CN112247658A - Chip removal system of numerical control scraping and boring tumbling mill - Google Patents

Abstract

The invention discloses a chip removal system of a numerical control scraping and boring tumbling mill, which relates to the technical field of chip removal systems, and particularly relates to a chip removal system of a numerical control scraping and boring tumbling mill. This boring tumbling mill chip removal system is scraped in numerical control, through the inboard swing joint symmetric distribution's at the lathe shell roller bearing, and at the outside swing joint track of roller bearing to at the outside swing joint evenly distributed's of track the groove that gathers, at the top swing joint positioning fixture block of spacing cardboard, utilize positioning fixture block to fix the baffle box steadily in the spout at spacing cardboard top, can guarantee that the device can be with the effectual collection of metal sweeps.

Description

Chip removal system of numerical control scraping and boring tumbling mill

Technical Field

The invention relates to the technical field of chip removal systems, in particular to a chip removal system of a numerical control scraping and boring tumbling mill.

Background

Scrape the boring tumbling mill and possess and realize rough boring to the cylinder hole, the board fine boring, fine boring and the disposable processing completion of roll-in, relative and original device, the production efficiency of scraping the boring tumbling mill is higher, the device is applicable to the equipment of processing cylindrical deep hole work piece simultaneously, various mechanical hydraulic cylinder, cylindrical through-hole blind hole and shoulder hole etc, scrape the boring tumbling mill simultaneously and can produce more metal sweeps in the in-process that carries out the operation, influence to the device in order to reduce metal sweeps, consequently scrape the boring tumbling mill and just need a numerical control to scrape boring tumbling mill chip removal system carrying out the process of operation.

At present, a plurality of types of chip removal machines for a barreling machine tool are arranged on the surface of the barrel, but the metal scraped from the top of the barreling machine tool is difficult to collect in the operation process of the device, the metal ash scraped from the top of the barreling machine tool is often splashed, so that the metal waste chips influence the working environment, meanwhile, the metal waste chips are difficult to effectively collect by the chip removal machines, and after the metal waste chips are collected, the cooling liquid mixed in the metal is difficult to treat, and the chip removal machines are not beneficial to the classification treatment of subsequent operators, so that a chip removal system of the numerically-controlled barreling machine tool is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a chip removal system of a numerical control scraping and boring tumbling mill, which solves the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: a chip removal system of a numerical control scraping and boring tumbling mill comprises a machine tool shell, wherein two sides of the outer part of the machine tool shell are movably connected with symmetrically distributed fixed clamping pieces, the top of the machine tool shell is movably connected with oppositely distributed protection sloping platforms, the inner side of the machine tool shell is movably connected with symmetrically distributed rolling shafts, two ends of the outer part of each rolling shaft are movably connected with symmetrically distributed limiting clamping plates, the tops of the limiting clamping plates are movably connected with symmetrically distributed positioning clamping blocks, the tops of the positioning clamping blocks are fixedly connected with guide grooves, the outer parts of the rolling shafts are movably connected with tracks, the outer parts of the tracks are fixedly connected with uniformly distributed aggregate grooves, one side of the outer parts of the limiting clamping plates is fixedly connected with an external machine box, the top of the inner cavity of the external machine box is fixedly connected with a water storage box, and the bottom, the middle part fixedly connected with of external machine incasement chamber divides the leak source, the inside fixedly connected with who divides the leak source filters the sieve, the bottom swing joint of external machine incasement chamber has the liquid gathering box and the chip removal case of symmetric distribution, and the inboard middle part fixedly connected with filter plate of chip removal incasement.

Optionally, the notch of symmetric distribution is seted up to the outside both sides of lathe shell, the degree of depth of the outside both sides notch of lathe shell increases from last to down in proper order, the diaphragm has been seted up to the inboard of fixed fastener, the inboard diaphragm of fixed fastener and bottom respectively with the outside mutual adaptation of two notches of lathe shell.

Optionally, the bottom of the protection ramp is provided with a T-shaped sliding block, the two sides of the top of the machine tool shell are provided with i-shaped sliding grooves, and the T-shaped sliding block at the bottom of the protection ramp corresponds to the i-shaped sliding grooves on the two sides of the top of the machine tool shell.

Optionally, the cylindrical holes symmetrically distributed are formed in the inner side of the machine tool shell, the two ends of the roller respectively penetrate through and extend to the outer portions of the left and right side limiting clamping plates, the two ends of the outer portion of the roller penetrate through the cylindrical holes in the inner side of the machine tool shell, and the inner side of each limiting clamping plate is provided with an inwards-recessed rectangular notch.

Optionally, the outside of track is provided with evenly distributed's recess, gather the notch that the symmetric distribution was seted up to the both sides of silo bottom, and gather the notch of silo bottom both sides and the outside recess of track mutual adaptation, gather the top of silo and seted up trapezoidal recess.

Optionally, an inward-concave sliding groove is formed in the top of the limiting clamping plate, a downward-convex rectangular sliding block is formed in the bottom of the positioning clamping block, the rectangular sliding block at the bottom of the positioning clamping block corresponds to the sliding groove in the top of the limiting clamping plate, a groove hole with an inclined slope surface is formed in the inner side of the guide chute, and the positioning clamping blocks are evenly distributed on two sides of the bottom of the guide chute.

Optionally, the connecting pipe mouth of the outside fixedly connected with symmetric distribution at water storage tank top, the rectangle shrinkage pool has been seted up to the inside of lathe shell, the top of shower nozzle passes and extends to the inside of water storage tank, the cylindrical atomizer of bottom fixedly connected with of shower nozzle.

Optionally, a slope-shaped slotted hole is formed in the inner side of the leakage dividing box, the bottom end of the filtering sieve plate penetrates through and extends to the bottom of the leakage dividing box, fine and dense mesh holes which are uniformly distributed are formed in the bottom surface of the filtering sieve plate, a liquid discharge pipe is fixedly connected to one side of the outer portion of the chip removal box, and holes which are uniformly distributed are formed in the filter plate.

The invention provides a chip removal system of a numerical control scraping and boring tumbling mill, which has the following beneficial effects:

1. this boring tumbling mill chip removal system is scraped in numerical control, through the notch of seting up the symmetric distribution in the outside both sides of lathe shell, and set up the spout of symmetric distribution at the top of lathe shell, and in the spout at the outside notch of lathe shell and top respectively swing joint fixed fastener and protection sloping platform, will fix the fastener buckle in the outside recess of protection sloping platform simultaneously, when can having guaranteed that the device carries out metal sweeps and get rid of, the metal sweeps that splashes can be by effectual separation, and then solved the problem that the metal sweeps that current device can not collect that splashes.

2. This boring tumbling mill chip removal system is scraped in numerical control, through the inboard swing joint symmetric distribution's at the lathe shell roller bearing, and at the outside swing joint track of roller bearing, and in the gathering groove of the outside swing joint evenly distributed of track, simultaneously at the top swing joint positioning fixture block of spacing cardboard, utilize positioning fixture block to fix the baffle box in the spout at spacing cardboard top steadily, can guarantee that the device can be with the effectual collection of metal sweeps, and then avoided the metal sweeps to fall and scraping the inside problem of boring tumbling mill.

3. This boring tumbling mill chip removal system is scraped to numerical control, divide the leaking case through the inside fixed connection at external quick-witted case, and at the filtration sieve that divides the inside fixed connection slope of leaking case to at the bottom swing joint symmetric distribution's of external quick-witted incasement chamber liquid gathering case and chip removal case, and utilize the filter capacity of filtering sieve and filter plate, can guarantee that the coolant liquid in the metal sweeps can be by effectual separation and collection, and then solved current device can not be with the problem of metal sweeps effective processing.

Drawings

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

FIG. 2 is a schematic side-view, bottom-view, of the present invention;

FIG. 3 is a partial schematic view of the present invention;

FIG. 4 is a schematic view of the structure of the present invention with partial dispersion;

fig. 5 is a schematic view of the internal structure of the present invention.

In the figure: 1. a machine tool housing; 2. fixing the clamping piece; 3. a protection ramp; 4. a roller; 5. a limiting clamping plate; 6. a crawler belt; 7. a material gathering groove; 8. positioning a fixture block; 9. a material guide chute; 10. an external case; 11. a water storage tank; 12. a spray head; 13. a leakage separating box; 14. filtering the sieve plate; 15. a liquid collecting tank; 16. a chip removal box; 17. and (4) filtering the plates.

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.

Referring to fig. 1 to 5, the present invention provides a technical solution: a chip removal system of a numerical control scraping and boring tumbling mill comprises a machine tool shell 1, wherein two sides of the outer part of the machine tool shell 1 are movably connected with symmetrically distributed fixed clamping pieces 2, two sides of the outer part of the machine tool shell 1 are provided with symmetrically distributed notches, the depths of the notches on the two sides of the outer part of the machine tool shell 1 are sequentially increased from top to bottom, the inner sides of the fixed clamping pieces 2 are provided with transverse plates, the transverse plates and the bottoms of the inner sides of the fixed clamping pieces 2 are respectively matched with two notches of the outer part of the machine tool shell 1, the two notches of the outer part of the machine tool shell 1 are matched with the transverse plates and the bottoms of the inner sides of the fixed clamping pieces 2, the fixed clamping pieces 2 can be stably buckled on the outer part of the machine tool shell 1, meanwhile, a protective ramp 3 is stably fixed on the top of the machine tool shell 1 by utilizing the fixed clamping pieces 2, the top of the, the bottom of the protection ramp 3 is provided with a T-shaped slide block, two sides of the top of the machine tool shell 1 are provided with I-shaped chutes, the T-shaped slide block at the bottom of the protection ramp 3 corresponds to the I-shaped chutes at two sides of the top of the machine tool shell 1, the T-shaped slide block is arranged at the bottom of the protection ramp 3, the symmetrically distributed chutes are arranged at two sides of the top of the machine tool shell 1, the slide block at the bottom of the protection ramp 3 is matched with the chutes at two sides of the top of the machine tool shell 1, so that the protection ramp 3 of the device can be quickly arranged at the top of the machine tool shell 1, and the metal scraps can be effectively blocked, the inner side of the machine tool shell 1 is movably connected with symmetrically distributed rolling shafts 4, two ends of the outer part of the rolling shafts 4 are movably connected with symmetrically distributed limiting clamping plates 5, the inner side of the machine tool shell 1 is provided with symmetrically distributed cylindrical holes, and two ends, the two ends of the outer part of the roller 4 penetrate into the cylindrical hole on the inner side of the machine tool shell 1, the inner side of the limiting clamping plate 5 is provided with an inwards concave rectangular notch, the two ends of the outer part of the roller 4 penetrate through and extend to the outer part of the limiting clamping plate 5, the outer end of the roller 4 is movably connected into the cylindrical hole on the inner side of the machine tool shell 1, so that the roller 4 can be ensured to stably rotate by the auxiliary crawler belt 6, the stability of the device is effectively improved, the top of the limiting clamping plate 5 is movably connected with positioning clamping blocks 8 which are symmetrically distributed, the top of the positioning clamping blocks 8 is fixedly connected with a material guide groove 9, the top of the limiting clamping plate 5 is provided with an inwards concave sliding groove, the bottom of the positioning clamping blocks 8 is provided with a downwards convex rectangular sliding block, the rectangular sliding block at the bottom of the positioning clamping blocks 8 corresponds to the sliding groove on the, the positioning fixture blocks 8 are uniformly distributed on two sides of the bottom of the guide chute 9, the guide chute 9 can be ensured to freely move on the top of the limiting clamping plate 5 by arranging the inner side of the guide chute 9 with the slotted holes of the inclined slopes and utilizing the mutual matching of the positioning fixture blocks 8 and the sliding chutes at the top of the limiting clamping plate 5, so that the guide chute 9 of the device can be quickly matched with the port of a hydraulic oil cylinder, the collection efficiency of metal scraps is greatly improved, the outer part of the rolling shaft 4 is movably connected with a crawler belt 6, the outer part of the crawler belt 6 is fixedly connected with uniformly distributed gathering tanks 7, the outer part of the crawler belt 6 is provided with uniformly distributed grooves, the two sides of the bottom of the gathering tanks 7 are provided with symmetrically distributed notches, the notches on the two sides of the bottom of the gathering tanks 7 are mutually matched with the grooves on the outer part of the crawler belt 6, the top of the gathering tanks, a gathering groove 7 is fixedly connected in a groove at the outer part of the crawler 6, a trapezoidal groove is formed at the top of the gathering groove 7, so that the device can effectively collect metal scraps and cooling liquid and convey the metal scraps and the cooling liquid to an external case 10, one side of the outer part of the limiting clamping plate 5 is fixedly connected with the external case 10, the top of the inner cavity of the external case 10 is fixedly connected with a water storage tank 11, the bottom of the water storage tank 11 is fixedly connected with spray heads 12 which are uniformly distributed, the outer side of the top of the water storage tank 11 is fixedly connected with symmetrically distributed connecting pipe orifices, a rectangular concave hole is formed in the machine tool shell 1, the top end of the spray head 12 penetrates through and extends to the inner part of the water storage tank 11, the bottom end of the spray head 12 is fixedly connected with a cylindrical atomization spray head, the water storage tank 11 is fixedly connected with the top of the inner cavity of the, the water source is sprayed to the outer parts of the caterpillar band 6 and the material gathering groove 7 by utilizing the spray head 12, and then the cleaning purpose of the device can be achieved, the middle part of the inner cavity of the external case 10 is fixedly connected with the leakage dividing box 13, the inner part of the leakage dividing box 13 is fixedly connected with the filtering sieve plate 14, the bottom part of the inner cavity of the external case 10 is movably connected with the symmetrically distributed liquid gathering box 15 and the chip removing box 16, the middle part of the inner side of the chip removing box 16 is fixedly connected with the filtering plate 17, the inner side of the leakage dividing box 13 is provided with a slope slotted hole, the bottom end of the filtering sieve plate 14 passes through and extends to the bottom part of the leakage dividing box 13, the bottom surface of the filtering sieve plate 14 is provided with fine and dense mesh holes which are uniformly distributed, one side of the outer part of the chip removing box 16 is fixedly connected with the liquid discharging pipe, the uniformly distributed holes are arranged in the filtering plate 17, the leakage dividing box 13 and, the filtering sieve plate 14 and the filter plate 17 can be used for achieving the filtering effect, and further the device can be guaranteed to effectively separate cooling liquid from metal scraps.

To sum up, in the chip removal system of the numerical control scraping and boring tumbling mill, when in use, an operator needs to movably connect the protection ramp 3 to the notches at the two sides of the top of the machine tool shell 1, then the movable bayonets of the fixed clamping piece 2 are arranged in the notches at the outer side of the notch at the outer side of the machine tool shell 1 and the protection ramp 3, then the operator needs to move the material guide groove 9 to the position of the working table top at the top of the machine tool shell 1, then the material guide groove 9 is aligned with the port of the hydraulic oil cylinder, then the operator needs to control the crawler 6 to drive the material gathering groove 7 to rotate, so that the notch at the top of the material gathering groove 7 is positioned at the bottom of the material guide groove 9, then the operator needs to control the crawler 6 to drive the material gathering groove 7 to transfer into the external case 10, and guide the metal scraps into the internal part of the leakage dividing case 13, and by utilizing the filtration of the filter sieve plate 14, the cooling liquid in the, and finally, when the device stops working, an operator needs to control the water storage tank 11, start the crawler belt 6 and spray a water source to the outsides of the crawler belt 6 and the material gathering groove 7 by using the spray head 12, so that the aim of cleaning is fulfilled.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The utility model provides a boring tumbling mill chip removal system is scraped in numerical control, includes lathe shell (1), its characterized in that: the machine tool comprises a machine tool shell (1), wherein two sides of the outer part of the machine tool shell (1) are movably connected with symmetrically distributed fixed clamping pieces (2), the top of the machine tool shell (1) is movably connected with oppositely distributed protection sloping platforms (3), the inner side of the machine tool shell (1) is movably connected with symmetrically distributed rolling shafts (4), two ends of the outer part of each rolling shaft (4) are movably connected with symmetrically distributed limiting clamping plates (5), the top of each limiting clamping plate (5) is movably connected with symmetrically distributed positioning clamping blocks (8), the top of each positioning clamping block (8) is fixedly connected with a material guide groove (9), the outer part of each rolling shaft (4) is movably connected with a crawler (6), the outer part of each crawler (6) is fixedly connected with uniformly distributed material collecting grooves (7), one side of the outer part of each limiting clamping plate (5) is fixedly connected with an external machine case (10), and the top of the inner, the bottom fixedly connected with evenly distributed's of water storage box (11) shower nozzle (12), the middle part fixedly connected with of external quick-witted case (10) inner chamber divides leak box (13), divide the inside fixedly connected with of leak box (13) to filter sieve (14), the bottom swing joint of external quick-witted case (10) inner chamber has the liquid gathering box (15) and chip removal case (16) of symmetric distribution, and the inboard middle part fixedly connected with filter plate (17) of chip removal case (16).

2. The chip removal system of the numerical control scraping and boring tumbling mill according to claim 1, characterized in that: the slot that symmetric distribution was seted up to the outside both sides of lathe shell (1), the degree of depth of the outside both sides slot of lathe shell (1) increases from last to down in proper order, the diaphragm has been seted up to the inboard of fixed fastener (2), the inboard diaphragm of fixed fastener (2) and bottom respectively with the outside two notch mutual adaptations of lathe shell (1).

3. The chip removal system of the numerical control scraping and boring tumbling mill according to claim 1, characterized in that: the protection slope is characterized in that T-shaped sliding blocks are arranged at the bottom of the protection slope (3), I-shaped sliding grooves are formed in the two sides of the top of the machine tool shell (1), and the T-shaped sliding blocks at the bottom of the protection slope (3) correspond to the I-shaped sliding grooves in the two sides of the top of the machine tool shell (1).

4. The chip removal system of the numerical control scraping and boring tumbling mill according to claim 1, characterized in that: cylindrical holes which are symmetrically distributed are formed in the inner side of the machine tool shell (1), two ends of each roller (4) penetrate through and extend to the outer portions of the left side limiting clamping plates and the right side limiting clamping plates (5), two ends of the outer portions of the rollers (4) penetrate through the cylindrical holes in the inner side of the machine tool shell (1), and inward-recessed rectangular notches are formed in the inner side of the limiting clamping plates (5).

5. The chip removal system of the numerical control scraping and boring tumbling mill according to claim 1, characterized in that: evenly distributed's recess is seted up to the outside of track (6), gather the notch that the symmetric distribution was seted up to the both sides of silo (7) bottom, and gather the notch of silo (7) bottom both sides and the outside recess of track (6) mutual adaptation, gather the top of silo (7) and seted up trapezoidal recess.

6. The chip removal system of the numerical control scraping and boring tumbling mill according to claim 1, characterized in that: the top of spacing cardboard (5) is seted up inside sunken spout, downward bellied rectangle slider has been seted up to the bottom of location fixture block (8), and the rectangle slider of location fixture block (8) bottom corresponds with the spout at spacing cardboard (5) top, the inboard of baffle box (9) is seted up the domatic slotted hole of slope, and fixes a position fixture block (8) evenly distributed in the both sides of baffle box (9) bottom.

7. The chip removal system of the numerical control scraping and boring tumbling mill according to claim 1, characterized in that: the outside fixedly connected with symmetric distribution's at water storage box (11) top connecting pipe mouth, the rectangle shrinkage pool has been seted up to the inside of lathe shell (1), the top of shower nozzle (12) is passed and is extended to the inside of water storage box (11), the cylindrical atomizer of bottom fixedly connected with of shower nozzle (12).

8. The chip removal system of the numerical control scraping and boring tumbling mill according to claim 1, characterized in that: divide the inboard of leaking case (13) to offer domatic slotted hole, the bottom of filtering sieve board (14) is passed and is extended to the bottom of dividing leaking case (13), the fine and close mesh of evenly distributed is seted up to the bottom surface of filtering sieve board (14), one side fixedly connected with fluid-discharge tube outside chip removal case (16), evenly distributed's hole is seted up to the inside of filter plate (17).

Images