CN115846287A - Cleaning device for heavy-cutting double-face cutting face milling cutter - Google Patents

Abstract

The application relates to a cleaning device for a recutting double-sided blade face milling cutter, which relates to the field of milling cutter cleaning and comprises a cleaning shell, wherein cleaning liquid is filled in the cleaning shell, an operating mechanism is arranged in the cleaning shell, a cleaning mechanism is arranged on the operating mechanism, a recutting double-sided blade face milling cutter is arranged on the cleaning mechanism, and the cleaning mechanism is used for cleaning the recutting double-sided blade face milling cutter; the operating mechanism is further connected with a transmission mechanism, the transmission mechanism is provided with a circulating mechanism, and the circulating mechanism is used for circularly cleaning the cleaning liquid in the shell. This application has the effect that improves heavy-cutting double-sided cutting edge face milling cutter cleaning efficiency, improves heavy-cutting double-sided cutting edge face milling cutter cleaning performance.

Description

Cleaning device for recutting double-face blade face milling cutter

Technical Field

The application relates to the field of milling cutter cleaning, in particular to a cleaning device for a double-face recutting cutting face milling cutter.

Background

Recut double-sided face milling cutters are rotary tools used for milling operations having one or more cutter teeth. When in work, each cutter tooth cuts off the allowance of the workpiece in sequence and intermittently. The recut double-sided cutting face milling cutter is mainly used for processing planes, steps, grooves, forming surfaces, cutting workpieces and the like on a milling machine.

In the working process of the recutting double-face cutting face milling cutter, a cutter face can adsorb a large amount of metal scraps, and the smoothness of the section of the blank can be influenced by untimely cleaning of the metal scraps. Therefore, in the use process of the double-edged milling cutter, whether or not to clean the face of the double-edged milling cutter needs to be determined according to the amount of metal scraps adsorbed on the face of the double-edged milling cutter. In the cutter arm of the traditional double-edged milling machine for heavy cutting, a cleaning spray nozzle is directly and fixedly arranged near a cutter seat of the double-edged milling cutter for heavy cutting, and after the cleaning spray nozzle is externally connected with a water hose, water is supplied from the outside to the cleaning spray nozzle and washes the double-edged milling cutter for heavy cutting.

In view of the above related technologies, the inventor believes that the method for cleaning the double-edged surface milling cutter at the present stage can only wash the double-edged surface milling cutter through the cleaning nozzle, the washing direction is single, the double-edged surface milling cutter is not thoroughly cleaned, the back surface cannot be effectively cleaned, the cleaning efficiency of the double-edged surface milling cutter is low, and the cleaning effect is poor.

Disclosure of Invention

In order to improve heavy-cutting double-sided cutting-edge milling cutter cleaning efficiency and improve heavy-cutting double-sided cutting-edge milling cutter cleaning effect, the application provides a cleaning device for heavy-cutting double-sided cutting-edge milling cutter.

The application provides a pair of recut double-sided cutting edge face milling cutter's cleaning device adopts following technical scheme:

a cleaning device for a heavy-cutting double-sided blade milling cutter comprises a cleaning shell, cleaning liquid is filled in the cleaning shell, a running mechanism is installed in the cleaning shell, a cleaning mechanism is installed on the running mechanism, the heavy-cutting double-sided blade milling cutter is installed on the cleaning mechanism, and the cleaning mechanism is used for cleaning the heavy-cutting double-sided blade milling cutter;

the operating mechanism is further connected with a transmission mechanism, the transmission mechanism is provided with a circulating mechanism, and the circulating mechanism is used for circularly cleaning the cleaning liquid in the shell.

By adopting the technical scheme, the double-cutting double-sided blade milling cutter is arranged on the cleaning mechanism, the running mechanism works to drive the double-cutting double-sided blade milling cutter to rotate in the cleaning shell filled with cleaning liquid, and the double-cutting double-sided blade milling cutter is contacted with the cleaning liquid through rotation of the double-cutting double-sided blade milling cutter, so that the cleaning process of the double-cutting double-sided blade milling cutter is completed, the cleaning efficiency of the double-cutting double-sided blade milling cutter is improved, and the cleaning effect of the double-cutting double-sided blade milling cutter is improved.

Optionally, the cleaning shell includes a bottom shell, the bottom shell is mounted on a cleaning station of the heavy-cutting double-face cutting-edge milling cutter, a middle shell is fixedly mounted on the bottom shell, a cleaning cavity is formed in the middle shell, and a top shell is fixedly mounted on one end, far away from the bottom shell, of the middle shell.

By adopting the technical scheme, cleaning liquid is guided into the cleaning cavity from the water inlet cavity, the cleaning mechanism runs in the cleaning cavity under the drive of the running mechanism, the cleaning liquid in the cleaning cavity cleans the double-face cutting edge milling cutter, the cleaning liquid after cleaning enters the water outlet cavity from the cleaning cavity, the cleaning work is completed, the cleaning efficiency of the double-face cutting edge milling cutter is improved, and the cleaning effect of the double-face cutting edge milling cutter is improved.

Optionally, a water outlet cavity and an installation cavity are formed in the bottom shell, a partition plate is arranged between the water outlet cavity and the installation cavity, the partition plate is fixedly installed on the inner wall of the bottom shell, a plurality of uniformly arranged water outlet holes are formed in the bottom shell, and the water outlet holes are all communicated with the water outlet cavity;

a cleaning mechanism is arranged in the water outlet cavity;

and an operating mechanism is arranged in the mounting cavity.

Through adopting above-mentioned technical scheme, set up the baffle between play cavity and installation cavity, avoid in cleaning fluid gets into the installation cavity through a cavity, and then produce the damage to the running gear in the installation cavity, set up the apopore that the several evenly set up simultaneously on the casing of bottom, conveniently get into the interior cleaning fluid discharge of play cavity and realize the circulation.

Optionally, a plurality of water inlet holes are uniformly formed in the top shell, the water inlet holes are communicated with a water inlet cavity, the water inlet cavity is formed in the top shell, and a circulating mechanism is installed in the water inlet cavity;

the top shell is characterized in that sliding grooves are symmetrically formed in the inner wall of the top shell.

Through adopting above-mentioned technical scheme, set up the income water hole that the several evenly set up on top casing, through in the convenient clean liquid of income water cavity of intaking in the water hole, simultaneously through seting up the spout on top shells inner wall, realize spacing the drive of drive mechanism, guarantee drive mechanism's transmission stability.

Optionally, the cleaning mechanism includes a cleaning baffle, the cleaning baffle is disposed in the water outlet cavity, the cleaning baffle is fixedly mounted on the inner wall of the bottom shell, the cleaning baffle is provided with a plurality of first flow guide holes uniformly arranged, the plurality of first flow guide holes are all abutted with first flow guide stoppers, the first flow guide stoppers are fixedly sleeved on the first cleaning rotating shaft, the first cleaning rotating shaft is fixedly sleeved with an impeller, one end of the impeller sleeved on the first cleaning rotating shaft, which is far away from the first flow guide stoppers, is provided with a third straight gear, and the third straight gear is fixedly sleeved on the first cleaning rotating shaft;

a second flow guide hole is formed between the adjacent first flow guide holes, the second flow guide hole is formed in the cleaning baffle, a second flow guide stop block is abutted in the second flow guide hole, the second flow guide stop block is fixedly sleeved on a second cleaning rotating shaft, an impeller is fixedly sleeved on the second cleaning rotating shaft, a second driven bevel gear is arranged at one end, away from the second flow guide stop block, of the impeller sleeved on the second cleaning rotating shaft, and the second driven bevel gear is fixedly sleeved on the second cleaning rotating shaft;

first washing pivot and second wash the pivot and keep away from the one end of wasing the baffle and equally divide and establish respectively in stop collar, first washing pivot and second wash and all seted up in the pivot and be no less than two draw-in grooves, draw-in groove and stop collar joint, first washing pivot with equal fixedly connected with compression spring on the second washs the pivot bottom, compression spring corresponds keeps away from the one end of first washing pivot or corresponds and keeps away from the one end fixed connection that the pivot was washd to the second corresponds on the stop collar diapire.

Through adopting above-mentioned technical scheme, first washing pivot and second wash the pivot and rotate under the running gear drives, wash the rotation of pivot through first washing pivot and second and then drive and install and wash the epaxial heavy double-sided cutting edge face milling cutter rotation of pivot at first washing and second, improve the clean effect of heavy double-sided cutting edge face milling cutter through the rotation of heavy double-sided cutting edge face milling cutter in the cleaning solution body. Meanwhile, under the driving of the operating mechanism, the direction of the heavy-cutting double-sided cutting-edge milling cutter on the adjacent first cleaning rotating shaft and the second cleaning rotating shaft is opposite, so that the stress between the direction of the heavy-cutting double-sided cutting-edge milling cutter and the cleaning liquid is improved, and the cleaning effect of the heavy-cutting double-sided cutting-edge milling cutter is improved. Through set up two draw-in grooves in first washing pivot and second washing pivot, the joint between spacing sleeve and the draw-in groove simultaneously, realize wasing pivot horizontal position's control to first washing pivot and second, wash the level control of pivot and then control first water conservancy diversion dog through first washing pivot and second, the level adjustment of second water conservancy diversion dog and third straight-tooth gear and second driven bevel gear, through to realizing first water conservancy diversion dog, the level control of second water conservancy diversion dog, realize the closed control of opening in first water conservancy diversion hole and second water conservancy diversion hole, and the cleaning efficiency is improved.

Optionally, the operation mechanism includes the operation motor, the operation motor is installed in the installation cavity, fixed mounting has first operation pivot on the operation motor output, first operation pivot is rotated and is worn to establish on the baffle, one of the operation pivot is kept away from the operation motor serves and is served the fixed first spur gear that has cup jointed, first spur gear sets up in the cavity that goes out water.

Through adopting above-mentioned technical scheme, operation motor work and then drive first operation pivot and rotate, and first operation pivot rotates and then drives the first spur gear rotation that sets up in first operation pivot, and then drive the wiper mechanism work through first spur gear rotation, realizes the control work to wiper mechanism.

Optionally, the first operation rotating shaft is further fixedly sleeved with a first driving bevel gear, the first driving bevel gear is arranged in the water outlet cavity, the first driving bevel gear is engaged and connected with at least two first driven bevel gears which are uniformly distributed, the first driven bevel gears are fixedly sleeved on the second operation rotating shaft, the second operation rotating shaft is rotatably arranged on the supporting rod in a penetrating manner, and one end of the supporting rod, which is far away from the second operation rotating shaft, is fixedly arranged on the partition plate;

and a second driving bevel gear is fixedly sleeved at one end of the second operation rotating shaft, which is far away from the first driven bevel gear.

By adopting the technical scheme, the first operation rotating shaft rotates to drive the first driving bevel gear to rotate, the first driving main gear rotates to drive the first driven bevel gear to rotate, the first driven bevel gear rotates to drive the second operation rotating shaft to rotate, the second operation rotating shaft drives the second driving bevel gear to rotate, the second driving bevel gear drives the cleaning mechanism to work, and the cleaning work of the recutting double-edged face milling cutter arranged on the second cleaning rotating shaft is realized.

Optionally, a second spur gear is fixedly sleeved on the first operation rotating shaft and arranged in the installation cavity, fourth spur gears are symmetrically meshed with two sides of the second spur gear in a meshing mode, and a transmission mechanism is arranged on each fourth spur gear.

Through adopting above-mentioned technical scheme, set up the second straight-teeth gear, meshing fourth straight-teeth gear on the second straight-teeth gear rotates and then drives the fourth straight-teeth gear and rotates through the second straight-teeth gear, rotates and then realizes control and transmission to drive mechanism through the fourth straight-teeth gear.

Optionally, the transmission mechanism includes two symmetrically arranged transmission housings, the two transmission housings are fixedly mounted at two sides of the cleaning housing, a transmission cavity is formed in each of the two transmission housings, and the transmission cavity is communicated with the mounting cavity;

reciprocating lead screws are rotatably mounted in the two transmission cavities, the two reciprocating lead screws are fixedly arranged on two symmetrically-arranged fourth straight gears respectively in a penetrating mode, one ends, far away from the fourth straight gears, of the two reciprocating lead screws are connected with transmission plates in a threaded mode, transmission blocks are fixedly connected onto the transmission plates, the transmission blocks are slidably mounted in the sliding grooves, and circulating mechanisms are arranged on the two transmission plates;

two one end fixed mounting that the reciprocal lead screw was kept away from to the transmission cavity has two symmetrical gag lever posts that set up, two the gag lever post slides and wears to establish on the driving plate that corresponds.

Through adopting above-mentioned technical scheme, the fourth straight-tooth gear rotates and then drives reciprocating screw and rotate, rotates and then drives the driving plate through reciprocating screw and takes place reciprocating motion in reciprocating screw axis direction, and then drive the driving block through driving plate reciprocating motion and realize reciprocating motion in the spout, and then drive circulation mechanism work through the driving block removal, guarantee circulation mechanism normal work, realize recutting the cyclic utilization of the interior clean liquid of double-sided cutting edge face milling cutter's cleaning device.

Optionally, the circulating mechanism includes a reciprocating plate, the reciprocating plate is detachably and fixedly mounted on two symmetrically arranged transmission blocks, and the transmission blocks are arranged in the water inlet cavity;

the water inlet cavity is internally and fixedly provided with a water inlet plate, the water inlet plate is provided with a plurality of water inlet holes, one ends of the plurality of water inlet holes are communicated with the water inlet cavity, the ends of the plurality of water inlet holes, far away from the water inlet cavity, are communicated with the cleaning cavity, and the plurality of water inlet holes are internally provided with one-way valves;

the circulation mechanism further comprises a plurality of guide pipes, one ends of the guide pipes are correspondingly communicated with the plurality of water inlet holes respectively, and one ends of the guide pipes, far away from the water inlet holes, are correspondingly communicated with the plurality of water outlet holes respectively.

Through adopting above-mentioned technical scheme, set up circulation mechanism, through transmission piece reciprocating motion and then drive the reciprocating plate and realize reciprocating motion in the cavity of entrying, through the reciprocating plate to the removal of being close to the board of entrying, in the clean liquid that will entrying in the cavity of entrying passes through the inlet opening water conservancy diversion to the clean cavity, through the reciprocating plate to the removal of keeping away from the board of entrying, in the clean liquid that will go out the water cavity passes through the pipe water conservancy diversion to the cavity of entrying, realize the recycling of clean liquid. Set up the filter screen in the pipe, avoid wasing impurity entering clean liquid circulation, and then exert an influence to the inner structure of the cleaning device who heavily cuts two-sided cutting edge face milling cutter, simultaneously through set up the check valve in the inlet opening, prescribe a limit to the flow direction of clean liquid, avoid clean liquid to take place the backward flow at the circulation in-process.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the double-cutting double-sided blade milling cutter is arranged on the cleaning mechanism, the operation mechanism works to drive the double-cutting double-sided blade milling cutter to rotate in the cleaning shell filled with cleaning liquid, and the double-cutting double-sided blade milling cutter rotates to be in contact with the cleaning liquid, so that the cleaning process of the double-cutting double-sided blade milling cutter is completed, the cleaning efficiency of the double-cutting double-sided blade milling cutter is improved, and the cleaning effect of the double-cutting double-sided blade milling cutter is improved;

2. the first pivot of wasing and the pivot is washd to the second, and first pivot of wasing and the second is washd the pivot and is rotated under the operating device drives, washs the rotation of pivot through first pivot of wasing and second and then drives and install and wash the epaxial heavy double-sided cutting edge face milling cutter rotation of commentaries on classics in first washing pivot and second, improves the clean effect of heavy double-sided cutting edge face milling cutter through the rotation of heavy double-sided cutting edge face milling cutter in the cleaning solution body. Meanwhile, under the driving of the operating mechanism, the direction of the heavy-cutting double-sided cutting-edge milling cutter on the adjacent first cleaning rotating shaft and the second cleaning rotating shaft is opposite, so that the stress between the direction of the heavy-cutting double-sided cutting-edge milling cutter and the cleaning liquid is improved, and the cleaning effect of the heavy-cutting double-sided cutting-edge milling cutter is improved. Two clamping grooves are formed in the first cleaning rotating shaft and the second cleaning rotating shaft, and meanwhile the limiting sleeve is clamped with the clamping grooves, so that the horizontal positions of the first cleaning rotating shaft and the second cleaning rotating shaft are controlled, the first flow guide stop block, the second flow guide stop block, the third straight gear and the second driven bevel gear are controlled through the horizontal height control of the first cleaning rotating shaft and the second cleaning rotating shaft, the opening and closing control of the first flow guide hole and the second flow guide hole is realized through the horizontal height control of the first flow guide stop block and the second flow guide stop block, and the cleaning efficiency is improved;

3. set up circulation mechanism, through transmission piece reciprocating motion and then drive the reciprocating plate and realize reciprocating motion in the cavity of entrying, through the reciprocating plate to being close to the removal of board of entrying, in the clean liquid that will entrying in the cavity leads to the cleaning chamber through the inlet opening water conservancy diversion, through the reciprocating plate to keeping away from the removal of board of entrying, in the clean liquid that will go out the water chamber passes through the pipe water conservancy diversion to the cavity of entrying, realizes the recycling of clean liquid. Set up the filter screen in the pipe, avoid wasing impurity entering clean liquid circulation, and then exert an influence to the inner structure of the cleaning device who heavily cuts two-sided cutting edge face milling cutter, simultaneously through set up the check valve in the inlet opening, prescribe a limit to the flow direction of clean liquid, avoid clean liquid to take place the backward flow at the circulation in-process.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a schematic diagram of the internal structure of an embodiment of the present application;

FIG. 3 is a schematic view of a circulation mechanism according to an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a cleaning mechanism according to an embodiment of the present application;

FIG. 5 is an enlarged view of FIG. 4 in an embodiment of the present application;

FIG. 6 is a schematic structural diagram of a transmission mechanism according to an embodiment of the present application;

FIG. 7 is a schematic view of the internal structure of the transmission mechanism according to the embodiment of the present application;

fig. 8 is a schematic view of the internal structure of the spacing sleeve according to the embodiment of the present application.

Description of reference numerals: 1. cleaning the shell; 11. a top housing; 111. a water inlet cavity; 112. a water inlet hole; 113. a chute; 12. a middle housing; 121. cleaning the cavity; 13. a bottom housing; 131. a water outlet cavity; 132. a partition plate; 133. installing a cavity; 134. a water outlet hole; 2. an operating mechanism; 21. operating the motor; 22. a first straight gear; 23. a second spur gear; 24. a first operation rotating shaft; 25. a first drive bevel gear; 26. a first driven bevel gear; 27. a second operating shaft; 28. a support bar; 29. a second drive bevel gear; 210. a fourth spur gear; 3. a cleaning mechanism; 31. cleaning the baffle; 311. a first flow guide hole; 312. a first diversion block; 313. a second flow guide hole; 314. a second diversion block; 32. a first cleaning rotating shaft; 33. a third spur gear; 34. an impeller; 35. a second cleaning rotating shaft; 36. a second driven bevel gear; 37. a limiting sleeve; 38. a compression spring; 39. a card slot; 4. a transmission mechanism; 41. a transmission housing; 42. a transmission cavity; 43. a reciprocating screw; 44. a drive plate; 45. a transmission block; 46. a limiting rod; 5. a circulating mechanism; 51. a conduit; 52. a reciprocating plate; 53. a water intake plate; 54. a water inlet hole.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses a cleaning device for a recutting double-sided blade face milling cutter.

Referring to fig. 1 and 2, the cleaning device for the recutting double-edged surface milling cutter comprises a cleaning shell 1, cleaning liquid is filled in the cleaning shell 1, an operating mechanism 2 is installed in the cleaning shell 1, two sides of the operating mechanism 2 are connected with transmission mechanisms 4, the transmission mechanisms 4 are symmetrically arranged on two sides of the cleaning shell, and circulating mechanisms 5 are installed on the two symmetrically arranged transmission mechanisms 4; the running mechanism 2 is also provided with a cleaning mechanism 3, and the cleaning mechanism 3 is provided with a recutting double-sided blade face milling cutter.

The utility model provides a heavily cut two-sided cutting face milling cutter's cleaning device during operation, at first install heavily cut two-sided cutting face milling cutter on wiper mechanism 3, later start running gear 2, running gear 2 drives wiper mechanism 3 work, it rotates and then drives the rotation of installing the heavy cut two-sided cutting face milling cutter on wiper mechanism 3 through wiper mechanism 3, it realizes wasing to rotate through heavily cutting two-sided cutting face milling cutter, drive mechanism 4 work through running gear 2 simultaneously, 4 work of drive mechanism drive circulation mechanism 5 works, 5 works of circulation mechanism and then makes the clean liquid in wasing casing 1 realize the circulation that flows, and then improve heavily cut two-sided cutting face milling cutter cleaning efficiency, improve heavily cut two-sided cutting face milling cutter cleaning performance.

Referring to fig. 2 and 3, the cleaning housing 1 includes a bottom housing 13, the bottom housing 13 is installed on a double-edged milling cutter cleaning station, a water outlet cavity 131 and an installation cavity 133 are formed in the bottom housing 13, a partition 132 is disposed between the water outlet cavity 131 and the installation cavity 133, the partition 132 is fixedly installed in the bottom housing 13, the periphery of the partition 132 is tightly attached to the inner wall of the bottom housing 13, a plurality of water outlets 134 are uniformly formed in the wall of the bottom housing 13, the number of the water outlets 134 is four, the four water outlets 134 are all communicated with the water outlet cavity 131, a middle housing 12 is fixedly installed on one end of the bottom housing 13 far away from the installation cavity 133, a cleaning cavity 121 is formed in the middle housing 12, a top housing 11 is fixedly installed on one end of the middle housing 12 far away from the bottom housing 13, a water inlet cavity 111 is formed in the top housing 11, a plurality of water inlet holes 112 are uniformly formed in the wall of the top housing 11, the number of the water inlet holes 112 is the same as the number of the water outlets 134, the four water inlet holes 112 are all communicated with the water inlet cavity 111, and chutes 113 are symmetrically formed in two sides of the inner wall of the top housing 11.

The utility model provides a cleaning device during operation of recutting two-sided cutting edge face milling cutter, under circulation mechanism 5's work, in entering into water cavity 111 with cleaning fluid through inlet 112, cleaning fluid is leading-in to clean cavity 121 in from going into water cavity 111, wiper mechanism 3 moves in the cleaning cavity under running gear 2's drive, recutting two-sided cutting edge face milling cutter cleans, cleaning fluid that the washing was accomplished gets into water outlet cavity 131, discharge through apopore 134, accomplish the cleaning work.

Referring to fig. 2 and 4, the operating mechanism 2 includes an operating motor 21, the operating motor 21 is fixedly installed in an installation cavity 133, a first operating rotating shaft 24 is fixedly connected to an output shaft of the operating motor 21, the first operating rotating shaft 24 is rotatably installed on a partition 132 in a sleeved manner, one end of the first operating rotating shaft 24, which is far away from the operating motor 21, is disposed in a water outlet cavity 131, a first straight gear 22 is fixedly sleeved on the first operating rotating shaft 24 disposed in the water outlet cavity 131, a first driving bevel gear 25 is also fixedly sleeved on the first operating rotating shaft 24 disposed in the water outlet cavity 131, the first straight gear 22 is disposed on one side of the first driving bevel gear 25, which is far away from the installation cavity 133, a plurality of first driven bevel gears 26 are uniformly engaged on the peripheral side of the first driving bevel gear 25, the number of the first driven bevel gears 26 is three, the plurality of first driven bevel gears 26 are respectively sleeved and fixed on a plurality of second operating rotating shafts 27, the plurality of second operating rotating shafts 27 are respectively rotatably installed on a plurality of support rods 28, the plurality of support rods 28 are all fixedly installed on the partition 132, the number of the second operating rotating shafts 27 and the same as the number of the first driven bevel gears 26, and one end of the second operating bevel gears 29 is fixedly installed on the second driven bevel gears 26. The second spur gear 23 is fixedly sleeved on the first operation rotating shaft 24 arranged in the mounting cavity 133, and the rotating shafts of the first operation rotating shaft 24, the first spur gear 22, the first drive bevel gear 25 and the second spur gear 23 are all the same axis. The two sides of the second straight gear 23 are symmetrically engaged with fourth straight gears 210, and the two fourth straight gears 210 are provided with transmission mechanisms 4.

When the running mechanism 2 works, the running motor 21 works and drives the first running rotating shaft 24 to rotate, the first running rotating shaft 24 rotates and then drives the first straight gear 22 which is coaxial with the first running rotating shaft 24, the first driving bevel gear 25 and the second straight gear 23 rotate, the first driving bevel gear 25 rotates and drives the first driven bevel gear 26 to rotate, the first driven bevel gear 26 rotates and then drives the second running rotating shaft 27 to rotate, the second running rotating shaft 27 rotates and drives the second driving bevel gear 29 to rotate, when the first straight gear 22 and the second driving bevel gear 29 rotate, the cleaning mechanism 3 is driven to work, and the cleaning work of the double-face milling cutter is realized through the work of the cleaning mechanism 3. The first operation rotating shaft 24 rotates and simultaneously drives the second straight gear 23 to rotate, the second straight gear 23 rotates and further drives the two fourth straight gears 210 to rotate, the fourth straight gears 210 rotate and simultaneously drive the transmission mechanism 4 to work, and normal operation of the cleaning device for the double-face recutting milling cutter is achieved.

Referring to fig. 4, 5 and 8, the cleaning mechanism 3 includes a cleaning baffle 31, the cleaning baffle 31 is disposed in the cleaning cavity 121, the cleaning baffle 31 is fixedly mounted on the inner wall of the middle housing 12, the peripheral side of the cleaning baffle 31 is tightly attached to the inner wall of the middle housing 12, the cleaning baffle 31 is provided with a plurality of first guiding holes 311 uniformly disposed, the number of the first guiding holes 311 is three, the cleaning baffle 31 is further provided with a plurality of second guiding holes 313 uniformly disposed, the number of the second guiding holes 313 is the same as the number of the first guiding holes 311, the first guiding holes 311 and the second guiding holes 313 are staggered on the cleaning baffle 31, the inner walls of the first guiding holes 311 and the second guiding holes 313 are both in a circular truncated cone shape, one ends of the first guiding holes 311 and the second guiding holes 313 are both communicated with the cleaning cavity 121, one ends of the first guiding holes 311 and the second guiding holes 313 far away from the cleaning cavity 121 are communicated with the water outlet cavity 131, and the apertures of the ends of the first guiding holes 311 and the second guiding holes 313 communicated with the cleaning cavity 121 are smaller than the apertures of the guiding holes 311 and the water outlet cavity 131. A first flow guide stop block 312 is abutted in the first flow guide holes 311, the first flow guide stop block 312 is tightly attached to the first flow guide holes 311, the first cleaning rotating shafts 32 are fixedly arranged on the first flow guide stop blocks 312 in a penetrating manner, the first cleaning rotating shafts 32 are fixedly sleeved with third straight gears 33, and the tooth shapes of the third straight gears 33 are matched with the tooth shapes of the first straight gears 22. A second flow guide block 314 is abutted to the plurality of second flow guide holes 313, the second flow guide block 314 is tightly attached to the second flow guide holes 313, a second cleaning rotating shaft 35 is fixedly arranged on the plurality of second flow guide blocks 314 in a penetrating mode, a second driven bevel gear 36 is fixedly sleeved on the plurality of second cleaning rotating shafts 35, and the second driven bevel gear 36 is matched with the second driving bevel gear 29 in a tooth form. The recutting double-sided blade milling cutter to be cleaned is fixedly arranged at the tops of the first cleaning rotating shaft 32 and the second cleaning rotating shaft 35. The first cleaning rotating shaft 32 and the second cleaning rotating shaft 35 are fixedly sleeved with impellers 34, and the impellers 34 are respectively and correspondingly arranged below the third straight gear 33 and the second driven bevel gear 36. First washing pivot 32 and second wash pivot 35 bottom and all seted up two draw-in grooves 39, first washing pivot 32 and second wash pivot 35 bottom and equally divide and do not slide and wear to establish in several stop collar 37, the equal fixed mounting of several stop collar 37 is on baffle 132, draw-in groove 39 and stop collar 37 joint, first washing pivot 32 and second wash pivot 35 bottom and equally divide respectively fixedly connected with compression spring 38 one end, compression spring 38 other end fixed connection is on the 37 diapire that correspond.

When the double-sided cutting-edge milling cutter needs to be cleaned, firstly, the double-sided cutting-edge milling cutter to be cleaned is fixedly installed at one end, far away from the baffle, of the first cleaning rotating shaft 32 and one end, far away from the baffle, of the second cleaning rotating shaft 35, the double-sided cutting-edge milling cutter to be cleaned is sequentially installed on the first cleaning rotating shaft 32 and the second cleaning rotating shaft 35 when the double-sided cutting-edge milling cutter is installed, the first cleaning rotating shaft 32 and the second cleaning rotating shaft 35 provided with the double-sided cutting-edge milling cutter move towards the direction close to the limiting sleeve 37, the clamping groove 39 far away from the partition plate 132 is clamped with the limiting sleeve 37, the compression spring 38 is extruded under the stress, the corresponding first flow guide block 312 is separated from the first flow guide hole 311, the second flow guide block 314 is separated from the second flow guide hole 313, and the corresponding first flow guide hole 311 and second flow guide hole 313 are in an opening state. The third spur gear 33 correspondingly installed on the first cleaning rotating shaft 32 is meshed with the first spur gear 22, the second driven bevel gear 36 correspondingly installed on the second cleaning rotating shaft 35 is meshed with the second driving bevel gear 29, then the operating mechanism 2 is started, the first spur gear 22 and the first driving bevel gear 25 rotate, the third spur gear 33 is driven to rotate by the rotation of the first spur gear 33, the first cleaning rotating shaft 32 is driven to rotate by the rotation of the third spur gear 33, the double-cutting double-sided blade face milling cutter correspondingly installed on the first cleaning rotating shaft 32 and the impeller 34 are driven to rotate by the rotation of the first cleaning rotating shaft 32, the cleaning liquid is driven to flow to the double-cutting double-sided blade face milling cutter by the rotation of the impeller 34, and meanwhile, the double-cutting double-sided blade face milling cutter rotates, and cleaning is realized in the cleaning liquid body. The rotation of the first driving bevel gear 25 drives the second driving bevel gear 29 to rotate through the linkage relationship, the rotation of the second driving bevel gear 29 drives the second driven bevel gear 36 to rotate, the second driven bevel gear 36 drives the second cleaning rotating shaft 35 to rotate while rotating, the second cleaning rotating shaft 35 rotates to further drive the recut double-sided blade milling cutter and the impeller 34 which are correspondingly installed on the second cleaning rotating shaft 35 to rotate, the impeller 34 rotates to drive cleaning liquid to flow to the recut double-sided blade milling cutter, and meanwhile, the recut double-sided blade milling cutter rotates, and cleaning is achieved in the cleaning liquid body. The direction of the heavy-cutting double-sided cutting-edge milling cutter arranged on the adjacent first cleaning rotating shaft 32 and the second cleaning rotating shaft 35 is opposite, so that the stress between the direction of the heavy-cutting double-sided cutting-edge milling cutter and the cleaning liquid is improved, and the cleaning effect of the heavy-cutting double-sided cutting-edge milling cutter is improved.

Referring to fig. 6 and 7, drive mechanism 4 includes two transmission housing 41, two transmission housing 41 are installed respectively in the 1 left and right sides of washing casing, transmission cavity 42 has all been seted up in two transmission housing 41, two transmission cavity 42 communicate with installation cavity 133 both sides respectively, be provided with reciprocal lead screw 43 in the transmission cavity 42, reciprocal lead screw is fixed to be worn to establish on fourth spur gear 210, reciprocal lead screw 43 rotates and installs in transmission housing 41, the one end that transmission cavity 42 was kept away from to reciprocal lead screw is worn to establish on driving plate 44, driving plate 44 and reciprocal lead screw 43 threaded connection, the gag lever post 46 that two symmetries set up is cup jointed in the slip on the one end that fourth spur gear 210 was kept away from to driving plate 44, two gag lever posts 46 are equal fixed mounting in transmission housing 41. Fixed mounting has transmission block 45 on the driving plate 44, and transmission block 45 slides and sets up in spout 113, and one side butt that transmission block 45 was installed to driving plate 44 is on the top casing 11 inner wall that is provided with spout 113, and the driving plate 44 area is far greater than the 113 areas of spout, both, when transmission block 45 slides to extreme position in spout 113, driving plate 44 covers all the time and establishes and closely laminate on spout 113. Two transmission blocks 45 are connected to the circulating mechanism 5.

Drive mechanism 4 work when the 2 works of operating device, second spur gear 23 rotates and then drives two fourth spur gears 210 and rotates, drive the reciprocal lead screw 43 of drive and rotate when fourth spur gear 210 rotates, under the limiting displacement of gag lever post 46, reciprocal lead screw 43 rotates and then drives driving plate 44 and takes place reciprocating motion in reciprocal lead screw 43 axis direction, drive driving plate 44 reciprocating motion simultaneously drives transmission piece 45 and takes place reciprocating motion along 113 guidance directions of spout in spout 113, and reciprocating motion and then drive 5 works of circulating mechanism through transmission piece 45.

Referring to fig. 1 and 3, the circulation mechanism 5 includes a plurality of pipes 51, the number of the pipes 51 is the same as that of the water inlet holes 112, one end of each pipe 51 is communicated with the water inlet hole 112, the other end of each pipe 51 is communicated with the water outlet hole 134, and a filter screen is installed in each pipe 51. The circulating mechanism 5 further comprises a reciprocating plate 52, two ends of the reciprocating plate 52 are fixedly mounted on the two transmission blocks 45, the reciprocating plate 52 is fixedly connected with the transmission blocks 45 through bolts, the reciprocating plate 52 is arranged in the water inlet cavity 111, and the periphery of the reciprocating plate 52 is tightly attached to the inner wall of the top shell 11. The circulating mechanism 5 further comprises a water inlet plate 53, the water inlet plate 53 is fixedly mounted on the inner wall of the top shell 11, the periphery of the water inlet plate 53 is tightly attached to the inner wall of the top shell 11, a plurality of water inlet holes 54 are formed in the water inlet plate 53, one-way valves are arranged in the water inlet holes 54, and the one-way valves are used for guiding cleaning liquid to the cleaning cavity 121 from the water inlet cavity 111.

The transmission mechanism 4 works to drive the circulation mechanism 5 to work, the transmission block 45 reciprocates in the chute 113 and drives the reciprocating plate 52 to reciprocate in the water inlet cavity 111, when the reciprocating plate 52 moves towards the direction close to the water inlet plate 53, cleaning liquid in the water inlet cavity 111 is guided into the cleaning cavity 121 through the water inlet 54, when the reciprocating plate 52 moves towards the direction far away from the water inlet plate 53, the cleaning liquid in the water outlet cavity 131 is guided into the water inlet cavity 111 through the guide pipe 51 by the reciprocating plate 52, the cleaning liquid is recycled, meanwhile, the cleaning liquid entering the guide pipe 51 is filtered by the filter screen, the circulation process that impurities enter the cleaning liquid is avoided, and further, the influence is generated on the internal structure of the cleaning device for the double-sided milling cutter.

The implementation principle of the cleaning device for the recutting double-face blade face milling cutter in the embodiment of the application is as follows: firstly install heavy-cutting double-sided blade face milling cutter on wiper mechanism 3, after adjusting wiper mechanism 3, start running gear 2, running gear 2 drives wiper mechanism 3 work, realize the washing to heavy-cutting double-sided blade face milling cutter, drive 4 work of drive mechanism through running gear 2 simultaneously, 4 work of drive mechanism drive circulation mechanism 5 work, circulation mechanism 5 work and then make the clean liquid in wasing casing 1 realize the circulation that flows, and then improve heavy-cutting double-sided blade face milling cutter cleaning efficiency, improve heavy-cutting double-sided blade face milling cutter cleaning performance.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides a clean device of recut double-sided cutting edge face milling cutter which characterized in that: the double-cutting double-face milling cutter cleaning device comprises a cleaning shell (1), wherein cleaning liquid is filled in the cleaning shell (1), an operating mechanism (2) is installed in the cleaning shell (1), a cleaning mechanism (3) is installed on the operating mechanism (2), a double-cutting double-face cutting face milling cutter is installed on the cleaning mechanism (3), and the cleaning mechanism (3) is used for cleaning the double-cutting double-face cutting face milling cutter;

the operating mechanism (2) is also connected with a transmission mechanism (4), the transmission mechanism (4) is provided with a circulating mechanism (5), and the circulating mechanism (5) is used for circularly cleaning the cleaning liquid in the shell (1);

the cleaning shell (1) comprises a bottom shell (13), the bottom shell (13) is installed on a double-face milling cutter re-cutting cleaning station, a middle shell (12) is fixedly installed on the bottom shell (13), a cleaning cavity (121) is formed in the middle shell (12), and a top shell (11) is fixedly installed at one end, far away from the bottom shell (13), of the middle shell (12);

a water outlet cavity (131) and an installation cavity (133) are formed in the bottom shell (13), a partition plate (132) is arranged between the water outlet cavity (131) and the installation cavity (133), the partition plate (132) is fixedly installed on the inner wall of the bottom shell (13), a plurality of water outlet holes (134) are uniformly formed in the bottom shell (13), and the water outlet holes (134) are communicated with the water outlet cavity (131);

a cleaning mechanism (3) is arranged in the water outlet cavity (131);

the installation cavity (133) is internally provided with an operating mechanism (2);

the cleaning mechanism (3) comprises a cleaning baffle (31), the cleaning baffle (31) is arranged in a water outlet cavity (131), the cleaning baffle (31) is fixedly installed on the inner wall of a bottom shell (13), a plurality of first guide holes (311) which are uniformly formed are formed in the cleaning baffle (31), a plurality of first guide stoppers (312) are abutted to the first guide holes (311), the first guide stoppers (312) are fixedly sleeved on a first cleaning rotating shaft (32), an impeller (34) is fixedly sleeved on the first cleaning rotating shaft (32), a third straight gear (33) is arranged at one end, far away from the first guide stopper (312), of the impeller (34) sleeved on the first cleaning rotating shaft (32), and the third straight gear (33) is fixedly sleeved on the first cleaning rotating shaft (32);

a second guide hole (313) is formed between the adjacent first guide holes (311), the second guide hole (313) is formed in the cleaning baffle (31), a second guide block (314) is abutted in the second guide hole (313), the second guide block (314) is fixedly sleeved on a second cleaning rotating shaft (35), an impeller (34) is fixedly sleeved on the second cleaning rotating shaft (35), a second driven bevel gear (36) is arranged at one end, far away from the second guide block (314), of the impeller (34) sleeved on the second cleaning rotating shaft (35), and the second driven bevel gear (36) is fixedly sleeved on the second cleaning rotating shaft (35);

first washing pivot (32) and second wash pivot (35) and keep away from the one end of wasing baffle (31) and equally divide and establish respectively in spacing sleeve (37), first washing pivot (32) and second wash and all seted up on pivot (35) and be no less than two draw-in grooves (39), draw-in groove (39) and spacing sleeve (37) joint, first washing pivot (32) with equal fixedly connected with compression spring (38) on second washing pivot (35) bottom, compression spring (38) correspond and keep away from the one end of first washing pivot (32) or correspond and keep away from the one end fixed connection that the second washd pivot (35) corresponds on spacing sleeve (37) diapire.

2. The cleaning apparatus for a recut double-sided face mill as claimed in claim 1, wherein: a plurality of water inlet holes (112) are uniformly formed in the top shell (11), the water inlet holes (112) are communicated with a water inlet cavity (111), the water inlet cavity (111) is formed in the top shell (11), and a circulating mechanism (5) is installed in the water inlet cavity (111);

the inner wall of the top shell (11) is symmetrically provided with sliding grooves (113).

3. The cleaning apparatus for a recut double-sided face mill as claimed in claim 1, wherein: running gear (2) are including operation motor (21), install in installation cavity (133) operation motor (21), fixed mounting has first operation pivot (24) on operation motor (21) output, first operation pivot (24) are rotated and are worn to establish on baffle (132), the operation pivot is kept away from one of operation motor (21) and is served fixed the cup jointing and have been had first spur gear (22), first spur gear (22) set up in a water cavity.

4. A cleaning apparatus for a recut double-sided face mill as claimed in claim 3, wherein: the first operation rotating shaft (24) is fixedly sleeved with a first driving bevel gear (25), the first driving bevel gear (25) is arranged in the water outlet cavity, at least two first driven bevel gears (26) which are uniformly distributed are connected to the first driving bevel gear (25) in a meshing manner, the first driven bevel gears (26) are fixedly sleeved on a second operation rotating shaft (27), the second operation rotating shaft (27) is rotatably arranged on a supporting rod (28) in a penetrating manner, and one end of the supporting rod (28) far away from the second operation rotating shaft (27) is fixedly arranged on a partition plate (132);

and a second driving bevel gear (29) is fixedly sleeved at one end of the second operation rotating shaft (27) far away from the first driven bevel gear (26).

5. The cleaning apparatus for a recut double-sided blade face mill as claimed in claim 4, wherein: still fixed cover has connected second straight-teeth gear (23) on first operation pivot (24), second straight-teeth gear (23) set up in installation cavity (133), second straight-teeth gear (23) bilateral symmetry meshing is connected with fourth straight-teeth gear (210), two be provided with drive mechanism (4) on fourth straight-teeth gear (210).

6. The device for cleaning a recut double-sided face mill as claimed in claim 5, wherein: the transmission mechanism (4) comprises two transmission shells (41) which are symmetrically arranged, the two transmission shells (41) are fixedly arranged on two sides of the cleaning shell (1), transmission cavities (42) are formed in the two transmission shells (41), and the transmission cavities (42) are communicated with the mounting cavity (133);

reciprocating lead screws (43) are rotatably mounted in the two transmission cavities (42), the two reciprocating lead screws (43) are respectively and fixedly arranged on two fourth straight gears (210) which are symmetrically arranged in a penetrating manner, one ends of the two reciprocating lead screws (43) far away from the fourth straight gears (210) are in threaded connection with transmission plates (44), transmission blocks (45) are fixedly connected onto the transmission plates (44), the transmission blocks (45) are slidably mounted in sliding grooves (113), and circulating mechanisms (5) are arranged on the two transmission plates (44);

two one end fixed mounting that transmission cavity (42) kept away from reciprocal lead screw (43) has two gag lever posts (46) that the symmetry set up, two gag lever post (46) slide to wear to establish on corresponding driving plate (44).

7. The device for cleaning a recut double-sided face mill as claimed in claim 6, wherein: the circulating mechanism (5) comprises a reciprocating plate (52), the reciprocating plate (52) is detachably and fixedly arranged on two symmetrically-arranged transmission blocks (45), and the transmission blocks (45) are arranged in the water inlet cavity (111);

a water inlet plate (53) is fixedly arranged in the water inlet cavity (111), a plurality of water inlet holes (54) are formed in the water inlet plate (53), one ends of the water inlet holes (54) are communicated with the water inlet cavity (111), one ends of the water inlet holes (54) far away from the water inlet cavity (111) are communicated with the cleaning cavity (121), and one-way valves are arranged in the water inlet holes (54);

the circulation mechanism (5) further comprises a plurality of guide pipes (51), one ends of the guide pipes (51) are correspondingly communicated with the plurality of water inlet holes (112), and one ends, far away from the water inlet holes (112), of the guide pipes (51) are correspondingly communicated with the plurality of water outlet holes (134).

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