CN115256214A

CN115256214A - Cutter thickness machining equipment

Info

Publication number: CN115256214A
Application number: CN202210805026.8A
Authority: CN
Inventors: 张日新
Original assignee: Xintuo Precision Tool Zhejiang Co ltd
Current assignee: Xintuo Precision Tool Zhejiang Co ltd
Priority date: 2022-07-08
Filing date: 2022-07-08
Publication date: 2022-11-01

Abstract

The invention belongs to the technical field of cutter thickness machining, and particularly relates to cutter thickness machining equipment which comprises a base and a partition plate, wherein the partition plate comprises a foot rest and a clamp rotation control key, the base is arranged above the foot rest, a liquid level meter is arranged in the base, a cutting dirty liquid outlet is arranged above the liquid level meter, a control port is formed in the right side of the cutting dirty liquid outlet, and the clamp rotation control key is arranged above the base. According to the invention, the blades are simultaneously machined by the lower main shaft and the upper main shaft, an upper and lower double-end-face grinding technology is adopted, the equipment has an up-and-down bidirectional rotation function, the precision performance is improved, the energy saving and consumption reduction are met, the machining time efficiency is improved by grinding the upper and lower main shafts simultaneously and optimizing the upper and lower main shafts, the end face grinding function is met in a precise and efficient manner, the yield is improved, the labor cost is reduced, burrs and raised edges are removed by light grinding machining when the automatic operation is finished, and the high-precision flatness which is difficult to realize by other grinding machines can be obtained.

Description

Cutter thickness processing equipment

Technical Field

The invention relates to the technical field of cutter thickness processing, in particular to cutter thickness processing equipment.

Background

The cutting tools are tools for cutting machining in machine manufacturing, and most of the cutting tools are used for machines, but are also used for hands.

The existing cutter thickness processing equipment mostly adopts a single-surface grinding method in the using process, so that the grinding efficiency is low, the time and labor cost are wasted, and the precision is not high.

Therefore, a tool thickness machining apparatus is proposed to address the above problems.

Disclosure of Invention

The invention provides a cutter thickness processing device, which aims to make up for the defects of the prior art and solve the problems that the existing cutter thickness processing device mostly adopts a single-surface grinding method in the using process, the grinding efficiency is low, the time and labor cost are wasted, and the precision is not high.

The technical scheme adopted by the invention for solving the technical problem is as follows: the invention relates to a tool thickness machining device which comprises a foot stand and a clamp rotation control button, wherein a base is installed above the foot stand, a liquid level meter is installed inside the base, a cutting dirty liquid outlet is installed above the liquid level meter, a control port is formed in the right side of the cutting dirty liquid outlet, a lower main shaft is fixed above the cutting liquid inlet, a bracket driving shaft is installed on the left side and the right side of the lower main shaft, a water pipe is connected above the bracket driving shaft, an upper main shaft is installed above the lower main shaft, a high-frequency lifting driving device is installed above the upper main shaft, a grinding liquid confirmation port is installed on the right side of the high-frequency lifting driving device, a circulation confirmation key is installed above the grinding liquid confirmation port, hand pumps are installed on the left side and the right side of the high-frequency lifting driving device, a cylinder rail is installed above the high-frequency lifting driving device, a driving device body is installed above the main shaft, a driving device is arranged above the main body, a pressure gauge is installed on the right side of the cylinder rail, an operation control panel is connected to the bottom of the pressure gauge, an electric power box is installed behind the main body, and an air connection port is installed below the electric power box.

Preferably, the foot rests are uniformly distributed at the bottom of the base, the height of the foot rests is 100mm, and the length, the width and the height of the base are 87.5cm, 117.08cm and 260.42cm respectively.

Preferably, the lower part main shaft includes saddle, driving motor, external gear, gear wheel, grinds platform, internal gear, puts thing hole, fixed axle and fixed axle, driving motor is installed to the top of saddle, and driving motor's top is connected with the external gear, the gear wheel is installed at the rear of external gear, and the internally mounted of gear wheel has the platform of grinding, grind the top of platform and install the internal gear, and the inside of internal gear has been seted up and has been put the thing hole, the avris meshing of internal gear has the fixed axle.

Preferably, the gear wheel and the driving motor form a rotating structure through the external gear, the gear wheel and the external gear are meshed with each other, and the external gear is uniformly distributed outside the gear wheel.

Preferably, the internal gear forms a rotating structure through the gear wheel, the internal gear is meshed with the gear wheel, the internal gear is uniformly distributed in the gear wheel, the internal gear is meshed with the fixed shaft, and the internal gear is not contacted with the fixed shaft.

Preferably, the water pipes form a rotating structure through a bracket driving shaft, and the water pipes are uniformly distributed in the device.

Preferably, the upper main shaft comprises a connecting seat, a pressing table and a positioning shaft, the pressing table is installed at the bottom of the connecting seat, the positioning shaft is connected to the bottom of the pressing table, the circle centers of the pressing table and the large gear coincide with each other, and the positioning shaft and the fixing shaft are coincident with each other in size.

Preferably, the lifting high-frequency driving device forms a lifting structure through the cooperation between the hand pump and the cylindrical rails, the cylindrical rails are symmetrical about a vertical central line of the lifting high-frequency driving device, and the lifting high-frequency driving device is fixedly connected with the upper spindle.

The invention has the advantages that:

1. the upper main shaft is arranged to be lifted through the lifting high-frequency driving device, so that the lifting high-frequency driving device can be lifted in the device through mutual matching of the hand pump and the cylinder rail, the upper main shaft can be driven to lift in the device, the upper main shaft and the lower main shaft can be conveniently contacted with each other to grind and process the thickness of materials, the thickness of the materials is adjusted, then the materials placed in the lower main shaft can be ground and processed by the thickness after the upper main shaft and the lower main shaft are contacted with each other, and the hand pump is arranged on two sides of the lifting high-frequency driving device, so that the stability of the device in the lifting process can be improved, the grinding accuracy caused by the instability in the lifting process is avoided, and the device is convenient to operate;

2. according to the invention, the large gear is arranged to rotate through the outer gear, so that the large gear can be driven by the outer gear to rotate, the inner gear and the large gear are meshed with each other, the large gear can drive the inner gear to rotate in the rotating process, materials to be ground are placed in the material placing holes in the inner gear in the using process, so that the inner gear can drive the material placing holes to move in the device when rotating, the grinding table is arranged at the bottom of the inner gear, the materials to be ground are also in contact with the grinding table, so that the bottom can be ground, the thickness of the ground materials of the device can be controlled, the stability of the device can be improved without mutual contact between the inner gears, the phenomenon that the inner gears influence each other to prevent the device from moving and preventing the device from moving can be avoided

3. The invention processes the blade through the lower main shaft and the upper main shaft at the same time, adopts the upper and lower double-end-face grinding technology and can reach the reciprocating speed of 70-140 min^－1The precision can reach 0.0000 mu level, the equipment adopts the function of up-down bidirectional rotation, the reverse double-sided rotary grinding performance, not only the precision performance is improved and the energy saving and consumption reduction are met, the up-down simultaneous grinding optimization improves the processing timeliness, the precision and the high efficiency meet the function of end face grinding, but also the up-down bidirectional rotary grinding can be simultaneously carried outThe grinding loss is reduced, the yield is improved and the labor cost is reduced in a high-efficiency and quick machining mode, the dual-drive grinding motion can reach the high-precision parallelism and the high-precision surface roughness, burrs and raised edges are removed through light grinding when the automatic operation is finished, and the high-precision flatness which is difficult to realize by other grinding machines can be obtained.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic front view of an embodiment;

FIG. 2 is a left side view of the structure of the embodiment;

FIG. 3 is a schematic diagram of a right view of the embodiment;

FIG. 4 is a perspective view of a lower spindle and an upper spindle of a second embodiment;

FIG. 5 is a schematic sectional view showing the lower spindle and the upper spindle of the second embodiment.

In the figure: 1. a foot rest; 2. a base; 3. a liquid level meter; 4. a cutting waste liquid outlet; 5. a control port; 6. a clamp rotation control key; 7. a cutting fluid inlet; 8. a lower spindle; 801. a saddle; 802. a drive motor; 803. an outer gear; 804. a bull gear; 805. grinding a platform; 806. an internal gear; 807. placing an object hole; 808. a fixed shaft; 9. a carriage drive shaft; 10. a water pipe; 11. an upper main shaft; 1101. a connecting seat; 1102. pressing the table; 1103. positioning the shaft; 12. lifting the high-frequency driving device; 13. confirming a grinding fluid opening; 14. a cycle confirmation key; 15. a hand pump; 16. a cylindrical rail; 17. a device main body; 18. a drive device; 19. a pressure gauge; 20. operating a control panel; 21. an electric power box; 22. an air connection port.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example one

Referring to fig. 1-3, a tool thickness machining apparatus includes a foot stand 1 and a clamp rotation control button 6, a base 2 is installed above the foot stand 1, a level gauge 3 is installed inside the base 2, a dirty cutting fluid outlet 4 is installed above the level gauge 3, a control port 5 is provided on the right side of the dirty cutting fluid outlet 4, the clamp rotation control button 6 is installed above the base 2, a lower spindle 8 is fixed above a cutting fluid inlet 7, carriage drive shafts 9 are installed on the left and right sides of the lower spindle 8, a water pipe 10 is connected above the carriage drive shaft 9, an upper spindle 11 is installed above the lower spindle 8, a lifting high-frequency driving device 12 is installed above the upper spindle 11, a grinding fluid confirmation port 13 is installed on the right side of the lifting high-frequency driving device 12, a circulation confirmation button 14 is installed above the grinding fluid confirmation port 13, pumps 15 are installed on the left and right sides of the lifting high-frequency driving device 12, a cylinder rail 16 is installed above the lifting high-frequency driving device 12, a driving device main body 17 is installed above the device main body 17, a driving device 18 is installed above the grinding fluid confirmation port 13, a cylinder rail 16 is installed on the right side of the cylinder rail 16, a pressure gauge 19 is installed on the cylinder rail 19, a pressure gauge 21 is installed below an air pressure gauge 21 is installed below an operation panel 21, and a pressure gauge 21 is installed below a pressure gauge 21.

Foot rest 1 is in the bottom evenly distributed of base 2, and foot rest 1's height is 100mm, and base 2's length and width height is 87.5cm respectively, 117.08cm, 260.42cm, thereby make foot rest 1 can improve the stability of device, also can avoid the device to lead to the condition such as device electric leakage to take place with ground direct contact simultaneously, improve the security of device, and foot rest 1 still makes things convenient for the device to adjust the height of each position in the bottom of device, then base 2's length and width height can make the device more pleasing to the eye, also can make the device operation mesa long-pending more reasonable simultaneously.

The water pipes 10 form a rotating structure through the bracket driving shaft 9, and the water pipes 10 are uniformly distributed in the device. Thereby make water pipe 10 can be at the inside angle regulation of device, make things convenient for water pipe 10 to wash the position of lower part main shaft 8 and the 11 processing of upper portion main shaft, piece after avoiding the device thickness processing leads to the device to block up, also can reduce the temperature of lower part main shaft 8 and upper portion main shaft 11 in the course of working simultaneously, improve the in-process stability of device at the processing, avoid lower part main shaft 8 and upper portion main shaft 11 to damage in the inside of device, water pipe 10 can wash lower part main shaft 8 and upper portion main shaft 11 at the angle of difference in the inside evenly distributed of device simultaneously, the efficiency of water pipe 10 to the device cooling is improved.

The lifting high-frequency driving device 12 forms a lifting structure through the matching between the hand pump 15 and the cylinder rail 16, the cylinder rail 16 is symmetrical about the vertical central line of the lifting high-frequency driving device 12, the lifting high-frequency driving device 12 is fixedly connected with the upper spindle 11, the lifting high-frequency driving device 12 can be lifted in the device through the mutual matching of the hand pump 15 and the cylinder rail 16, the upper spindle 11 can be driven to lift in the device, the upper spindle 11 is convenient to contact with the lower spindle 8 to grind the thickness of the material, the thickness of the material is adjusted, the material placed in the lower spindle 8 can be ground and processed into the thickness after the upper spindle 11 is contacted with the lower spindle 8, the stability of the device in the lifting process can be improved through the hand pump 15 arranged on two sides of the lifting high-frequency driving device 12, the problem that the grinding is not accurate enough due to the insufficient stability in the lifting process is avoided, and the device is convenient to operate.

Example two

Referring to fig. 4-5, in a first comparative example, as a supplementary implementation manner of the first example, the lower spindle 8 includes a supporting platform 801, a driving motor 802, an external gear 803, a gearwheel 804, a grinding platform 805, an internal gear 806, an article placing hole 807, a fixing shaft 808 and a fixing shaft 808, the driving motor 802 is installed above the supporting platform 801, the external gear 803 is connected above the driving motor 802, the gearwheel 804 is installed behind the external gear 803, the grinding platform 805 is installed inside the gearwheel 804, the internal gear 806 is installed above the grinding platform 805, an article placing hole 807 is formed inside the internal gear 806, and the fixing shaft 808 is engaged with the edge of the internal gear 806.

The large gear 804 and the driving motor 802 form a rotating structure through the external gear 803, the large gear 804 and the external gear 803 are meshed with each other, and the external gear 803 is uniformly distributed outside the large gear 804, so that the external gear 803 can be driven by the driving motor 802 to rotate, and because the external gear 803 and the large gear 804 are meshed with each other, the driving motor 802 drives the large gear 804 to rotate in the rotating process, and the external gear 803 is uniformly arranged outside the large gear 804, so that the stability of the large gear 804 driven by the external gear 803 can be improved, and the damage of the device caused by the sliding rail of the large gear 804 can be avoided.

The internal gear 806 forms a rotating structure through the large gear 804, the internal gear 806 is meshed with the large gear 804, the internal gear 806 is uniformly distributed in the large gear 804, the internal gear 806 is meshed with the fixed shaft 808, the internal gear 806 is not contacted with each other, so that the large gear 804 can be driven by the external gear 803 to rotate, the internal gear 806 is meshed with the large gear 804, the large gear 804 can drive the internal gear 806 to rotate in the rotating process, materials to be ground are placed in the object placing hole 807 in the internal gear 806 in the using process, the object placing hole 807 is driven to move in the device by the internal gear 806 when rotating, and the grinding table 805 is installed at the bottom of the internal gear 806, so that the materials to be ground are also contacted with the grinding table 805, the bottom can be ground, the thickness of the materials to be ground by the device can be controlled, meanwhile, the stability of the device can be improved without the internal gear 806 being contacted with each other, and the phenomenon that the internal gear 806 affects each other to prevent the device from moving is avoided.

Upper portion main shaft 11 includes connecting seat 1101, press platform 1102 and location axle 1103, press platform 1102 is installed to the bottom of connecting seat 1101, and the bottom of pressing platform 1102 is connected with location axle 1103, the centre of a circle between pressure platform 1102 and the gear wheel 804 coincides each other, and the size between location axle 1103 and the fixed axle 808 coincide each other, thereby make and press platform 1102 to overlap in the top of gear wheel 804 at the in-process that the high frequency that goes up and down drove device 12 and descend, make and press platform 1102 to compress tightly internal gear 806, consequently just can process the grinding to the inside material of placing of internal gear 806, just can control the thickness of material.

Firstly, a user places a material to be adjusted in thickness control in an object placing hole 807 in an inner gear 806, then a lifting high-frequency driving device 12 is matched with a cylinder rail 16 through a hand pump 15 to lift in the device, so as to drive an upper main shaft 11 to lift in the device, the upper main shaft 11 and a lower main shaft 8 are convenient to contact with each other to grind and process the thickness of the material, the thickness of the material is adjusted, then the material placed in the lower main shaft 8 is ground and processed in the thickness after the upper main shaft 11 and the lower main shaft 8 contact with each other, the hand pump 15 is installed on two sides of the lifting high-frequency driving device 12 to improve the stability of the device in the lifting process, the grinding accuracy is not enough due to insufficient stability in the lifting process, the device is convenient to operate, then an outer gear 803 is driven by a driving motor 802 to rotate, the outer gear 803 and 804 are meshed with each other, therefore the driving motor 802 drives the large gear 804 to rotate in the rotating process, and the outer gear 803 is uniformly installed outside the outer gear 804 to improve the stability of the large gear in the process that the large gear is driven by the outer gear 803, the large gear 803 and the large gear 803 is driven by the external gear 803 and the sliding rail 803 and the inner gear 804 is driven by the sliding rail 806, so as the inner gear 804, the inner gear 804 to be placed in the inner gear 806, the inner gear grinding of the inner gear 806, the inner gear grinding platform 806 is also needs to be ground, the inner gear 805, the inner gear 806 to be ground, the inner gear 806, the inner gear 805, the inner gear 806, therefore the inner gear 805, the inner gear 806 to be ground, the inner gear 805, the inner gear 806 is also to be ground, when the inner gear 806, the inner gear 805, the inner gear 806 is moved, the inner gear 806, the bottom is thus ground, wherebyThe thickness of the material ground by the control device is controlled, meanwhile, the stability of the device is improved without mutual contact between the internal gears 806, the internal gears 806 are prevented from being influenced mutually to prevent the device from moving, then the pressing table 1102 is overlapped above the large gear 804 in the process of lifting the high-frequency driving device 12 to descend, the pressing table 1102 is enabled to press the internal gears 806 tightly, therefore, the material placed inside the internal gears 806 is processed and ground, the thickness of the material is controlled, the angle of the device is adjusted inside the device through the bracket driving shaft 9 by the water pipe 10 in the processing process, the water pipe 10 is convenient to wash parts processed at the lower main shaft 8 and the upper main shaft 11, the blockage of the device caused by chips after the thickness processing of the device is avoided, the temperature of the lower main shaft 8 and the upper main shaft 11 in the processing process is also reduced, the stability of the device in the processing process is improved, the damage of the lower main shaft 8 and the upper main shaft 11 in the device is avoided, meanwhile, the water pipe 10 uniformly distributed in the lower main shaft 8 and the upper main shaft 11 in different angles in the device to wash the lower main shaft 11, the cooling efficiency of the device is improved, the upper and lower shaft 10 can reach 70-lower-end face grinding technology, the reciprocating speed of the device, and the double-140 min grinding technology^－1The precision can reach 0.0000 mu level, the equipment adopts the function of up-down bidirectional rotation, the grinding performance of reverse double-sided rotation, not only the precision performance is improved and the energy conservation and consumption reduction are met, the up-down simultaneous grinding optimization improves the processing time effect, the precision and high efficiency meet the function of end face grinding, but also the up-down bidirectional rotation can be simultaneously carried out, the grinding loss is reduced, the high-efficiency and rapid processing mode not only improves the yield but also reduces the labor cost, the double-drive grinding motion can reach the high-precision parallelism and the surface roughness, the burrs and the raised edges are removed through the light grinding processing when the automatic operation is finished, and the high-precision planeness which is difficult to be realized by other grinding machines can be obtained;

the foot rest 1 improves the stability of device next, also avoid the device to lead to the circumstances such as device electric leakage to take place with ground direct contact simultaneously, the security of device is improved, and foot rest 1 still makes things convenient for the device to adjust the height of each position in the bottom of device, then the length and width height of base 2 makes the device more pleasing to the eye, it is long more reasonable also to make the device operation mesa long-pending simultaneously, then cutting fluid entry 7 and cutting foul solution export 4 are with the cooling water drainage device then discharge again, operation control panel 20 person of facilitating the use operates the device, power box 21 supplies energy to the device, make things convenient for the device to operate.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims

1. The utility model provides a cutter thickness processing equipment which characterized in that: including foot rest (1) and anchor clamps rotation control button (6), base (2) are installed to the top of foot rest (1), and the internally mounted of base (2) has level gauge (3), cutting foul solution export (4) are installed to the top of level gauge (3), and the right side of cutting foul solution export (4) is provided with control port (5), install in the top of base (2) anchor clamps rotation control button (6), and the top of cutting fluid entry (7) is fixed with lower part main shaft (8), bracket drive shaft (9) are all installed to the left and right sides of lower part main shaft (8), and the top of bracket drive shaft (9) is connected with water pipe (10), upper portion main shaft (11) is installed to the top of lower part main shaft (8), and the top of upper portion main shaft (11) installs lift high frequency and drive device (12), grinding fluid affirmation mouth (13) is installed on the right side of lift high frequency drive device (12), and the top of grinding fluid affirmation mouth (13) installs circulation affirmation key (14), lift high frequency drive device (12)'s the left and right sides installs lift pump (15), and the top of track device (15) installs track device (17), the main part of hand pump drive device (17) and the main body (17) is provided with drive device (17), manometer (19) are installed on the right side of drum track (16), and the bottom of manometer (19) is connected with operation control panel (20), power box (21) are installed to the rear of device main part (17), and air connection mouth (22) are installed to the below of power box (21).

2. The tool thickness machining apparatus according to claim 1, wherein: the foot rest (1) is uniformly distributed at the bottom of the base (2), the height of the foot rest (1) is 100mm, and the length, the width and the height of the base (2) are respectively 87.5cm, 117.08cm and 260.42cm.

3. The tool thickness machining apparatus according to claim 1, wherein: lower part main shaft (8) are including saddle (801), driving motor (802), external gear (803), gear wheel (804), mill platform (805), internal gear (806), put thing hole (807), fixed axle (808) and fixed axle (808), driving motor (802) are installed to the top of saddle (801), and the top of driving motor (802) is connected with external gear (803), gear wheel (804) are installed to the rear of external gear (803), and the internally mounted of gear wheel (804) has and grinds platform (805), grind the top of platform (805) and install internal gear (806), and the inside of internal gear (806) has been seted up and has been put thing hole (807), the avris meshing of internal gear (806) has fixed axle (808).

4. A tool thickness machining apparatus according to claim 3, wherein: the large gear (804) and the driving motor (802) form a rotating structure through the external gear (803), the large gear (804) and the external gear (803) are meshed with each other, and the external gears (803) are uniformly distributed outside the large gear (804).

5. A tool thickness machining apparatus according to claim 3, wherein: the internal gear (806) forms a rotating structure through the large gear (804), the internal gear (806) is meshed with the large gear (804), the internal gear (806) is uniformly distributed in the large gear (804), the internal gear (806) is meshed with the fixed shaft (808), and the internal gears (806) are not in contact with each other.

6. The tool thickness machining apparatus according to claim 1, wherein: the water pipes (10) form a rotating structure through the bracket driving shaft (9), and the water pipes (10) are uniformly distributed in the device.

7. The tool thickness machining apparatus according to claim 1, wherein: the upper main shaft (11) comprises a connecting seat (1101), a pressing table (1102) and a positioning shaft (1103), the pressing table (1102) is installed at the bottom of the connecting seat (1101), the positioning shaft (1103) is connected to the bottom of the pressing table (1102), the circle centers of the pressing table (1102) and the large gear (804) coincide with each other, and the positioning shaft (1103) and the fixing shaft (808) are matched with each other in size.

8. The tool thickness machining apparatus according to claim 1, wherein: the lifting high-frequency driving device (12) forms a lifting structure through the matching between a hand pump (15) and the cylindrical rails (16), the cylindrical rails (16) are symmetrical about the vertical central line of the lifting high-frequency driving device (12), and the lifting high-frequency driving device (12) is fixedly connected with the upper main shaft (11).