CN218964836U - Chip removal clearance mechanism for machining center - Google Patents

Abstract

The utility model discloses a chip removal cleaning mechanism for a machining center, which comprises the following components: the device comprises a processing table, a processing bracket and a processing sleeve box, wherein the processing bracket is arranged on the processing table, the processing sleeve box is sleeved on the processing bracket, a pair of movable spraying cooling structures are arranged on the processing bracket, and a collecting structure is arranged on the processing table; the utility model relates to the technical field of cleaning of machining centers, which is characterized in that a movable spraying and cooling structure is used for spraying and cooling a machining position, and simultaneously, scraps are guided to the side wall of a machining table through high-pressure air, are guided to a collecting structure through liquid, and are buffered and guided through the collecting structure, so that the phenomena that gravity and splashing are used for guiding the scraps to conveying equipment of a apron conveyor, and the apron conveyor is blocked are avoided.

Description

Chip removal clearance mechanism for machining center

Technical Field

The utility model relates to the technical field of cleaning of machining centers, in particular to a chip removal cleaning mechanism for a machining center.

Background

The chip removing machine is mainly used for collecting various metal and nonmetal scraps produced by the machine, transmitting the scraps to the machine on the collecting vehicle, and can be matched with a filtering water tank for recycling various cooling liquid, wherein the chip removing machine is provided with a scraper chip removing machine, a chain plate chip removing machine, a magnetic chip removing machine and a spiral chip removing machine, the existing spraying method of the cooling liquid can not displace according to the change of a processing position, so that dead angles for spraying and drainage appear in the processing of part of angles, and part of scraps are clamped on excreting and transporting equipment due to gravity in the drainage process.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: chip removal clearance mechanism for machining center includes: the device comprises a processing table, a processing bracket and a processing sleeve box, wherein the processing bracket is arranged on the processing table, the processing sleeve box is sleeved on the processing bracket, a pair of movable spraying cooling structures are arranged on the processing bracket, and a collecting structure is arranged on the processing table;

the mobile spray cooling structure comprises: the device comprises two pairs of movable limiting shafts, movable horizontal telescopic blocks, a telescopic screw rod module, a pair of concave telescopic blocks, a cleaning liquid tank, a cleaning liquid pump, a drainage air pump, a spray pipe and an air drying pipe;

the two pairs of movable limiting shafts are installed on the processing support in pairs, the movable horizontal telescopic blocks are sleeved on the two pairs of movable limiting shafts, the telescopic screw rod module is installed on the processing sleeve box, the movable ends of the telescopic screw rod module are connected to the movable horizontal telescopic blocks, the pair of concave telescopic blocks are sleeved on the two pairs of movable limiting shafts, the pair of concave telescopic blocks are movably inserted on the inner sides of the pair of concave telescopic blocks respectively, the pair of concave telescopic blocks are connected to the two sides of the movable horizontal telescopic blocks respectively, the cleaning liquid box is installed on the outer side of the processing sleeve box, the cleaning liquid pump is installed on the cleaning liquid box, the spraying pipe is inserted on the movable horizontal telescopic blocks, the spraying pipe is connected to the cleaning liquid pump, the air drying pipe is installed on the movable horizontal telescopic blocks, the air drying pump is installed on the movable horizontal telescopic blocks, and the drainage pump is connected to the air drying pipe.

Preferably, the collecting structure comprises: the device comprises a apron conveyer, a pair of rotary drainage plates, a pair of rotary drainage shafts, a plurality of circular arc limiting pipes, a plurality of circular arc limiting inner rods, a plurality of telescopic discs, a plurality of inner limiting springs, a pair of electromagnetic iron plates and a pair of magnet plates;

the bottom of processing platform has seted up concave drainage groove, the apron conveyer install in the inboard of concave drainage groove, set up a pair of concave circular arc groove on the concave drainage groove, a pair of rotatory drainage axle pass through the bearing cartridge respectively in a pair of concave circular arc groove's inboard, a pair of rotatory drainage board install respectively in a pair of rotatory drainage epaxial, a plurality of circular arc spacing pipe install respectively in on the inboard both ends of concave drainage groove, a plurality of the movable cartridge respectively in a plurality of circular arc spacing pipe's inboard, and a plurality of circular arc spacing inner rod is connected respectively in a pair of rotatory drainage board, a plurality of flexible disc is movable cartridge respectively in a plurality of circular arc spacing pipe's inboard, and a plurality of flexible disc is connected respectively in a plurality of on the circular arc spacing inner rod, a plurality of in spacing spring is installed respectively in a plurality of circular arc spacing pipe's inboard, and a plurality of spacing spring is connected respectively in a plurality of on a pair of magnet is installed respectively in a pair of rotatory electromagnetic disc on the electromagnetic plate.

Preferably, a pair of the rotary drainage plates are respectively provided with wave grooves.

Preferably, a plurality of concave sliding grooves are formed in the inner sides of the pair of concave sleeving blocks, a plurality of convex sliding blocks are respectively arranged on the pair of concave telescopic blocks, and the plurality of convex sliding blocks are respectively movably inserted into the inner sides of the plurality of concave sliding grooves.

Preferably, a sealing rubber pad is arranged between the pair of concave type sleeve blocks and the pair of concave type telescopic blocks.

Preferably, the processing table is provided with a plurality of unloading openings, and the unloading openings are respectively communicated with the concave drainage grooves.

Advantageous effects

The utility model provides a chip removal cleaning mechanism for a machining center. The beneficial effects are as follows: this chip removal clearance mechanism for machining center sprays the cooling through portable spraying cooling structure to the processing position, simultaneously on the lateral wall of processing platform is drained to the sweeps through high-pressure wind, in collecting the structure with the sweeps drainage through liquid, carries out buffering drainage with the sweeps through collecting the structure, has avoided gravity and splashes and drains the sweeps to on the apron conveyer transportation equipment, appears the phenomenon that the apron conveyer blockked up.

Drawings

Fig. 1 is a schematic front cross-sectional view of a chip removal cleaning mechanism for a machining center according to the present utility model.

Fig. 2 is a schematic side cross-sectional view of a chip removal cleaning mechanism for a machining center according to the present utility model.

In the figure: 1. a processing table; 2. processing a bracket; 3. processing a sleeve box; 4. moving the limiting shaft; 5. moving the horizontal telescopic block; 6. a telescopic screw module; 7. a concave sleeving block; 8. a concave telescopic block; 9. a cleaning liquid tank; 10. cleaning a liquid pump; 11. a drainage air pump; 12. a spray tube; 13. an air-drying pipe; 14. a apron conveyor; 15. rotating the drainage plate; 16. rotating the diversion shaft; 17. an arc limiting tube; 18. an arc limiting inner rod; 19. a telescoping disc; 20. an inner limit spring; 21. an electromagnetic iron plate; 22. a magnet plate.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

All electric parts and the adaptive power supply are connected through wires by the person skilled in the art, and a proper controller and encoder should be selected according to actual conditions so as to meet control requirements, specific connection and control sequence, and the electric connection is completed by referring to the following working principles in the working sequence among the electric parts, and the detailed connection means are known in the art, and mainly introduce the working principles and processes as follows, and do not describe the electric control.

Examples

As shown in fig. 1-2, the processing bracket 2 is mounted on the processing table 1, the processing sleeve 3 is sleeved on the processing bracket 2, a pair of movable spraying cooling structures are mounted on the processing bracket 2, and a collecting structure is mounted on the processing table 1;

specifically, the mobile spray cooling structure comprises: two pairs of movable limiting shafts 4, movable horizontal telescopic blocks 5, telescopic screw rod modules 6, a pair of concave telescopic blocks 7, a pair of concave telescopic blocks 8, a cleaning liquid tank 9, a cleaning liquid pump 10, a drainage air pump 11, a spray pipe 12 and an air drying pipe 13;

specifically, two pairs of the movable limiting shafts 4 are installed on the processing support 2 in pairs, the movable horizontal telescopic blocks 5 are sleeved on the two pairs of the movable limiting shafts 4, the telescopic screw rod module 6 is installed on the processing sleeve 3, the movable end of the telescopic screw rod module 6 is connected to the movable horizontal telescopic blocks 5, a pair of the concave telescopic blocks 7 are sleeved on the two pairs of the movable limiting shafts 4, a pair of the concave telescopic blocks 8 are movably inserted on the inner sides of the concave telescopic blocks 7 respectively, a pair of the concave telescopic blocks 8 are connected to the two sides of the movable horizontal telescopic blocks 5 respectively, the cleaning liquid box 9 is installed on the outer side of the processing sleeve 3, the cleaning liquid pump 10 is installed on the cleaning liquid box 9, the spraying pipe 12 is inserted on the movable horizontal telescopic blocks 5, the spraying pipe 12 is connected to the cleaning liquid pump 10, the air drying pipe 13 is installed on the movable horizontal telescopic blocks 5, the air suction pipe 11 is connected to the air suction pump 11, and the air suction pipe is connected to the air suction pump 11.

It should be noted that, in the above, through the operation of the telescopic lead screw module 6, the movable horizontal telescopic block 5 on the movable end of the telescopic lead screw module 6 is driven, the movable horizontal telescopic block 5 stretches horizontally along the two pairs of movable limiting shafts 4, the pair of concave telescopic blocks 8 on the movable horizontal telescopic block 5 are respectively driven by the movable horizontal telescopic block 5, the pair of concave telescopic blocks 8 stretch horizontally along the inner sides of the pair of concave sleeve blocks 7 respectively, the cooperation of the pair of concave sleeve blocks 7 and the pair of concave telescopic blocks 8 is achieved, the two pairs of movable limiting shafts 4 are sealed, the liquid on the inner sides of the cleaning liquid boxes 9 is guided to the spraying pipes 12 through the cleaning liquid suction pumps 10, raw materials on the processing table 1 are sprayed through the spraying pipes 12, meanwhile, the air is guided to the inner sides of the air drying pipes 13 through the drainage pumps 11, therefore, the waste on the processing table 1 is movable and clean, the existing cleaning is that the waste is guided through the cooling liquid, the cooling pipes can only be cooled and sprayed according to the preset positions, and the existing cleaning is not carried out in real time, and the processing table 1 is cleaned in a movable mode.

As shown in fig. 1-2, the collection structure comprises: the apron conveyor 14, a pair of rotary drainage plates 15, a pair of rotary drainage shafts 16, a plurality of circular arc limiting pipes 17, a plurality of circular arc limiting inner rods 18, a plurality of telescopic discs 19, a plurality of inner limiting springs 20, a pair of electromagnetic iron plates 21 and a pair of magnet plates 22;

specifically, the concave drainage groove has been seted up to the bottom of processing platform 1, apron conveyer 14 install in the inboard of concave drainage groove, a pair of concave circular arc groove has been seted up on the concave drainage groove, a pair of rotatory drainage shaft 16 respectively through the bearing cartridge in a pair of concave circular arc groove's inboard, a pair of rotatory drainage plate 15 is installed respectively on a pair of rotatory drainage shaft 16, a plurality of circular arc spacing pipe 17 install respectively in on the inboard both ends of concave drainage groove, a plurality of circular arc spacing inner rod 18 respectively movable cartridge in a plurality of circular arc spacing pipe 17's inboard, and a plurality of circular arc spacing inner rod 18 is connected respectively in a pair of rotatory drainage plate 15, a plurality of flexible disc 19 respectively movable cartridge in a plurality of circular arc spacing pipe 17's inboard, and a plurality of flexible disc 19 is connected respectively in a plurality of circular arc spacing inner rod 18, a plurality of inner spacing spring 20 is installed respectively in a plurality of circular arc spacing pipe 17's inboard, and a plurality of flexible disc 19 are installed respectively in a pair of electromagnetic coil plate 21 is installed respectively in a plurality of rotatory disc 19.

In the foregoing description, the sweeps are led to the pair of rotary drainage plates 15 by the cleaning solution, so that the pair of rotary drainage plates 15 rotate along the pair of rotary drainage shafts 16, the pair of rotary drainage plates 15 drive the plurality of circular arc limiting inner rods 18 thereon respectively, so that the plurality of circular arc limiting inner rods 18 stretch along the inner sides of the plurality of circular arc limiting tubes 17 respectively, the pair of electromagnetic iron plates 21 are electrified, the pair of electromagnetic iron plates 21 generate magnetism, and the pair of rotary drainage plates 15 repel the magnet plates 22 by the magnetism, so that the pair of rotary drainage plates 15 repel each other, so that the fallen sweeps are buffered to a certain extent, and meanwhile, the inner limiting springs 20 on the plurality of circular arc limiting inner rods 18 limit the telescopic discs 19, so that the loss of the pair of circular arc limiting tubes 17 due to overlarge magnetism is avoided.

Preferably, a pair of the rotary drainage plates 15 are respectively provided with wave grooves.

As a preferred scheme, a plurality of concave sliding grooves are formed in the inner sides of the pair of concave sleeving blocks 7, a plurality of convex sliding blocks are respectively arranged on the pair of concave telescopic blocks 8, and the plurality of convex sliding blocks are respectively movably inserted into the inner sides of the plurality of concave sliding grooves.

Preferably, a sealing rubber pad is arranged between the pair of concave sleeving blocks 7 and the pair of concave telescopic blocks 8.

As a preferable scheme, the processing table 1 is provided with a plurality of unloading openings, and the unloading openings are respectively communicated with the concave drainage grooves.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Chip removal clearance mechanism for machining center includes: the device is characterized in that the processing support is arranged on the processing table, the processing sleeve box is sleeved on the processing support, a pair of movable spraying cooling structures are arranged on the processing support, and a collecting structure is arranged on the processing table;

the mobile spray cooling structure comprises: the device comprises two pairs of movable limiting shafts, movable horizontal telescopic blocks, a telescopic screw rod module, a pair of concave telescopic blocks, a cleaning liquid tank, a cleaning liquid pump, a drainage air pump, a spray pipe and an air drying pipe;

the two pairs of movable limiting shafts are installed on the processing support in pairs, the movable horizontal telescopic blocks are sleeved on the two pairs of movable limiting shafts, the telescopic screw rod module is installed on the processing sleeve box, the movable ends of the telescopic screw rod module are connected to the movable horizontal telescopic blocks, the pair of concave telescopic blocks are sleeved on the two pairs of movable limiting shafts, the pair of concave telescopic blocks are movably inserted on the inner sides of the pair of concave telescopic blocks respectively, the pair of concave telescopic blocks are connected to the two sides of the movable horizontal telescopic blocks respectively, the cleaning liquid box is installed on the outer side of the processing sleeve box, the cleaning liquid pump is installed on the cleaning liquid box, the spraying pipe is inserted on the movable horizontal telescopic blocks, the spraying pipe is connected to the cleaning liquid pump, the air drying pipe is installed on the movable horizontal telescopic blocks, the air drying pump is installed on the movable horizontal telescopic blocks, and the drainage pump is connected to the air drying pipe.

2. The chip removal and cleaning mechanism for a machining center of claim 1, wherein the collection structure comprises: the device comprises a apron conveyer, a pair of rotary drainage plates, a pair of rotary drainage shafts, a plurality of circular arc limiting pipes, a plurality of circular arc limiting inner rods, a plurality of telescopic discs, a plurality of inner limiting springs, a pair of electromagnetic iron plates and a pair of magnet plates;

the bottom of processing platform has seted up concave drainage groove, the apron conveyer install in the inboard of concave drainage groove, set up a pair of concave circular arc groove on the concave drainage groove, a pair of rotatory drainage axle pass through the bearing cartridge respectively in a pair of concave circular arc groove's inboard, a pair of rotatory drainage board install respectively in a pair of rotatory drainage epaxial, a plurality of circular arc spacing pipe install respectively in on the inboard both ends of concave drainage groove, a plurality of the movable cartridge respectively in a plurality of circular arc spacing pipe's inboard, and a plurality of circular arc spacing inner rod is connected respectively in a pair of rotatory drainage board, a plurality of flexible disc is movable cartridge respectively in a plurality of circular arc spacing pipe's inboard, and a plurality of flexible disc is connected respectively in a plurality of on the circular arc spacing inner rod, a plurality of in spacing spring is installed respectively in a plurality of circular arc spacing pipe's inboard, and a plurality of spacing spring is connected respectively in a plurality of on a pair of magnet is installed respectively in a pair of rotatory electromagnetic disc on the electromagnetic plate.

3. The chip removal and cleaning mechanism for a machining center according to claim 2, wherein a pair of the rotary drainage plates are provided with wave grooves, respectively.

4. The chip removal and cleaning mechanism for a machining center according to claim 3, wherein a plurality of concave sliding grooves are formed in the inner sides of a pair of concave sleeving blocks, a plurality of convex sliding blocks are respectively arranged on a pair of concave telescopic blocks, and the plurality of convex sliding blocks are respectively movably inserted into the inner sides of the plurality of concave sliding grooves.

5. The chip removal and cleaning mechanism for a machining center of claim 4, wherein a sealing gasket is disposed between the pair of female die-set blocks and the pair of female telescopic blocks.

6. The chip removal and cleaning mechanism for a machining center according to claim 5, wherein a plurality of unloading openings are formed in the machining table, and the unloading openings are respectively communicated with the concave drainage grooves.

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