CN116000636A - Drilling and tapping equipment and method for milling production of die smelting tool - Google Patents

Abstract

The invention belongs to the technical field of drilling and tapping, and particularly relates to drilling and tapping equipment and a drilling and tapping method for milling production of a die-smelting tool; the drilling and tapping apparatus includes: the drilling and tapping seat is provided with a drilling drill and a tapping drill; a base and a clamping mechanism; according to the invention, the clamping mechanism is arranged, so that the clamping mechanism can automatically and quickly clamp the die jigs with different shapes, the clamping step is simplified, the clamping is simple and convenient, the die jigs with different shapes can be adapted, the applicability is improved, the die tapping machine is suitable for drilling and tapping with multiple holes, the die tapping machine is more suitable for assembly line type operation, and the production efficiency is improved.

Description

Drilling and tapping equipment and method for milling production of die smelting tool

Technical Field

The invention belongs to the technical field of drilling and tapping, and particularly relates to drilling and tapping equipment and a drilling and tapping method for milling production of a die-smelting tool.

Background

The industrial production of the mould is used for obtaining various moulds and tools of required products by injection molding, blow molding, extrusion, die casting or forging forming, smelting, stamping and other methods; in short, a mold is a tool for making a molded article, which is composed of various parts, and different molds are composed of different parts; the processing of the appearance of the article is realized mainly by changing the physical state of the formed material; the "industrial mother" is the name; the jig is a large-scale tool for woodworking, ironwork, bench workers, machinery, electric control and other handicraft articles, and is mainly used as a tool for assisting in controlling the position or the action; the jig can be divided into three types, namely a process assembly jig, a project test jig and a circuit board test jig.

When the die jig is produced, drilling and tapping are carried out on the die jig according to actual needs, and when the drilling and tapping are carried out, the die jig is fixed and positioned, then the drilling is carried out, and then the tapping is carried out after the drilling; in the fixing and positioning process, the prior art is complex in operation and inconvenient, a large number of steps are needed in the clamping process of the die fixture, the accurate positioning process is needed, the production efficiency is affected, when the number of drilling and tapping is large, the frequent fixing and releasing are carried out, the operation is more complex, and the defect is more obvious in the assembly line operation; and when the shape of the die jig is different, the jigs of different types need to be replaced, and the applicability is not high.

In view of the above, the present invention solves the above-mentioned problems by providing a drilling and tapping apparatus and method for milling in die-tooling production.

Disclosure of Invention

In order to make up for the defects in the prior art, when the die jig is used for drilling and tapping, the die jig is rapidly clamped and fixed, and can adapt to different die jigs, the invention provides drilling and tapping equipment and a drilling and tapping method for milling and processing of the die jig.

The technical scheme adopted for solving the technical problems is as follows: drilling and tapping equipment for milling production of die tools comprises: the drilling and tapping seat is provided with a drilling drill and a tapping drill; the drilling and tapping seat is arranged on the base; the base is provided with a first cavity, and a first conveyor belt is arranged at the bottom of the first cavity; the clamping mechanism is arranged in the first cavity and can automatically and quickly clamp the die jigs with different shapes;

the clamping mechanism is arranged, and can automatically and quickly clamp the die jigs with different shapes, so that the clamping step is simplified, the clamping is simple and convenient, the die jigs with different shapes can be adapted, the applicability is improved, the multi-hole-site drilling and tapping can be performed, the multi-hole-site drilling and tapping machine is more suitable for assembly line operation, and the production efficiency is improved;

when the jig clamping device is used, a plurality of jig clamping devices are transported to the first cavity of the base through the transmission device, such as a conveyor belt, the first conveyor belt in the first cavity is used for transmitting the plurality of jig clamping devices, when the jig clamping devices move to the lower part of the clamping mechanisms, the clamping mechanisms clamp the jig clamping devices, and a photoelectric sensor can be arranged below the clamping mechanisms to achieve the effect; then the drilling and tapping seat drills the die jig, and taps after drilling; the drilling and tapping seat can slide on the base and is provided with a drilling and tapping drill, and the prior art can be referred to specifically.

Preferably, the clamping mechanism comprises: the second conveyor belt is arranged on two side walls of the first cavity; the square seat is arranged in the first cavity and fixedly connected with the two second conveyor belts; the middle part of the square seat is provided with a second cavity, and a plurality of telescopic columns are distributed on the inner wall ring of the second cavity.

Preferably, the end part of each telescopic column is fixedly connected with a flexible air bag.

Preferably, the flexible air bag is of a hollow structure, a plurality of third cavities are annularly distributed at the part, close to the second cavity, in the square seat, each telescopic column is slidably connected in the third cavity, a first channel is formed in each telescopic column, and the third cavities are communicated with the inside of the flexible air bag through the first channel; the square seat is internally provided with a second channel, and the second channel is used for communicating the inside of each third cavity.

Preferably, the both sides sliding connection of square seat bottom has the backup pad, every the both ends fixedly connected with L shape pole of backup pad, seted up two No. four cavitys in the square seat, every No. four cavity's both ends link firmly an electro-magnet, every L shape pole stretches into in the No. four cavity and has linked firmly the piston, every the both ends of piston have linked firmly No. two electro-magnets and No. three electro-magnets respectively.

Preferably, the fourth cavity is communicated with the second channel, and hydraulic oil is filled in the fourth cavity, the second channel, the third cavity, the first channel and the flexible air bag.

When the first conveyor belt conveys the die jig to the position below the second cavity on the square seat, the second conveyor belt starts to drive the square seat to move down, and as the second electromagnet is fixedly connected to one end of the piston, which is far away from the supporting plate, and the magnetism of the surface, which is close to the second electromagnet, of the piston is different, the two second electromagnets are started, and the two second electromagnets are attracted to each other; one surface of the two support plates, which is close to each other, can be provided with an inclined surface, so that the shovel is convenient to move;

every flexible post is flexible different length to this satisfies the mould tool of different shapes, flexible gasbag inflation, extrusion die tool, increases extrusion force, consolidates the centre gripping of flexible post to the mould tool, and protects the mould tool surface, prevents that flexible post from damaging the mould tool surface, flexible post centre gripping mould tool surface, backup pad support mould tool bottom.

Preferably, brushes are fixedly arranged on one sides of the square seat and positioned on the two supporting plates.

The brush can brush two backup pad upper surfaces, brushes away the metal fillings to a conveyer belt, and a conveyer belt also drives the metal fillings motion when carrying the mould tool, and the metal fillings that the tapping produced have been cleared up in the phase change.

The drilling and tapping method for milling production of the die-smelting tool adopts the drilling and tapping equipment for milling production of the die-smelting tool, and comprises the following steps of:

s1: firstly, conveying a plurality of die jigs to a first cavity of a base through a conveying device, and then conveying the plurality of die jigs by a first conveyor belt in the first cavity;

s2: when the first conveyor belt conveys the die jig to the position below the second cavity on the square seat, the second conveyor belt starts, the second conveyor belt enables the square seat to move downwards, two second electromagnets are started, the two second electromagnets are attracted to each other, the two support plates are close to each other, and the die jig is shoveled up from the bottom; when the pistons are close to each other, hydraulic oil in the fourth cavity is extruded, the hydraulic oil enters the second channel from the fourth cavity, then enters the third cavity from the second channel, and the telescopic columns are extruded, so that the telescopic columns extend out until the telescopic columns contact with the die jig, each telescopic column stretches out and draws back for different lengths, so that the die jigs with different shapes are met, the telescopic columns clamp the surfaces of the die jigs, and the supporting plates support the bottoms of the die jigs; then the second conveyor belt drives the square seat to move upwards, the drilling and tapping seat drills the die jig, and after drilling is finished, the drilling and tapping seat moves on the base and taps the die jig;

s3: after the drilling and tapping are finished, the square seat is driven to move downwards by the second conveyor belt, the two second electromagnets are powered off, the two first electromagnets in the fourth cavity are powered on, the third electromagnets are powered on, the first electromagnets and the third electromagnets are mutually attracted, so that the supporting plate is mutually far away, the contact supporting plate acts on the supporting of the bottom of the die jig, when the pistons are mutually far away, the four pistons pump hydraulic oil, the telescopic column contracts, the telescopic column contacts the clamping of the die jig, the second conveyor belt drives the square seat to ascend, and then the first conveyor belt transports the die jig after the drilling and tapping.

The beneficial effects of the invention are as follows:

1. according to the drilling and tapping equipment and method for the production and milling of the die tools, the clamping mechanism is arranged, so that the die tools with different shapes can be automatically and quickly clamped by the clamping mechanism, the clamping step is simplified, the clamping is simple and convenient, the die tools with different shapes can be adapted, the applicability is improved, the drilling and tapping equipment and method for the production line are suitable for multi-hole drilling and tapping, the production efficiency is improved, and the drilling and tapping equipment and the method for the production line are suitable for the production line work.

2. According to the drilling and tapping equipment and method for milling the production of the die jig, when the first conveyor belt conveys the die jig to the position below the second cavity on the square seat, the second conveyor belt is started, the square seat is moved downwards by the second conveyor belt, two second electromagnets are started, the two second electromagnets are attracted to each other, so that the two support plates are close to each other, and the die jig is shoveled up from the bottom; when the pistons are close to each other, hydraulic oil in the fourth cavity is extruded, the hydraulic oil enters the second channel from the fourth cavity, then enters the third cavity from the second channel, and the telescopic columns are extruded, so that the telescopic columns extend out until the telescopic columns contact with the die jig, each telescopic column stretches out and draws back for different lengths, so that the die jigs with different shapes are met, the telescopic columns clamp the surfaces of the die jigs, and the supporting plates support the bottoms of the die jigs; and then the second conveyor belt drives the square seat to move upwards, the drilling and tapping seat drills the die jig, and after the drilling is finished, the drilling and tapping seat moves on the base and taps the die jig.

3. According to the drilling and tapping equipment and method for the production and milling of the die and jig, after drilling and tapping are finished, the square seat is driven to move downwards by the second conveyor belt, the two second electromagnets are powered off, the two first electromagnets in the fourth cavity are powered on, the third electromagnets are powered on, the first electromagnets and the third electromagnets are mutually attracted, so that the supporting plates are mutually far away, the supporting plates are contacted to support the bottoms of the die and jig, when the pistons are mutually far away, the four pistons draw hydraulic oil, the telescopic columns shrink, the telescopic columns are contacted with the clamping of the die and jig, the square seat is driven to ascend by the second conveyor belt, and then the die and jig after drilling and tapping is transported away by the first conveyor belt.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a perspective view of the clamping mechanism of the present invention;

FIG. 4 is a perspective view of another view of the clamping mechanism of the present invention;

FIG. 5 is a cross-sectional view of the invention at a square seat telescoping post;

FIG. 6 is an enlarged view of a portion at A of FIG. 5;

FIG. 7 is a cross-sectional view of the present invention at a square seat support plate;

fig. 8 is a partial enlarged view at B of fig. 7;

in the figure: 1. drilling and tapping seat; 2. a base; 21. a first cavity; 22. a first conveyor belt; 3. a clamping mechanism; 31. a second conveyor belt; 32. a square seat; 321. a second cavity; 322. a telescopic column; 33. a flexible balloon; 34. a third cavity; 35. a first channel; 36. a second channel; 4. a support plate; 41. an L-shaped rod; 42. a fourth cavity; 43. a first electromagnet; 44. a piston; 45. a second electromagnet; 46. a third electromagnet; 5. a brush.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 and 2;

the invention relates to drilling and tapping equipment for milling in die-smelting tool production, which comprises the following components: the drilling and tapping seat 1 is provided with a drilling drill and a tapping drill; the base 2, the drilling and tapping seat 1 is arranged on the base 2; the base 2 is provided with a first cavity 21, and the bottom of the first cavity 21 is provided with a first conveyor belt 22; the clamping mechanism 3 is arranged in the first cavity 21, and the clamping mechanism 3 can automatically and rapidly clamp die jigs of different shapes.

During working, when the die jig is produced, drilling and tapping are carried out on the die jig according to actual needs, and when the die jig is drilled and tapped, the die jig is fixed and positioned, then the die jig is drilled, and then the die jig is tapped after the drilling is carried out; in the fixing and positioning process, the prior art is complex in operation and inconvenient, a large number of steps are needed in the clamping process of the die fixture, the accurate positioning process is needed, the production efficiency is affected, when the number of drilling and tapping is large, the frequent fixing and releasing are carried out, the operation is more complex, and the defect is more obvious in the assembly line operation; when the shapes of the die jigs are different, the jigs of different types need to be replaced, and the applicability is not high; the clamping mechanism 3 is arranged, the clamping mechanism 3 can automatically and quickly clamp the die jigs with different shapes, the clamping step is simplified, the clamping is simple and convenient, the die jigs with different shapes can be adapted, the applicability is improved, the die tapping machine is suitable for multi-hole drilling and tapping, the die tapping machine is more suitable for assembly line operation, and the production efficiency is improved;

when the jig clamping device is used, a plurality of jig clamping devices are firstly transported to the first cavity 21 of the base 2 through a transmission device, such as a conveyor belt, the first conveyor belt 22 in the first cavity 21 is used for transmitting the plurality of jig clamping devices, when the jig clamping devices move to the lower part of the clamping mechanism 3, the clamping mechanism 3 clamps the jig clamping devices, and a photoelectric sensor can be arranged below the clamping mechanism 3 to achieve the effect; then the drilling and tapping seat 1 drills holes on the die jig, and taps the die after drilling holes; the drilling and tapping block 1 is capable of sliding on the base 2 and is provided with a drill and a tap, as reference is made in particular to the prior art.

As a specific embodiment of the present invention, as shown in fig. 1 and 3; the clamping mechanism 3 includes: the second conveyor belt 31, two side walls of the first cavity 21 are provided with the second conveyor belt 31; square seat 32, square seat 32 is set in first cavity 21 and fixedly connected with two second conveyer belts 31; a second cavity 321 is formed in the middle of the square seat 32, and a plurality of telescopic columns 322 are distributed on the inner wall of the second cavity 321 in a ring manner;

as shown in fig. 3; the end of each telescopic column 322 is fixedly connected with a flexible air bag 33;

as shown in fig. 5 and 6; the flexible air bag 33 is of a hollow structure, a plurality of third cavities 34 are annularly distributed at the part, close to the second cavity 321, in the square seat 32, each telescopic column 322 is slidably connected in the third cavity 34, a first channel 35 is formed in each telescopic column 322, and the first channel 35 is used for communicating the third cavity 34 with the inside of the flexible air bag 33; a second channel 36 is arranged in the square seat 32, and the second channel 36 communicates the interior of each third cavity 34;

as shown in fig. 4, 7 and 8; the two sides of the bottom of the square seat 32 are connected with the support plates 4 in a sliding manner, the two ends of each support plate 4 are fixedly connected with L-shaped rods 41, two fourth cavities 42 are formed in the square seat 32, the two ends of each fourth cavity 42 are fixedly connected with first electromagnets 43, each L-shaped rod 41 stretches into each fourth cavity 42 and is fixedly connected with a piston 44, and the two ends of each piston 44 are respectively fixedly connected with second electromagnets 45 and third electromagnets 46;

the fourth cavity 42 communicates with the second channel 36, and the fourth cavity 42, the second channel 36, the third cavity 34, the first channel 35, and the inside of the flexible bladder 33 are filled with hydraulic oil.

When the die jig is transported to the lower part of the second cavity 321 on the square seat 32 by the first conveyor belt 22, the second conveyor belt 31 is started, the square seat 32 is driven by the second conveyor belt 31 to enable the square seat 32 to move downwards, as one end of the piston 44 away from the supporting plate 4 is fixedly connected with the second electromagnet 45, and one surfaces of the two second electromagnets 45, which are close to each other, are different in magnetism, the two second electromagnets 45 are started, the two second electromagnets 45 attract each other, so that the two L-shaped rods 41 are close to each other, the two supporting plates 4 are distributed on two sides of the bottom of the square seat 32, when the two supporting plates 4 are close to each other, the two supporting plates 4 move to the lower part of the second cavity 321, and the die jig is shoveled from the bottom, and in order to achieve the effect, one surfaces of the two supporting plates 4, which are close to each other, can be provided with inclined surfaces, so that shoveling is convenient; when the pistons 44 are close to each other, hydraulic oil in the fourth cavity 42 is extruded, the hydraulic oil enters the second channel 36 from the fourth cavity 42, then enters the third cavity 34 from the second channel 36, the telescopic columns 322 are extruded, so that the telescopic columns 322 extend out until the telescopic columns 322 contact with the die jig, each telescopic column 322 stretches out and draws back to different lengths, so that the die jigs with different shapes are met, when the telescopic columns 322 contact the die jig, the flexible air bag 33 contacts the die jig, hydraulic oil in the third cavity 34 enters the flexible air bag 33 through the first channel 35, so that the flexible air bag 33 expands, the die jig is extruded, extrusion force is increased, clamping of the telescopic columns 322 on the die jig is reinforced, the die jig surface is protected, the die jig surface is prevented from being damaged by the telescopic columns 322, the die jig surface is clamped by the telescopic columns 322, and the die jig bottom is supported by the support plate 4; then the second conveyor belt 31 drives the square seat 32 to move upwards, the drilling and tapping seat 1 drills the die jig, and after the drilling is finished, the drilling and tapping seat 1 moves on the base 2 and taps the die jig; after the drilling and tapping are finished, the square seat 32 is driven to move downwards by the second conveyor belt 31, the two second electromagnets 45 are powered off, the two first electromagnets 43 in the fourth cavity 42 are powered on, one end, close to the supporting plate 4, of the piston 44 is fixedly provided with the third electromagnet 46, the third electromagnet 46 is powered on, the first electromagnets 43 and the third electromagnet 46 are mutually attracted, so the L-shaped rod 41 is mutually far away, the supporting plate 4 is driven to be mutually far away, the supporting effect of the supporting plate 4 on the bottom of the die jig is relieved, when the pistons 44 are mutually far away, the four pistons 44 pump hydraulic oil, so that hydraulic oil in the flexible air bag 33, hydraulic oil in the third cavity 34 and hydraulic oil in the second channel 36 enter the fourth cavity 42, the telescopic column 322 is contracted, the telescopic column 322 is contacted with the clamping of the die jig, the second conveyor belt 31 drives the square seat 32 to ascend, and then the first conveyor belt transports the die jig after the drilling and tapping.

As a specific embodiment of the present invention, as shown in fig. 4 and 7; the square seat 32 is fixedly provided with a brush 5 at one side of the two support plates 4.

During operation, can produce the metal fillings when drilling and tapping, the metal fillings can fall on backup pad 4, so set up brush 5 on square seat 32, when two backup pads 4 keep away from each other, brush 5 can brush two backup pads 4 upper surfaces, brushes away the metal fillings to a conveyer belt, and conveyer belt 22 also drives the metal fillings motion when carrying the mould tool, and the metal fillings that drilling and tapping produced have been cleared up to the phase change.

The drilling and tapping method for the milling of the die-metallurgy tool production adopts the drilling and tapping equipment for the milling of the die-metallurgy tool production, and comprises the following steps:

s1: firstly, a plurality of die jigs are transported to a first cavity 21 of a base 2 through a transmission device, and a first conveyor belt 22 in the first cavity 21 is used for transmitting the die jigs;

s2: when the first conveyor belt 22 conveys the die jig to the lower part of the second cavity 321 on the square seat 32, the second conveyor belt 31 is started, the second conveyor belt 31 enables the square seat 32 to move downwards, the two second electromagnets 45 are started, the two second electromagnets 45 attract each other, the two support plates 4 are close to each other, and the die jig is scooped up from the bottom; when the pistons 44 are close to each other, hydraulic oil in the fourth cavity 42 is extruded, the hydraulic oil enters the second channel 36 from the fourth cavity 42, then enters the third cavity 34 from the second channel 36, the telescopic columns 322 are extruded, so that the telescopic columns 322 extend out until the telescopic columns 322 contact with the die jig, each telescopic column 322 stretches out and draws back to different lengths, so that the die jigs with different shapes are met, the telescopic columns 322 clamp the surfaces of the die jigs, and the support plate 4 supports the bottoms of the die jigs; then the second conveyor belt 31 drives the square seat 32 to move upwards, the drilling and tapping seat 1 drills the die jig, and after the drilling is finished, the drilling and tapping seat 1 moves on the base 2 and taps the die jig;

s3: after the drilling and tapping are finished, the square seat 32 is driven by the second conveyor belt 31 to move downwards, the two second electromagnets 45 are powered off, the two first electromagnets 43 in the fourth cavity 42 are powered on, the third electromagnets 46 are powered on, the first electromagnets 43 and the third electromagnets 46 are attracted mutually, the supporting plates 4 are far away from each other, the supporting plates 4 are contacted with the supporting of the bottoms of the die jigs, when the pistons 44 are far away from each other, the four pistons 44 pump hydraulic oil, the telescopic columns 322 shrink, the telescopic columns 322 are contacted with the clamping of the die jigs, the second conveyor belt 31 drives the square seat 32 to ascend, and then the first conveyor belt transports the die jigs after the drilling and tapping.

Claims (8)

1. Drilling and tapping equipment for milling production of die tools comprises:

the drilling and tapping seat (1), wherein a drilling drill and a tapping drill are arranged on the drilling and tapping seat (1);

the method is characterized in that: comprising the following steps:

the base (2), the said drilling tapping seat (1) is set up on base (2); a first cavity (21) is formed in the base (2), and a first conveyor belt (22) is arranged at the bottom of the first cavity (21);

the clamping mechanism (3) is arranged in the first cavity (21), and the clamping mechanism (3) can automatically and rapidly clamp die jigs of different shapes.

2. The drilling and tapping equipment for milling of die-metallurgical production according to claim 1, wherein: the clamping mechanism (3) comprises:

the second conveyor belt (31) is arranged on two side walls of the first cavity (21);

the square seat (32) is arranged in the first cavity (21) and fixedly connected with the two second conveyor belts (31); a second cavity (321) is formed in the middle of the square seat (32), and a plurality of telescopic columns (322) are distributed on the inner wall of the second cavity (321) in a ring mode.

3. The drilling and tapping device for milling of die-metallurgical production according to claim 2, wherein: the end part of each telescopic column (322) is fixedly connected with a flexible air bag (33).

4. A die-tooling production milling drilling and tapping apparatus as set forth in claim 3, wherein: the flexible air bag (33) is of a hollow structure, a plurality of third cavities (34) are annularly distributed at the part, close to the second cavity (321), in the square seat (32), each telescopic column (322) is slidably connected in the third cavity (34), a first channel (35) is formed in each telescopic column (322), and the first channel (35) is used for communicating the third cavity (34) with the inside of the flexible air bag (33); a second channel (36) is arranged in the square seat (32), and each third cavity (34) is internally communicated by the second channel (36).

5. The drilling and tapping equipment for milling of die-tooling production as set forth in claim 4, wherein: the two sides sliding connection of square seat (32) bottom have backup pad (4), every the both ends fixedly connected with L shape pole (41) of backup pad (4), two No. four cavitys (42) have been seted up in square seat (32), every No. four cavity (42) both ends have linked firmly a No. one electro-magnet (43), every L shape pole (41) stretch into in No. four cavity (42) and have linked firmly piston (44), every the both ends of piston (44) have linked firmly No. two electro-magnet (45) and No. three electro-magnet (46) respectively.

6. The drilling and tapping equipment for milling of die-tooling production as set forth in claim 5, wherein: the fourth cavity (42) is communicated with the second channel (36), and hydraulic oil is filled in the fourth cavity (42), the second channel (36), the third cavity (34), the first channel (35) and the flexible air bag (33).

7. The drilling and tapping equipment for milling of die-tooling production as set forth in claim 6, wherein: and brushes (5) are fixedly arranged on one sides of the square seat (32) and the two supporting plates (4).

8. A drilling and tapping method for milling in die-metallurgy production, which is applied to the drilling and tapping equipment for milling in die-metallurgy production according to any one of claims 1-7, and is characterized in that: the method comprises the following steps:

s1: firstly, conveying a plurality of die jigs to a first cavity (21) of a base (2) through a conveying device, and then conveying the plurality of die jigs by a first conveying belt (22) in the first cavity (21);

s2: when the first conveyor belt (22) conveys the die jig to the position below the second cavity (321) on the square seat (32), the second conveyor belt (31) is started, the second conveyor belt (31) enables the square seat (32) to move downwards, two second electromagnets (45) are started, the two second electromagnets (45) attract each other, the two support plates (4) are close to each other, and the die jig is shoveled up from the bottom; when the pistons (44) are close to each other, hydraulic oil in the fourth cavity (42) is extruded, the hydraulic oil enters the second channel (36) from the fourth cavity (42), then enters the third cavity (34) from the second channel (36), the telescopic columns (322) are extruded, the telescopic columns (322) extend out until the telescopic columns contact with the die jig, each telescopic column (322) stretches out and draws back to different lengths, so that the die jigs with different shapes are met, the telescopic columns (322) clamp the surfaces of the die jigs, and the supporting plates (4) support the bottoms of the die jigs; then the second conveyor belt (31) drives the square seat (32) to move upwards, the drilling and tapping seat (1) drills the die jig, and after the drilling is finished, the drilling and tapping seat (1) moves on the base (2) and taps the die jig;

s3: after the drilling and tapping are finished, the square seat (32) is driven by the second conveying belt (31) to move downwards, the two second electromagnets (45) are powered off, the two first electromagnets (43) in the fourth cavity (42) are powered on, the third electromagnets (46) are powered on, the first electromagnets (43) and the third electromagnets (46) are mutually attracted, so that the supporting plate (4) is mutually away, the supporting plate (4) is contacted with the supporting of the bottom of the die jig, when the pistons (44) are mutually away, the four pistons (44) pump hydraulic oil, the telescopic column (322) is contracted, the telescopic column (322) is contacted with the clamping of the die jig, the second conveying belt (31) drives the square seat (32) to ascend, and then the first conveying belt conveys the die jig after the drilling and tapping.

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