heads are fixedly mounted on the lower end face of the flow equalizing plate between the direct spray heads, and an electromagnetic valve is fixedly mounted at the middle position of the upper end face of the flow equalizing plate.

Preferably, the flow equalizing plate is internally of a hollow structure, a communicating pipe is fixedly connected between the flow equalizing plate and the water storage tank, the electromagnetic valve is fixedly installed on the annular outer surface of the communicating pipe, the diameter of the lower-end nozzle of the scattering nozzle is larger, and the diameter of the lower-end nozzle of the direct injection nozzle is smaller.

Preferably, the external laminating cylinder is laminated with the inner wall of the oil storage tank, a notch for the rotation of the threaded rod to move is formed in the external threaded sleeve, the threaded rod is fixedly connected with the external threaded sleeve, the concave structure is formed in the limited concave disc, and the internal rotating shaft is connected with the limited concave disc in a sliding mode.

Preferably, the rotating gear is in contact with the outer surface of the transmission gear and is in meshed connection with the transmission gear, the limit limiting block is arranged inside the limit limiting groove and is in sliding connection with the limit limiting groove, and two sides of the upper end face of the built-in movable plate are provided with notches for the telescopic rods to be embedded in.

Preferably, sliding connection between connecting dwang and the built-in spout, and connect to rotate between dwang and the built-in grip block and be connected with the pivot of connection, terminal surface fixed mounting has the inside gliding slider of spout in being located under the centre gripping semicircle board, and the notch that supplies the transmission lead screw activity is seted up to slider inside.

Advantageous effects

The utility model provides an automated production device of high wear-resisting oblique angle cutting hole saw. Compared with the prior art, the method has the following beneficial effects:

1. the automatic production device of the high-abrasion oblique-angle cutting hole saw is characterized in that a workpiece needing to be processed outside is placed on the upper end face of a processing plate, after the workpiece is placed, a circuit switch of a rotary motor is opened, the rotary motor effectively drives a transmission lead screw to rotate, the annular outer surface of the transmission lead screw is respectively provided with a positive thread and a negative thread, so that the transmission lead screw effectively drives a clamping semicircular plate to clamp and draw close to move in the rotating process, the built-in clamping plate is driven to clamp and fix the outer surface of the external workpiece in the moving process, the built-in clamping plate is driven to rotate when moving to one side in the clamping and fixing process, the built-in clamping plate directly clamps and fixes the external workpiece, the built-in clamping plate is driven to deform after the built-in contact spring deforms in the rotating process, and the built-in contact spring resets after deforming, therefore, the clamping and fixing work of the tool can be completed, the clamping and fixing work of the processing assemblies with different sizes can be well completed, and a good fixing effect is achieved.

2. In the automatic production device of the high-wear-resistance bevel cutting hole saw, external personnel control the working state of the hydraulic cylinder, when the hydraulic cylinder works, the telescopic rod inside is driven to stretch, the telescopic rod can pull and collide the built-in movable plate, in the collision process, the built-in movable plate is driven to slide between the corresponding edge-positioned limiting grooves, the built-in movable plate moves to a specified position, then a circuit switch of a working motor is directly turned on, the working motor drives a rotating gear to rotate, the rotating gear is meshed and connected with a transmission gear, so that the rotating gear effectively drives a processing disc to rotate in the rotating process, and the processing disc rotates, meanwhile, the workpiece is moved downwards, so that the machining and hole cutting work of the workpiece can be quickly and effectively finished, the external manual operation is not needed, and the machining efficiency is accelerated.

3. This automated production device of high wear-resisting oblique angle cutting hole saw, through the circuit switch who opens first motor, first motor just drives first lead screw and rotates, just the processing board is driven to move to first lead screw, make the processing board move inside the belt cleaning device, the circuit switch to the solenoid valve of rethread, the inside water source of water storage tank just can be carried inside the flow equalizing plate, the flow equalizing plate just spouts inside water source to the outside through direct injection shower nozzle and scattering shower nozzle, the blowout in-process, direct injection shower nozzle spun water source impact force is great, the scope is less, scattering shower nozzle spun water source impact force is less, the scope is wider, thereby just can reach better clearance effect.

4. This automated production device of high wear-resisting oblique angle cutting hole saw, through the circuit switch who directly opens the second motor, the second motor just effectively drives the rotation threaded rod and rotates, the rotation threaded rod just drives the built-in axis of rotation of both sides and rotates, built-in axis of rotation just can slide in injecing concave dish inside, the slip in-process, just, drive the external laminating cylinder of built-in axis of rotation surface and laminate at the oil storage tank surface, strike off the adhesion at the dirt of oil storage tank inner wall, when clearing up the oil storage tank, efficiency is higher, it is better to make the clearance effect simultaneously.

Drawings

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

FIG. 2 is an enlarged schematic view of the internal structure of the area A in FIG. 1 according to the present invention;

FIG. 3 is an exploded view of the inner structure of the processing plate of the present invention;

FIG. 4 is an enlarged schematic view of the internal structure of the area B in FIG. 3 according to the present invention;

fig. 5 is a schematic plan view of the internal structure of the processing plate of the present invention;

FIG. 6 is an exploded view of the internal structure of the processing apparatus of the present invention;

fig. 7 is a schematic plan view of the internal structure of the processing apparatus of the present invention;

FIG. 8 is a schematic plan view of the internal structure of the cleaning device of the present invention;

fig. 9 is a schematic plan view of the internal structure of the oil storage tank of the present invention.

In the figure: 1. a base plate; 11. a limiting chute; 110. a limiting slide block; 2. a processing device; 21. a limiting groove is arranged at the edge; 22. a hydraulic cylinder; 23. a telescopic rod; 24. a movable plate is arranged inside; 25. a limiting block is arranged at the edge; 26. a work motor; 261. a rotating gear; 27. processing a disc; 28. a transmission gear; 3. a cleaning device; 31. a water storage tank; 32. a circulation tank; 33. a flow equalizing plate; 34. a scattering spray head; 35. directly spraying the spray head; 36. an electromagnetic valve; 4. a drying device; 5. an oiling device; 51. an oil storage tank; 511. a second motor; 512. rotating the threaded rod; 513. defining a concave disk; 514. a rotating shaft is arranged inside; 515. an external laminating roller; 516. an external thread bush; 6. a first motor; 7. a first lead screw; 8. processing a plate; 81. clamping the semicircular plate; 811. a built-in clamping plate; 812. a chute is arranged inside; 813. a contact spring is arranged in the groove; 814. connecting the rotating rod; 815. grinding sand lines; 82. a middle sliding chute; 83. a rotation motor; 84. a transmission screw rod; 841. a positive thread; 842. and (4) inverse threading.

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.

Referring to fig. 1-6, the present invention provides a technical solution: an automatic production device of a high-wear-resistance oblique angle cutting hole saw comprises a bottom plate 1, wherein a processing device 2, a cleaning device 3, a drying device 4 and an oiling device 5 are sequentially installed on the upper end surface of the bottom plate 1 from one side to the other side, a limiting chute 11 is formed in the middle of the upper end surface of the bottom plate 1, a first motor 6 is fixedly installed in the middle of the end surface of one side of the bottom plate 1, a first lead screw 7 is fixedly installed at the output end of the first motor 6, a processing plate 8 is connected to the upper end surface of the limiting chute 11 in a sliding mode, and a limiting sliding block 110 is connected between the processing plate 8 and the limiting chute 11 in a sliding mode;

a rotating motor 83 is fixedly arranged at the middle position of the end face of one side of the processing plate 8, a middle sliding chute 82 is arranged at the middle position inside the processing plate 8, two sides of the upper end face of the processing plate 8 are both connected with a clamping semicircular plate 81 in a sliding manner, a transmission screw 84 is fixedly arranged at the output end of the rotating motor 83, a positive thread 841 is arranged at one side of the annular outer surface of the transmission screw 84, and a reverse thread 842 is arranged at the other side of the annular outer surface of the transmission screw 84;

hydraulic cylinders 22 are fixedly mounted at positions on two sides of the upper end face of the processing device 2, edge position limiting grooves 21 are formed in two sides of the inner wall of the processing device 2, a built-in movable plate 24 is connected between the two corresponding edge position limiting grooves 21 in a sliding mode, an edge position limiting block 25 is connected between the built-in movable plate 24 and the edge position limiting grooves 21 in a sliding mode, an expansion rod 23 is fixedly mounted at the output end of the hydraulic cylinder 22, and a processing disc 27 is fixedly mounted at the middle position of the lower end face of the built-in movable plate 24.

Referring to fig. 5, a built-in sliding groove 812 is formed in the middle position inside the clamping semicircular plate 81, two opposite surfaces of the corresponding clamping semicircular plate 81 are movably connected with a built-in clamping plate 811, a connecting rotating rod 814 is rotatably connected between the built-in clamping plate 811 and the built-in sliding groove 812, a built-in contact spring 813 is fixedly connected between the two corresponding connecting rotating rods 814, and a plurality of frosted stripes 815 are formed on the inner wall of the clamping semicircular plate 81;

the connecting rotating rod 814 is connected with the built-in sliding groove 812 in a sliding manner, the connecting rotating rod 814 is connected with the built-in clamping plate 811 in a rotating manner to form a connecting rotating shaft, a sliding block located in the built-in sliding groove 82 and sliding is fixedly mounted on the lower end face of the clamping semicircular plate 81, and a notch for moving the transmission screw 84 is formed in the sliding block.

Referring to fig. 6, a working motor 26 is fixedly mounted at a position on one side of the upper end surface of the built-in movable plate 24, a rotating gear 261 is fixedly mounted at an output end of the working motor 26, and a transmission gear 28 is fixedly mounted at a position, close to the upper end, of the annular outer surface of the processing disk 27;

the rotating gear 261 is in contact with the outer surface of the transmission gear 28, the rotating gear 261 is in meshed connection with the transmission gear 28, the limit limiting block 25 is located inside the limit limiting groove 21, the limit limiting block 25 is in sliding connection with the limit limiting groove 21, and two sides of the upper end face of the built-in movable plate 24 are provided with notches for the telescopic rods 23 to be embedded in.

Referring to fig. 1 and 9, an oil storage tank 51 is fixedly mounted at the middle position of the upper end surface of the oiling device 5, a second motor 511 is fixedly mounted at the middle position of the upper end surface of the oil storage tank 51, a rotating threaded rod 512 is fixedly mounted at the output end of the second motor 511, limiting concave discs 513 are fixedly mounted on the upper side and the lower side of the interior of the oil storage tank 51, external threaded sleeves 516 are movably connected to two sides of the annular outer surface of the rotating threaded rod 512, internal rotating shafts 514 are fixedly mounted on two sides of the annular outer surface of the external threaded sleeves 516, and external laminating rollers 515 are rotatably connected to the annular outer surface of the internal rotating shafts 514;

the external laminating roller 515 is laminated with the inner wall of the oil storage tank 51, a notch for the rotation of the threaded rod 512 is formed in the external threaded sleeve 516, the threaded rod 512 is fixedly connected with the external threaded sleeve 516, a concave structure is formed in the limited concave disc 513, and the internal rotation shaft 514 is connected with the limited concave disc 513 in a sliding mode.

Referring to fig. 8, a water storage tank 31 is fixedly installed at the middle position of the upper end of the cleaning device 3, a circulation groove 32 is formed at the middle position of the inside of the cleaning device 3, a flow equalizing plate 33 is fixedly installed at the middle position of the inside of the cleaning device 3, a plurality of scattering nozzles 34 are fixedly installed on the lower end surface of the flow equalizing plate 33, direct nozzles 35 are fixedly installed on the lower end surface of the flow equalizing plate 33 between the direct nozzles 35, and an electromagnetic valve 36 is fixedly installed at the middle position of the upper end surface of the flow equalizing plate 33;

the inside of the flow equalizing plate 33 is of a hollow structure, a communicating pipe is fixedly connected between the flow equalizing plate 33 and the water storage tank 31, the electromagnetic valve 36 is fixedly installed on the annular outer surface of the communicating pipe, the diameter of the lower end nozzle of the scattering nozzle 34 is larger, and the diameter of the lower end nozzle of the direct injection nozzle 35 is smaller.

Claims (3)

1. The utility model provides a high wear-resisting oblique angle cutting hole saw's automated production device, includes bottom plate (1), processingequipment (2), belt cleaning device (3), drying device (4) and oiling station (5), its characterized in that are installed from one side to the opposite side in proper order to bottom plate (1) up end: a limiting sliding chute (11) is formed in the middle of the upper end face of the bottom plate (1), a first motor (6) is fixedly mounted in the middle of the end face of one side of the bottom plate (1), a first lead screw (7) is fixedly mounted at the output end of the first motor (6), a processing plate (8) is connected to the upper end face of the limiting sliding chute (11) in a sliding mode, and a limiting sliding block (110) is connected between the processing plate (8) and the limiting sliding chute (11) in a sliding mode;

a rotating motor (83) is fixedly installed at the middle position of the end face of one side of the processing plate (8), a middle sliding groove (82) is formed in the middle position of the interior of the processing plate (8), two sides of the upper end face of the processing plate (8) are both connected with clamping semicircular plates (81) in a sliding mode, a transmission lead screw (84) is fixedly installed at the output end of the rotating motor (83), a positive thread (841) is formed on one side of the annular outer surface of the transmission lead screw (84), and a reverse thread (842) is formed on the other side of the annular outer surface of the transmission lead screw (84);

hydraulic cylinders (22) are fixedly mounted at positions on two sides of the upper end face of the machining device (2), edge position limiting grooves (21) are formed in two sides of the inner wall of the machining device (2), a built-in movable plate (24) is connected between the two corresponding edge position limiting grooves (21) in a sliding mode, edge position limiting blocks (25) are connected between the built-in movable plate (24) and the edge position limiting grooves (21) in a sliding mode, an expansion link (23) is fixedly mounted at the output end of each hydraulic cylinder (22), and a machining disc (27) is fixedly mounted at the middle position of the lower end face of the built-in movable plate (24);

a built-in sliding groove (812) is formed in the middle of the inner portion of each clamping semi-circular plate (81), two corresponding opposite surfaces of each clamping semi-circular plate (81) are movably connected with a built-in clamping plate (811), a connecting rotating rod (814) is rotatably connected between each built-in clamping plate (811) and each built-in sliding groove (812), a built-in contact spring (813) is fixedly connected between each two corresponding connecting rotating rods (814), and a plurality of frosted grains (815) are formed in the inner wall of each clamping semi-circular plate (81);

a working motor (26) is fixedly mounted at one side of the upper end face of the built-in movable plate (24), a rotating gear (261) is fixedly mounted at the output end of the working motor (26), and a transmission gear (28) is fixedly mounted at the position, close to the upper end, of the annular outer surface of the processing disc (27);

an oil storage tank (51) is fixedly mounted at the middle position of the upper end face of the oiling device (5), a second motor (511) is fixedly mounted at the middle position of the upper end face of the oil storage tank (51), a rotating threaded rod (512) is fixedly mounted at the output end of the second motor (511), limiting concave discs (513) are fixedly mounted on the upper side and the lower side of the interior of the oil storage tank (51), external threaded sleeves (516) are movably connected to two sides of the annular outer surface of the rotating threaded rod (512), internal rotating shafts (514) are fixedly mounted on two sides of the annular outer surface of the external threaded sleeves (516), and external laminating rollers (515) are rotatably connected to the annular outer surface of the internal rotating shafts (514);

cleaning device (3) upper end intermediate position department fixed mounting has water storage tank (31), circulation groove (32) have been seted up to cleaning device (3) inside intermediate position department, cleaning device (3) inside intermediate position department fixed mounting has flow equalizing plate (33), end surface fixed mounting has a plurality of scattering shower nozzle (34) under flow equalizing plate (33), it has direct injection shower nozzle (35) to be located fixed mounting between direct injection shower nozzle (35) to flow equalizing plate (33) lower terminal surface, fixed mounting has solenoid valve (36) to flow equalizing plate (33) upper end intermediate position department.

2. An automated manufacturing apparatus for a high wear resistant bevel angle cut hole saw as defined in claim 1, wherein: external laminating cylinder (515) and laminating mutually of oil storage tank (51) inner wall, the notch that supplies rotation threaded rod (512) activity is seted up to external thread bush (516) inside, fixed connection between rotation threaded rod (512) and external thread bush (516), inject concave type dish (513) inside and be concave structure, built-in axis of rotation (514) and inject sliding connection between concave type dish (513).

3. An automated manufacturing apparatus for a high wear resistant bevel angle cut hole saw as defined in claim 1, wherein: the rotating gear (261) is in contact with the outer surface of the transmission gear (28), the rotating gear (261) is in meshed connection with the transmission gear (28), the limit limiting block (25) is arranged inside the limit limiting groove (21), the limit limiting block (25) is in sliding connection with the limit limiting groove (21), and two sides of the upper end face of the built-in movable plate (24) are provided with notches for the telescopic rods (23) to be embedded in.

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