CN113458450A

CN113458450A - Machining center for quickly drilling automobile parts and using method thereof

Info

Publication number: CN113458450A
Application number: CN202110831396.4A
Authority: CN
Inventors: 戴丽榕
Original assignee: Zhejiang Deming Automobile Parts Co ltd
Current assignee: Zhejiang Deming Automobile Parts Co ltd
Priority date: 2021-07-22
Filing date: 2021-07-22
Publication date: 2021-10-01
Anticipated expiration: 2041-07-22
Also published as: CN113458450B

Abstract

A machining center for fast drilling of automobile parts comprises a base, an adjusting rod, a sliding seat, a sliding channel and a sliding block, wherein the adjusting rod is fixedly connected to the upper end of the base, the sliding channel is formed in the rear end of the adjusting rod, the sliding block is slidably connected to the inner side of the sliding channel, the sliding seat is fixedly connected to the rear end of the sliding seat, a connecting seat is fixedly connected to the rear end of the sliding seat, an operating box is fixedly connected to the rear end of the connecting seat, a rotary head is rotatably connected to the lower end of the operating box, the upper end of the rotary head penetrates through the operating box and is fixedly connected with a rotary head connecting seat, a rotary head motor for driving the rotary head to rotate is fixedly connected to the upper end of the inner wall of the operating box, a feeding thread with a waste conveying effect in the rotating process is formed in the outer side of the rotary head, and a rotary head fixing part is rotatably connected to the upper end of the feeding thread, the rotating head fixing part is fixedly connected to the upper end of the inner wall of the bottom end of the operating box.

Description

Machining center for quickly drilling automobile parts and using method thereof

Technical Field

The invention relates to the field of numerical control machine tools, in particular to a machining center for quickly drilling automobile parts and a using method thereof.

Background

The machining center integrates a traditional lathe, a traditional milling machine and a traditional drilling machine, has a great effect in the aspect of machining, particularly in the aspect of manufacturing parts, controls the machining speed and the feeding amount through programming, the machined parts have higher precision, some parts can be automatically changed by a tool changer, the working efficiency is very high, automatic and unmanned production operation can be realized, and considerable economic benefits can be brought.

At present, a machining center needs to continuously spray cooling liquid for cooling a machined workpiece during machining, especially when a drilling position is subjected to high-speed friction, the workpiece is subjected to negative influence due to excessive heat, and therefore, in actual operation, it is particularly important to sufficiently and efficiently cool the workpiece; in addition, a small amount of cooling liquid spray heads are arranged on the side edge of the drill bit, but the cooling liquid in the spray mode cannot reach the main working heat generating position of the drill bit at the bottom due to air pressure, and the cooling liquid is sprayed out from the side edge after being sprayed, so that the cooling cannot be sufficient; the cooling liquid deposited in the drill hole can be discharged only in an inward blowing mode at present, and resource waste is caused by insufficient cleaning and recycling of the deposited cooling liquid.

Disclosure of Invention

The invention aims to solve the problems in the prior art, provides a machining center for quickly drilling automobile parts, can fully cool a drill hole by a rotary head, has a cooling liquid circulating and collecting function, and solves the problems in the background art.

The invention adopts the technical scheme for solving the technical problems that: the machining center for quickly drilling the automobile parts comprises a base, an adjusting rod, a sliding seat, a sliding channel and a sliding block, wherein the upper end of the base is fixedly connected with the adjusting rod, the rear end of the adjusting rod is provided with the sliding channel, the inner side of the sliding channel is slidably connected with the sliding block, the rear end of the sliding seat is fixedly connected with the sliding seat, the rear end of the sliding seat is fixedly connected with a connecting seat, the rear end of the connecting seat is fixedly connected with an operating box, the lower end of the operating box is rotatably connected with a rotary head, the upper end of the rotary head penetrates through the operating box and is fixedly connected with a rotary head connecting seat, the upper end of the rotary head switching seat is fixedly connected with a rotary head motor for driving the rotary head to rotate, the rotary head motor is fixedly connected to the upper end of the inner wall of the operating box, the outer side of the rotary head is provided with a feeding thread with a waste conveying effect, and the upper end of the feeding thread is rotatably connected with a rotary head fixing part, the utility model discloses a quick-witted operation panel, including the operation case, the operation case is used for the operation of the operation case, the first fixed part fixed connection of bull block is in operation case bottom inner wall upper end, the inside last rotation that has the disc shape of opening of operation case upper end, the inside lower extreme that is located of operation case is opened between the lower rotation that has the disc shape, base upper end fixedly connected with is used for placing the operation board of operation work piece, base upper end fixedly connected with a plurality of is used for the solid board seat of fixed connection operation board, the drain box is used for continuously providing the coolant liquid for bull block lower extreme work area, the suction case has the suction function for the coolant liquid after the use of suction through backward flow mouth contact, and process to collect and recycle the coolant liquid.

For further improvement, the lower end of the rotary head is fixedly connected with a drill bit for drilling, and the drill bit can be a drill bit with higher hardness such as a diamond bit and the like as long as a machining station is arranged.

Further perfect, it is connected with the liquid suction pipe to go up the left end between the rotation, the liquid suction pipe left end is connected with the suction box that is used for suction and filtration coolant liquid, suction box fixed connection is in operation bottom inner wall upper end, the right-hand member is connected with the spray tube down between the rotation, the spray tube right-hand member is connected with the drain box that is used for spraying the coolant liquid, drain box fixed connection is in operation bottom inner wall upper end, the drain box is used for providing the coolant liquid, the suction box is used for the practical coolant liquid of suction bull lower extreme to carry out the coolant liquid circulation to processing, filtration treatment are done at the suction box to the coolant liquid of retrieving, guarantee that the coolant liquid of collecting can carry out next cycle cooling.

Further perfection, the upper rotating chamber is internally and slidably connected with a suction port, one end of the suction port is connected with a suction pipe, the other end of the suction port is provided with a port capable of being matched with the right end of a liquid suction pipe, the lower rotating chamber is internally and slidably connected with a liquid spraying port, one end of the liquid spraying port is connected with a liquid conveying pipe, the other end of the liquid spraying port is provided with a matched port capable of being matched with the left end of the liquid spraying pipe, the lower end of the suction pipe is connected with one end of a backflow port, the other end of the backflow port is connected with the inner side end face of a feeding thread, the lower end of the liquid conveying pipe is connected with one end of a liquid outlet, the other end of the liquid outlet is connected with the outer end face of the feeding thread, a rotary head is continuously rotated in the machining process, when the liquid spraying port is connected with the matched liquid spraying pipe, the cooling liquid is guided into the liquid conveying pipe to continuously provide cooling liquid for the lower end of the rotary head, and the liquid suction port is connected with the matched liquid suction pipe, the return port is used for pumping operation, the cooling liquid is recycled, and meanwhile the cooling liquid can pass through the drill bit part and is fully cooled for a main working area.

Further perfect, it has the blanking mouth that a plurality of is used for dropping piece or cooling waste liquid to open between the solid plate seat, both ends fixedly connected with piece conveyer belt around the base, both ends transmission connection has the drive wheel of fixed connection at the inner wall of the base about the piece conveyer belt, four ends fixedly connected with piece collecting box of base, piece collecting box upper end is through piece collection mouth connection piece conveyer belt both ends, the turn round can produce a large amount of pieces when processing the work piece, and this kind of piece can cause a large amount of wastes if not retrieving processing to increase the cost, piece conveyer belt and piece collecting box are used for collecting the piece.

Further perfect, base middle-end fixedly connected with draws the liquid board, draw liquid board middle-end fixedly connected with filtrating string bag, filtrating string bag lower extreme is connected with the one end of sepage pipe, the other end of sepage pipe is connected with the rose box, rose box fixed connection is inside the base rear end, filtrating string bag is used for collecting the sedimentary coolant liquid in operation board upper end, retrieves the guide to the rose box with its processing.

Further perfect, the rose box upper end is connected with the one end of going up the permeable tube about two, the other end of going up the permeable tube passes the control box and connects and for the drain box supplies the coolant liquid, and the coolant liquid through preliminary processing leads to the rose box through the sepage pipe and collects the processing, and the coolant liquid that the rose box processing was accomplished leads to the drain box through last permeable tube and carries out next time and utilize.

Further perfect, the filter screen bag upper end is equipped with the infiltration dish, the infiltration dish lower extreme is connected with a plurality of filter tube, the filter tube lower extreme is connected with between the infiltration that is used for infiltration, filtration coolant liquid, the lower extreme is connected with the hydrops district that is used for collecting the coolant liquid between the infiltration, draw liquid board lower extreme fixedly connected with to be located hydrops district lower extreme and be used for filtering, the filtrating osmotic membrane of recirculated coolant liquid, filtrating osmotic membrane lower extreme is connected with and is used for collecting the coolant liquid and draws the permeable zone of direction lower extreme, the infiltration pipe is connected to permeable zone lower extreme, the coolant liquid is through drawing liquid board drainage to the infiltration dish, passes through the filter tube separation with the coolant liquid that mixes the piece, and the last deposit is discharged through the weeping pipe in the permeable zone.

Further perfecting, a method for using a machining center for quickly drilling automobile parts mainly comprises the following steps:

the method comprises the following steps: fixedly connecting a workpiece to be processed to the upper end of the operating plate, adjusting the position, and fixedly connecting the operating plate to the upper end of the fixed plate seat for waiting processing;

step two: filling cooling liquid to be used into a filter box, continuously supplementing the cooling liquid for a liquid outlet box through an upper penetration pipe, opening a rotary motor to drill a workpiece fixedly connected to the upper end of an operation plate, and simultaneously opening a fragment conveyor belt to collect and convey fragments falling through a blanking port;

step three: the chips falling to the upper end of the chip conveyor belt are conveyed to the chip collecting ports at the two ends through the chip conveyor belt, processed and dropped to the chip collecting boxes for collection, and then subjected to subsequent processing;

step four: when the rotary head is driven by the rotary head motor to perform drilling operation, the liquid conveying pipe has a suction function, when the right end of the liquid spraying port is connected with the left end of the liquid spraying pipe, the liquid spraying port extracts the cooling liquid stored in the liquid outlet box, and the cooling liquid is guided to the liquid outlet through the liquid conveying pipe to be sprayed out to continuously provide cooling liquid for a drilling area;

step five: the suction operation is done to the suction box, when the liquid suction pipe left end with take out the liquid mouth and be connected the suction tube, backward flow mouth suction pay-off screw thread and the inboard air of drill bit cause the negative pressure, guide the part through liquid outlet spun coolant liquid to drill bit operating position and cool off, coolant liquid after the circulative cooling is through backward flow mouth suction to suction box recovery, filtration and processing, carry out cyclic utilization, another part spouts the operation panel through drilling spun coolant liquid, through drawing the drainage of liquid board to filtrating string bag filtration and processing cycle, retrieve the coolant liquid to the rose box through the sepage pipe again and collect and recycle.

The invention has the beneficial effects that: the operation box has the functions of sucking and spraying cooling liquid on two sides, is connected to the drill bit below to promote the suction of the cooling liquid into the bottom of the rotary head, and fully cools the bottom end of a drill hole; the outer side of the rotary head is provided with a feeding thread, so that a space for conveying scraps, waste liquid and air is provided in the relatively sealed drill hole, and the bottom material is sent out upwards from the feeding thread under the rotation action of the rotary head; the feeding screw thread is internally connected with a backflow port, air or materials can be sucked under the action of a suction pipe to generate short negative pressure, the cooling liquid is guided to the bottom end of the drill bit by matching with the liquid outlet, the bottom end is promoted to be fully cooled by the cooling liquid, and the cooling liquid is sucked to a suction box through the backflow port to be collected, filtered and reused; the scraps and the cooling liquid which are sent to the end face through the feeding threads are guided and collected at the bottom end and are recycled, so that the resource recycling is promoted.

Drawings

FIG. 1 is a schematic three-dimensional structure of the present invention;

FIG. 2 is a longitudinal cross-sectional view of the base of the present invention;

FIG. 3 is a schematic three-dimensional structure of the rotor according to the present invention;

FIG. 4 is a longitudinal cross-sectional view of the handle box and rotor of the present invention;

FIG. 5 is a left side cross-sectional view of the present invention;

FIG. 6 is an enlarged view of portion A of FIG. 4 according to the present invention;

FIG. 7 is an enlarged view of portion B of FIG. 4 in accordance with the present invention;

FIG. 8 is an enlarged view of portion C of FIG. 5 in accordance with the present invention;

figure 9 is a transverse cross-sectional view of the base of the present invention.

Description of reference numerals: 1. base, 2, operation panel, 3, swivel, 4, adjusting rod, 5, sliding seat, 6, connecting seat, 7, operation box, 8, blanking port, 9, suction box, 10, swivel motor, 11, swivel connecting seat, 12, liquid outlet box, 13, sliding channel, 14, debris conveying belt, 15, driving wheel, 16, debris collecting box, 17, filtrate net bag, 18, liquid seepage tube, 19, solid plate seat, 20, liquid suction tube, 21, liquid spraying tube, 22, sliding block, 23, filtering box, 24, upper penetrating tube, 25, debris collecting port, 26, liquid guiding plate, 27, filtering tube, 28, penetrating disc, 29, liquid suction port, 30, upper swivel, 31, lower swivel, 32, suction tube, 33, liquid conveying tube, 34, liquid spraying port, 35, feeding thread, 36, liquid outlet, 37, drill bit, 38, return port, 39, liquid dropping room, 40, liquid accumulating area, 41, liquid penetrating area, 42, liquid conveying pipe, liquid conveying area, 30, liquid spraying pipe, liquid guiding plate, liquid, Permeate compartment 43, filtrate permeable membrane 44, rotor head mounting.

Detailed Description

The invention will be further described with reference to the accompanying drawings in which:

with reference to the accompanying drawings: the embodiment of the invention relates to a machining center for quickly drilling automobile parts, which comprises a base 1, an adjusting rod 4, a sliding seat 5, a sliding channel 13 and a sliding block 22, wherein the upper end of the base 1 is fixedly connected with the adjusting rod 4, the rear end of the adjusting rod 4 is provided with the sliding channel 13, the inner side of the sliding channel 13 is slidably connected with the sliding block 22, the rear end of the sliding block 22 is fixedly connected with the sliding seat 5, the rear end of the sliding seat 5 is fixedly connected with a connecting seat 6, the rear end of the connecting seat 6 is fixedly connected with an operating box 7, the lower end of the operating box 7 is rotatably connected with a rotary head 3, the upper end of the rotary head 3 penetrates through the operating box 7 and is fixedly connected with a rotary head connecting seat 11, the upper end of the rotary head switching seat 11 is fixedly connected with a rotary head motor 10 for driving rotation, the rotary head motor 10 is fixedly connected to the upper end of the inner wall of the operating box 7, the outer side of the rotary head 3 is provided with a feeding thread 35 for conveying waste materials in the rotating process, the upper end of the feeding thread 35 is rotatably connected with a rotating head fixing part 44, the rotating head fixing part 44 is fixedly connected to the upper end of the inner wall of the bottom end of the operation box 7, a disc-shaped upper rotating chamber 30 is arranged inside the upper end of the operation box 7, a disc-shaped lower rotating chamber 31 is arranged at the lower end of the upper rotating chamber 30 inside the operation box 7, the upper end of the base 1 is fixedly connected with an operation plate 2 for placing operation workpieces, and the upper end of the base 1 is fixedly connected with a plurality of plate fixing seats 19 for fixedly connecting the operation plate 2; the lower end of the rotary head 3 is fixedly connected with a drill bit 37 for drilling; go up the rotation room 30 left end and be connected with liquid suction pipe 20, liquid suction pipe 20 left end is connected with the suction box 9 that is used for suction and filtration coolant liquid, suction box 9 fixed connection is in 7 bottom inner walls upper ends of operation box, 31 right-hand members are connected with spray tube 21 down in the rotation room, spray tube 21 right-hand member is connected with liquid tank 12 that is used for spraying the coolant liquid, liquid tank 12 fixed connection is in 7 bottom inner walls upper ends of operation box.

A suction port 29 is connected to the inside of the upper rotating chamber 30 in a sliding manner, one end of the suction port 29 is connected with a suction pipe 32, the other end of the suction port 29 is provided with a port capable of being matched with the right end of the liquid suction pipe 20, a liquid spraying port 34 is connected to the inside of the lower rotating chamber 31 in a sliding manner, one end of the liquid spraying port 34 is connected with a liquid conveying pipe 33, the other end of the liquid spraying port 34 is provided with a port capable of being matched with the left end of the liquid spraying pipe 21, the lower end of the suction pipe 32 is connected with one end of a return port 38, the other end of the return port 38 is connected to the inner end face of the feeding thread 35, the lower end of the liquid conveying pipe 33 is connected with one end of a liquid outlet 36, and the other end of the liquid outlet 36 is connected to the outer end face of the feeding thread 35; a plurality of blanking ports 8 used for dropping chips or cooling waste liquid are formed between the fixed plate seats 19, chip conveyor belts 14 are fixedly connected to the front end and the rear end of the base 1, driving wheels 15 fixedly connected to the inner wall of the base 1 are in transmission connection with the left end and the right end of each chip conveyor belt 14, chip collecting boxes 16 are fixedly connected to the four ends of the base 1, and the upper ends of the chip collecting boxes 16 are connected with the two ends of the chip conveyor belts 14 through chip collecting ports 25.

The middle end of the base 1 is fixedly connected with a liquid guiding plate 26, the middle end of the liquid guiding plate 26 is fixedly connected with a filtrate string bag 17, the lower end of the filtrate string bag 17 is connected with one end of a seepage pipe 18, the other end of the seepage pipe 18 is connected with a filter box 23, and the filter box 23 is fixedly connected inside the rear end of the base 1; the upper end of the filter box 23 is connected with one end of a left upper penetrating pipe 24 and one end of a right upper penetrating pipe 24, and the other end of the upper penetrating pipe 24 penetrates through the operation box 7 to be connected and supplies cooling liquid for the liquid outlet box 12; the utility model discloses a cooling device, including filtration string bag 17, infiltration dish 28 lower extreme is connected with a plurality of

filter tube

27, 42 between the infiltration that is used for infiltration, filtration coolant liquid is connected with to the filter tube 27 lower extreme, 42 lower extremes is connected with the hydrops district 40 that is used for collecting the coolant liquid between the infiltration, draw liquid board 26 lower extreme fixedly connected with to be located hydrops district 40 lower extreme and be used for filtering, the filtrating osmotic membrane 43 of recirculated coolant liquid, filtrating osmotic membrane 43 lower extreme is connected with and is used for collecting the coolant liquid and draws the permeate liquid district 41 of leading lower extreme, permeate liquid district 18 is connected to 41 lower extremes.

A use method of a machining center for quickly drilling automobile parts mainly comprises the following steps:

the method comprises the following steps: fixedly connecting a workpiece to be processed to the upper end of the operating plate 2, adjusting the position, and fixedly connecting the operating plate 2 to the upper end of the fixed plate seat 19 to wait for processing;

step two: the cooling liquid required to be used is filled into a filter box 23, the cooling liquid is continuously supplemented for a liquid outlet box 12 through an upper penetration pipe 24, a rotary head motor 10 is started to drill a workpiece fixedly connected to the upper end of an operation plate 2, and meanwhile a fragment conveyor belt 14 is started to collect and convey the fragments falling through a blanking port 8;

step three: the chips falling to the upper end of the chip conveyor belt 14 are conveyed to chip collecting ports 25 at two ends through the chip conveyor belt 14, are processed and fall to the chip collecting box 16 for collection, and then are subjected to subsequent processing;

step four: when the rotary head 3 is driven by the rotary head motor 10 to perform drilling operation, the liquid conveying pipe 33 has a suction function, when the right end of the liquid spraying port 34 is connected with the left end of the liquid spraying pipe 21, the liquid spraying port 34 extracts the cooling liquid stored in the liquid outlet box 12, and the cooling liquid is guided to the liquid outlet 36 through the liquid conveying pipe 32 to be sprayed out to continuously provide cooling liquid for a drilling area;

step five: the suction box 9 is used for performing suction operation, when the left end of the liquid suction pipe 20 is connected with the liquid suction port 29, the suction pipe 33 is sucked, the return port 38 sucks air inside the feeding thread 35 and the drill bit 37 to generate negative pressure, part of the cooling liquid sprayed out through the liquid outlet 36 is guided to the working position of the drill bit to be cooled, the cooling liquid after circulating cooling is sucked to the suction box 9 through the return port 38 to be recycled, filtered and processed for recycling, the other part of the cooling liquid is sprayed into the operation board 2 through drilling, the cooling liquid is guided to the filtrate net bag 17 through the liquid guide board 26 to be filtered and processed for recycling, and the cooling liquid is recovered to the filter box 23 through the liquid seepage pipe 18 to be recycled.

While the invention has been shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

Claims

1. The utility model provides a machining center for quick drilling of automobile parts, includes base (1), adjusts pole (4), sliding seat (5), slip way (13) and slider (22), characterized by: the waste material conveying device is characterized in that an adjusting rod (4) is fixedly connected to the upper end of the base (1), a sliding channel (13) is formed in the rear end of the adjusting rod (4), a sliding block (22) is connected to the inner side of the sliding channel (13) in a sliding mode, a sliding seat (5) is fixedly connected to the rear end of the sliding seat (5), a connecting seat (6) is fixedly connected to the rear end of the connecting seat (6), an operating box (7) is fixedly connected to the lower end of the operating box (7) in a rotating mode, a rotating head connecting seat (11) is fixedly connected to the upper end of the rotating head (3) after penetrating through the operating box (7), a rotating head motor (10) for driving rotation is fixedly connected to the upper end of the rotating head connecting seat (11), the rotating head motor (10) is fixedly connected to the upper end of the inner wall of the operating box (7), and a feeding thread (35) with a waste material conveying effect is formed in the outer side of the rotating head (3), pay-off screw thread (35) upper end is rotated and is connected with first fixed part (44) of turning, first fixed part (44) fixed connection is in control box (7) bottom inner wall upper end, inside last rotation (30) of opening disk shape in control box (7) upper end, inside being located of control box (7) is rotated between (30) lower extreme and is opened lower rotation (31) that have disk shape, base (1) upper end fixedly connected with is used for placing operation panel (2) of operation work piece, base (1) upper end fixedly connected with a plurality of is used for solid board seat (19) of fixed connection operation panel (2).

2. The machining center for rapid drilling of automobile parts as claimed in claim 1, wherein: the lower end of the rotary head (3) is fixedly connected with a drill bit (37) for drilling.

3. The machining center for rapid drilling of automobile parts as claimed in claim 2, wherein: go up between the rotation (30) left end and be connected with liquid suction pipe (20), liquid suction pipe (20) left end is connected with suction box (9) that are used for suction and filtration coolant liquid, suction box (9) fixed connection is in operation box (7) bottom inner wall upper end, rotatory room (31) right-hand member is connected with hydrojet pipe (21) down, hydrojet pipe (21) right-hand member is connected with liquid outlet tank (12) that are used for spraying the coolant liquid, liquid outlet tank (12) fixed connection is in operation box (7) bottom inner wall upper end.

4. A machining center for rapid drilling of automotive parts according to claim 3, characterized in that: go up rotatory interior sliding connection of (30) and have suction opening (29), the one end of suction opening (29) is connected with suction tube (32), the other end of suction opening (29) is equipped with the port that can match with liquid suction pipe (20) right-hand member, rotatory interior sliding connection of (31) down has hydrojet mouth (34), the one end of hydrojet mouth (34) is connected with transfer line (33), the other end of hydrojet mouth (34) is equipped with the port that can match with hydrojet pipe (21) left end, suction tube (32) lower extreme is connected with the one end of backward flow mouth (38), the other end of backward flow mouth (38) is connected in pay-off screw thread (35) medial surface, transfer line (33) lower extreme is connected with the one end of liquid outlet (36), the other end of liquid outlet (36) is connected in pay-off screw thread (35) outside terminal surface.

5. The machining center for the rapid drilling of the automobile parts as claimed in claim 4, wherein: open between solid board seat (19) and have a plurality of to be used for dropping the piece or cool off blanking mouth (8) of waste liquid, both ends fixedly connected with piece conveyer belt (14) around base (1), both ends transmission is connected with drive wheel (15) of fixed connection at base (1) inner wall about piece conveyer belt (14), four ends fixedly connected with piece collecting box (16) of base (1), piece collecting box (16) upper end is through piece collection mouth (25) connection piece conveyer belt (14) both ends.

6. The machining center for rapid drilling of automobile parts as claimed in claim 5, wherein: base (1) middle-end fixedly connected with draws liquid board (26), draw liquid board (26) middle-end fixedly connected with filtrating string bag (17), filtrating string bag (17) lower extreme is connected with the one end of sepage pipe (18), the other end of sepage pipe (18) is connected with rose box (23), rose box (23) fixed connection is inside base (1) rear end.

7. The machining center for rapid drilling of automobile parts as claimed in claim 6, wherein: the upper end of the filter box (23) is connected with one end of a left upper penetrating pipe (24) and one end of a right upper penetrating pipe (24), and the other end of the upper penetrating pipe (24) penetrates through the operation box (7) to be connected and supplies cooling liquid for the liquid outlet box (12).

8. The machining center for rapid drilling of automobile parts as claimed in claim 7, wherein: filter string bag (17) upper end is equipped with osmotic disc (28), osmotic disc (28) lower extreme is connected with a plurality of filter tube (27), filter tube (27) lower extreme is connected with between (42) that is used for the infiltration, filters the coolant liquid, between the infiltration (42) lower extreme is connected with hydrops district (40) that are used for collecting the coolant liquid, draw liquid board (26) lower extreme fixedly connected with to be located hydrops district (40) lower extreme and be used for filtering, circulating cooling liquid's filtrating osmotic membrane (43), filtrating osmotic membrane (43) lower extreme is connected with and is used for collecting the coolant liquid and draws the diathermic district (41) of direction lower extreme, infiltration pipe (18) are connected to diathermic district (41) lower extreme.

9. The use method of the machining center for the rapid drilling of the automobile parts as claimed in claim 8 mainly comprises the following steps:

the method comprises the following steps: fixedly connecting a workpiece to be processed to the upper end of the operating plate (2), adjusting the position, and fixedly connecting the operating plate (2) to the upper end of the fixed plate seat (19) to wait for processing;

step two: the method comprises the following steps of filling cooling liquid required to be used into a filter box (23), continuously supplementing the cooling liquid for a liquid outlet box (12) through an upper penetration pipe (24), opening a rotary head motor (10) to drill a workpiece fixedly connected to the upper end of an operation plate (2), and simultaneously opening a chip conveyor belt (14) to collect and convey chips falling through a blanking port (8);

step three: the chips falling to the upper end of the chip conveyor belt (14) are conveyed to chip collecting ports (25) at two ends through the chip conveyor belt (14), are treated and fall to a chip collecting box (16) for collection, and then are subjected to subsequent processing;

step four: when the rotary head (3) is driven by the rotary head motor (10) to perform drilling operation, the liquid conveying pipe (33) has a suction function, when the right end of the liquid spraying port (34) is connected with the left end of the liquid spraying pipe (21), the liquid spraying port (34) pumps out cooling liquid stored in the liquid outlet box (12), and the cooling liquid is guided to the liquid outlet (36) through the liquid conveying pipe (32) to be sprayed out to continuously provide cooling liquid cooling for a drilling area;

step five: suction operation is done to suction box (9), when liquid suction pipe (20) left end and drawing liquid mouth (29) are connected suction tube (33), backward flow mouth (38) suction pay-off screw thread (35) and drill bit (37) inboard air cause the negative pressure, guide part to the drill bit operating position through liquid outlet (36) spun coolant liquid and cool off, coolant liquid after the circulative cooling is through backward flow mouth (38) suction to suction box (9) recovery, filtration and processing, carry out cyclic utilization, another part is sprayed into operation panel (2) through drilling spun coolant liquid, through drawing liquid board (26) drainage to filtrating string bag (17) filtration and processing circulation, retrieve the coolant liquid to rose box (23) through sepage pipe (18) again and collect the reuse.