CN115255436A - Drilling equipment is used in die casting die production - Google Patents

Abstract

The invention relates to the field of die-casting die production, in particular to drilling equipment for die-casting die production, which comprises a mechanical arm arranged on a bottom plate, wherein a drill bit is arranged on the mechanical arm, a die-casting die body is placed on the bottom plate, a protective frame for protecting the die-casting die body in a drilling process is arranged on the bottom plate, the die-casting die body is arranged in the protective frame, two mounting frames are fixed on the bottom plate, a rectangular plate is connected between the two mounting frames through a moving assembly, and two mounting plates which are symmetrically arranged with each other are fixed on the rectangular plate. According to the drilling equipment for producing the die-casting die, disclosed by the invention, in the process of drilling the die-casting die, when the detection component and the identification component are detected, whether horizontal deviation exists at the position of the die-casting die body to be drilled, the phenomenon that a formed hole after drilling is inclined is avoided, and the drilling of the die-casting die is facilitated.

Description

Drilling equipment is used in die casting die production

Technical Field

The invention relates to the field of die-casting die production, in particular to drilling equipment for die-casting die production.

Background

The die-casting die is a tool for casting metal parts, and is a tool for completing a die-casting process on a special die-casting die forging machine. The basic process of die casting comprises the following steps: molten metal is cast at low speed or high speed and filled into the cavity of the mold, the mold has movable cavity surface, and it is pressurized and forged along with the cooling process of the molten metal, so that the shrinkage cavity and shrinkage porosity defects of the blank are eliminated, and the internal structure of the blank reaches the broken crystal grains in the forged state. The comprehensive mechanical property of the blank is obviously improved.

The alloys used in die casting are mainly non-ferrous alloys, and ferrous metals (steel, iron, etc.) are less used due to problems with the die material, etc. The non-ferrous alloy die casting is widely used by aluminum alloy, and the zinc alloy is inferior.

The in-process of die casting die production need establish the pore-forming through drilling equipment boring on die casting die, but current die casting die is difficult to treat the levelness of drilling position to the die casting die after placing and detect at the in-process of drilling processing, when because die casting die fixes a position and places the in-process and takes place the deviation, when the pore-forming that makes die casting die's one side perk cause after the drilling takes place the slope, the die casting die's of being not convenient for drilling processing.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides drilling equipment for die-casting die production.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a drilling equipment is used in die casting die production, is including installing the robotic arm on the bottom plate, the last drill bit of installing of robotic arm, the die casting die body has been placed on the bottom plate, be provided with the protective frame of die casting die body drilling in-process protection on the bottom plate, the die casting die body sets up the inside at the protective frame, be fixed with two mounting brackets on the bottom plate, two be connected with the rectangular plate through removing the subassembly between the mounting bracket, be fixed with the mounting panel that two mutual symmetries set up on the rectangular plate, two be provided with the clearance subassembly of drilling in-process iron cutting clearance and the detection subassembly that die casting die body surface detected before the drilling processing between the mounting panel.

The movable assembly comprises a threaded rod connected between two mounting frames in a rotating mode, the rectangular plate is connected with the threaded rod in a threaded meshing mode, a guide rod is connected to the rectangular plate in a sliding mode, the two ends of the guide rod are fixed with the two mounting frames respectively, and a driving motor used for driving the threaded rod is installed on the mounting frames.

The clearance subassembly is including installing the connecting pipe on two mounting panels respectively, two the air inlet tank has been seted up to the relative one side of mounting panel, two the connecting pipe communicates with each other with the inside of two air inlet tanks respectively and sets up, two the other end of connecting pipe is fixed mutually, one side of rectangular plate is provided with the fan, install intake pipe and outlet duct on the fan, the intake pipe communicates with each other with the connecting pipe and sets up, be provided with a plurality of shutoff subassemblies that are used for the shutoff of admitting air on the air inlet tank.

The plugging assembly comprises two fixing plates fixed on the mounting plate, a rotating shaft is fixed between the fixing plates, a plugging plate used for plugging the air inlet duct is rotatably connected to the rotating shaft, and a pulling assembly pulled by the plugging plate is arranged on the mounting plate.

Pulling assembly is including fixing a plurality of dead levers on the mounting panel, each sliding connection has the slide bar on the dead lever, the other end of slide bar is fixed with the magnetic path, each the cover is equipped with first spring on the lateral wall of dead lever, be provided with between magnetic path and the shutoff board and be used for the coupling assembling of being connected with the shutoff board.

The connecting assembly comprises a connecting plate arranged between the magnetic block and the blocking plate, the two ends of the connecting plate are rotatably connected with connecting plates, and the two connecting plates are fixed with the blocking plate and the magnetic block respectively.

The detection assembly comprises an operating plate arranged above the mounting plate, a push rod is connected to the mounting plate in a sliding mode, a pushing assembly used for pushing the push rod is arranged on the mounting plate, the push rod is abutted to the upper end of the die-casting die body under the pushing effect of the pushing assembly, a transmission rod and a sleeve are connected to one side, opposite to the operating plate, of the operating plate through universal bulbs respectively, and an identification assembly used for identification after detection is arranged between the transmission rod and the sleeve.

The pushing assembly comprises a plurality of T-shaped rods fixed on the mounting plate, the operating plate is connected to the T-shaped rods in a sliding mode, a second spring is sleeved on the side wall of each T-shaped rod, and the push rod abuts against the upper end of the die-casting die body under the elastic force action of the second spring.

The identification assembly comprises a first L-shaped frame and a second L-shaped frame which are respectively fixed on the transmission rod and the sleeve, a pointer is rotatably connected to the second L-shaped frame, an indicating plate is fixed on the second L-shaped frame, and the first L-shaped frame is provided with a transmission assembly for pointer transmission.

The transmission assembly comprises a sliding groove formed in the pointer, a transmission pin is connected to the sliding groove in a sliding mode, and the transmission pin is fixed with the first L-shaped frame.

The invention has the beneficial effects that:

(1) According to the drilling equipment for producing the die-casting die, in the process of drilling the die-casting die, when the relative positions of the two push rods have height difference, the height difference exists between the two operation plates under the action of pushing of the two push rods, and in the process of generating the height difference between the two operation plates, the universal ball heads on the two operation plates are respectively connected with the transmission rod and the sleeve, so that the transmission rod is stressed to slide in the sleeve, in the process of sliding the transmission rod in the sleeve, the pointer is stressed to rotate on the second L-shaped frame through the interaction between the transmission pin on the first L-shaped frame and the sliding groove on the pointer, so that the pointer points to different positions on the indication plate, at the moment, whether horizontal deviation exists in the position of the die-casting die body to be drilled is identified through the position relation between the pointer and the indication plate, the phenomenon that the drilled hole is inclined is avoided, and the die-casting die is convenient to drill.

(2) According to the drilling equipment for producing the die-casting die, the fan is started, and in the process of starting the fan, the air inlet pipe, the two connecting pipes and the air inlet groove are exhausted from the air outlet pipe under the action of the fan, so that negative pressure is generated in the air inlet groove, the air inlet groove is not blocked by the blocking plate at the drilling position of the drill bit, iron scraps generated in the drilling process are sucked into the air inlet groove under the action of the internal pressure of the air inlet groove, the iron scraps generated in the drilling process are collected and cleaned, and the drill bit can conveniently and efficiently drill the die-casting die body.

Drawings

The invention is further illustrated by the following examples in conjunction with the drawings.

FIG. 1 is a schematic overall appearance structure diagram of a drilling device for producing die-casting molds, provided by the invention;

FIG. 2 is a schematic structural diagram of a detection assembly, a pushing assembly and an identification assembly of the drilling equipment for die-casting die production, which are provided by the invention;

FIG. 3 is a schematic structural diagram of a plugging assembly, a pulling assembly and a connecting assembly of the drilling equipment for die-casting die production, which is provided by the invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 5 is an enlarged view of the structure at B in FIG. 2;

FIG. 6 is an enlarged view of the structure at C in FIG. 3;

fig. 7 is an enlarged schematic view of the structure at D in fig. 5.

In the figure: 1. a base plate; 2. a robot arm; 3. a drill bit; 4. a protective frame; 5. a die-casting die body; 6. a mounting frame; 7. a rectangular plate; 801. a threaded rod; 802. a drive motor; 803. a guide bar; 9. mounting a plate; 1001. a connecting pipe; 1002. an air inlet groove; 1003. a fan; 1004. an air inlet pipe; 1005. an air outlet pipe; 1101. a fixing plate; 1102. a rotating shaft; 1103. a plugging plate; 1201. fixing the rod; 1202. a slide bar; 1203. a first spring; 1204. a magnetic block; 1301. connecting plates; 1302. a connecting plate; 1401. an operation panel; 1402. a universal ball head; 1403. a transmission rod; 1404. a sleeve; 1405. a push rod; 1501. a T-shaped rod; 1502. a second spring; 1601. a first L-shaped frame; 1602. a second L-shaped frame; 1603. a pointer; 1604. an indicator panel; 1701. a chute; 1702. a drive pin.

Detailed Description

The following description is given for illustrative embodiments of the invention with reference to specific examples, and it is to be understood that the invention is not limited to the details of the embodiments disclosed herein. It should be noted that the drawings provided in the following embodiments are only for illustrative purposes, are schematic drawings rather than actual drawings, and are not to be construed as limiting the invention, and in order to better illustrate the embodiments of the invention, some components in the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

In the description of the present invention, it should be understood that if there are terms such as "upper", "lower", "left", "right", "front", "back", etc., indicating orientations or positional relationships based on the orientations or positional relationships shown in the drawings, it is merely for convenience of description and simplicity of description, but does not indicate or imply that the indicated device or element must have a specific orientation, be constructed in a specific orientation, and be operated, therefore, the terms describing the positional relationships in the drawings are only used for illustrative purposes and are not to be construed as limiting the present invention, and those skilled in the art can understand the specific meanings for the above applications according to specific situations.

As shown in fig. 1-7, the drilling equipment for die casting die production comprises a mechanical arm 2 installed on a base plate 1, a drill bit 3 is installed on the mechanical arm 2, a die casting die body 5 is placed on the base plate 1, a protective frame 4 for protecting the die casting die body 5 in the drilling process is arranged on the base plate 1, the die casting die body 5 is arranged inside the protective frame 4, two mounting frames 6 are fixed on the base plate 1, a rectangular plate 7 is connected between the two mounting frames 6 through a moving assembly, two mounting plates 9 which are symmetrically arranged with each other are fixed on the rectangular plate 7, and a cleaning assembly for cleaning iron scraps in the drilling process and a detection assembly for detecting the surface of the die casting die body 5 before drilling are arranged between the two mounting plates 9.

Specifically, the removal subassembly is including rotating the threaded rod 801 of connection between two mounting brackets 6, rectangular plate 7 is connected with threaded rod 801 thread engagement, sliding connection has guide bar 803 on rectangular plate 7, the both ends of guide bar 803 are fixed mutually with two mounting brackets 6 respectively, install on the mounting bracket 6 and be used for threaded rod 801 driven driving motor 802, start driving motor 802, it rotates to drive threaded rod 801, at threaded rod 801 pivoted in-process, through the intermeshing transmission between threaded rod 801 and the rectangular plate 7 and the guide effect of guide bar 803, make rectangular plate 7 atress remove between two mounting brackets 6, through the removal of rectangular plate 7, drive two mounting panels 9 and remove in step.

Specifically, the cleaning assembly comprises connecting pipes 1001 which are respectively installed on two mounting plates 9, an air inlet groove 1002 is formed in one side, opposite to the two mounting plates 9, of each of the two connecting pipes 1001, the two connecting pipes are respectively communicated with the inside of the two air inlet grooves 1002, the other ends of the two connecting pipes 1001 are fixed, a fan 1003 is arranged on one side of a rectangular plate 7, an air inlet pipe 1004 and an air outlet pipe 1005 are installed on the fan 1003, the air inlet pipe 1004 is communicated with the connecting pipes 1001, a plurality of plugging assemblies for air inlet plugging are arranged on the air inlet groove 1002, the fan 1003 is started, in the starting process of the fan 1003, air is sucked into the air inlet pipe 1004, the inside of the two connecting pipes 1001 and the air inlet groove 1002 and is discharged from the air outlet pipe 1005 under the action of the fan 1003, negative pressure is generated in the air inlet groove 1002, therefore, the plugging plates 1103 at the drilling position of the drill bit 3 do not plug the air inlet groove 1002, iron cuttings generated in the drilling process are sucked into the air inlet groove 1002 under the action of the pressure inside of the air inlet groove 1002, the iron cuttings generated in the drilling process is collected and cleaned, and efficient die-casting die for the drill bit 3.

Specifically, the blocking assembly comprises two fixing plates 1101 fixed on the mounting plate 9, a rotating shaft 1102 is fixed between the two fixing plates 1101, a blocking plate 1103 used for blocking the air inlet groove 1002 is connected to the rotating shaft 1102 in a rotating mode, a pulling assembly pulled by the blocking plate 1103 is arranged on the mounting plate 9, in the whole iron cutting cleaning process, only the blocking plate 1103 in the drilling position is opened in a rotating mode, the blocking plates 1103 in other positions keep the inner blocking of the air inlet groove 1002, the pressure for collecting the cut iron cuttings is guaranteed, and the collection operation of the iron cuttings in the drilling process is further facilitated.

Specifically, the pulling assembly comprises a plurality of fixing rods 1201 fixed on the mounting plate 9, each fixing rod 1201 is slidably connected with a sliding rod 1202, a magnetic block 1204 is fixed at the other end of each sliding rod 1202, a first spring 1203 is sleeved on the side wall of each fixing rod 1201, a connecting assembly used for being connected with the blocking plate 1103 is arranged between each magnetic block 1204 and the blocking plate 1103, in the process that the drill bit 3 moves towards the die-casting die body 5, the magnetic block 1204 is forced to move towards the drill bit 3 through the magnetic force action between the drill bit 3 and the magnetic block 1204 at the corresponding position on the mounting plate 9, and in the process that the magnetic block 1204 moves, the blocking plate 1103 is pulled to rotate on the rotating shaft 1102 of the fixing plate 1101 through the connecting assembly.

Specifically, the connecting assembly includes a connecting plate 1301 arranged between the magnetic block 1204 and the blocking plate 1103, two ends of the connecting plate 1301 are rotatably connected with connecting plates 1302, the two connecting plates 1302 are respectively fixed with the blocking plate 1103 and the magnetic block 1204, and in the process of moving the magnetic block 1204, the blocking plate 1103 is driven to turn over through the connecting plate 1301 and the two connecting plates 1302.

Specifically, the detection assembly comprises an operation plate 1401 arranged above the mounting plate 9, a push rod 1405 is connected on the mounting plate 9 in a sliding manner, a push assembly used for pushing the push rod 1405 is arranged on the mounting plate 9, the push rod 1405 is abutted to the upper end of the die-casting die body 5 under the pushing action of the push assembly, one side, opposite to the two operation plates 1401, is respectively connected with a transmission rod 1403 and a sleeve 1404 through a universal ball head 1402, an identification assembly identified after detection is arranged between the transmission rod 1403 and the sleeve 1404, in the detection process, the two push rods 1405 on the two mounting plates 9 are abutted to the upper end of the die-casting die body 5 under the elastic force pushing action of each second spring 1502, and when the height difference exists at the position, opposite to the two push rods 1405, the height difference exists between the two operation plates 1401 under the pushing action of the two push rods 1405, in the process of generating a height difference between two operation plates 1401, the universal ball head 1402 on the two operation plates 1401 is respectively connected with the transmission rod 1403 and the sleeve 1404, so that the transmission rod 1403 is stressed to slide in the sleeve 1404, and in the process of sliding the transmission rod 1403 in the sleeve 1404, through the interaction between the transmission pin 1702 on the first L-shaped frame 1601 and the sliding groove 1701 on the pointer 1603, the pointer 1603 is stressed to rotate on the second L-shaped frame 1602, so that the pointer 1603 points to different positions on the indication plate 1604, and at the moment, through the position relation between the pointer 1603 and the indication plate 1604, whether horizontal deviation exists at the position to be drilled of the die-casting die body 5 can be identified, the phenomenon that the drilled hole after drilling is inclined is avoided, and the drilling of the die-casting die is facilitated.

Specifically, the pushing assembly comprises a plurality of T-shaped rods 1501 fixed on the mounting plate 9, the operating plate 1401 is connected to the T-shaped rods 1501 in a sliding mode, the side wall of each T-shaped rod 1501 is sleeved with a second spring 1502, the push rod 1405 abuts against the upper end of the die-casting die body 5 under the elastic force action of the second spring 1502, and the T-shaped rods 1501 abut against the upper end of the die-casting die body 5 under the elastic force pushing action of the second spring 1502 on each T-shaped rod 1501.

Specifically, the identification assembly comprises a first L-shaped frame 1601 and a second L-shaped frame 1602 which are respectively fixed on a transmission rod 1403 and a sleeve 1404, a pointer 1603 is connected to the second L-shaped frame 1602 in a rotating mode, an indication plate 1604 is fixed on the second L-shaped frame 1602, a transmission assembly for transmitting the pointer 1603 is arranged on the first L-shaped frame 1601, when the two push rods 1405 are opposite in position, a height difference exists between the two operation plates 1401 under the pushing action of the two push rods 1405, in the process of generating the height difference between the two operation plates 1401, through the connecting action between a universal ball head 1402 on the two operation plates 1401 and the transmission rod 1403 and the sleeve 1404, the transmission rod 1403 is stressed to slide in the sleeve 1404, in the process of sliding the transmission rod 1403 in the sleeve 1404, through the interaction between a transmission pin 1702 on the first L-shaped frame 1601 and a sliding groove on the pointer 1603, the pointer 1603 is stressed to rotate on the second L-shaped frame, the pointer 1603 is enabled to point to different positions on the sleeve 1404, and whether a horizontal deviation exists in the indication plate 1701 can be identified through the position indication plate 1604.

Specifically, the transmission assembly comprises a sliding groove 1701 arranged on the pointer 1603, a transmission pin 1702 is connected to the sliding groove 1701 in a sliding mode, the transmission pin 1702 is fixed to the first L-shaped frame 1601, the transmission rod 1403 is forced to slide inside the sleeve 1404 through the connection effect between a universal ball head 1402 on the two operation plates 1401 and the transmission rod 1403 and the sleeve 1404 respectively in the process of generating a height difference between the two operation plates 1401, and the pointer 1603 is forced to rotate on the second L-shaped frame 1602 through the interaction between the transmission pin 1702 on the first L-shaped frame 1601 and the sliding groove 1701 on the pointer 1603 in the process of sliding the transmission rod 1403 inside the sleeve 1404.

The working principle is as follows: in the process of drilling the die-casting die body 5, the die-casting die body 5 to be drilled is placed inside the protective frame 4 on the bottom plate 1, the die-casting die body 5 in the drilling process is protected by the protective frame 4, the two mounting plates 9 are moved, the position to be drilled on the die-casting die body 5 is located between the two mounting plates 9, in the process of driving the two mounting plates 9 to move, the driving motor 802 is started to drive the threaded rod 801 to rotate, in the process of rotating the threaded rod 801, the rectangular plate 7 is forced to move between the two mounting frames 6 through the mutual meshing transmission between the threaded rod 801 and the rectangular plate 7 and the guiding effect of the guide rod 803, and the two mounting plates 9 are driven to move synchronously through the movement of the rectangular plate 7;

after the two mounting plates 9 are moved, levelness of two sides of a position to be drilled on the die-casting die body 5 is detected through a detection component on the mounting plate 9, in the detection process, two push rods 1405 on the two mounting plates 9 are abutted against the upper end of the die-casting die body 5 under the action of elastic force pushing of each second spring 1502, when a height difference exists at the opposite positions of the two push rods 1405, the height difference 1401 exists between the two operating plates 1401 under the action of pushing of the two push rods 1405, and in the process of generating the height difference between the two operating plates, through the connection action between universal ball heads 1402 on the two operating plates 1401 and the transmission rods 1403 and the sleeves 1404, the transmission rod 1403 is stressed to slide in the sleeve 1404, the transmission rod 1403 slides in the sleeve 1404, the pointer 1603 is stressed to rotate on the second L-shaped frame 1602 through interaction of the transmission pin 1702 on the first L-shaped frame 1601 and the sliding groove 1701 on the pointer 1603, the pointer 1603 points to different positions on the indicating plate 1604, and at the moment, through the position relation between the pointer 1603 and the indicating plate 1604, whether horizontal deviation exists on the position of the die-casting die body 5 to be drilled is identified, the phenomenon that the drilled hole after the drilling process is inclined is avoided, and the drilling process of the die-casting die is facilitated;

after the levelness of the position to be drilled of the die-casting die body 5 is detected, the drill bit 3 is moved between the two mounting plates 9 through the mechanical arm 2 and is driven to drill a specified position on the die-casting die body 5, in the process that the drill bit 3 moves towards the die-casting die body 5, the magnetic blocks 1204 at corresponding positions on the mounting plates 9 are forced to move towards the drill bit 3 through the magnetic force action between the drill bit 3 and the magnetic blocks 1204 at corresponding positions on the mounting plates 9, in the process that the magnetic blocks 1204 move, the air inlet duct 1002 is not blocked by the blocking plate 1103 at the position corresponding to the drill bit 3 on the mounting plates 9 through the connecting action of the connecting plate 1301 and the two connecting plates 1302, the air inlet duct 1004, the connecting pipes 1001 and the inside of the air inlet duct 1002 are exhausted from the air outlet pipe 1005 through the action of the fan 1003, negative pressure is generated inside the air inlet duct 1002, therefore, the blocking plate at the position of the drill bit 3 does not block the air inlet duct 1002, the effect of the pressure generated inside the air inlet duct 1001 and the air inlet duct 1002 is exhausted from the air inlet duct 1002 and is exhausted from the air outlet pipe 1005, and the blocking plate 1103, the air inlet duct 1002 is convenient for cleaning the iron chip collection of the drill bit 3, and the whole iron chip collection operation of the iron chip is convenient for collecting the drill hole, and the collection of the iron chip collection during the process, the collection of the iron chip is convenient for the drill bit 3.

Although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the true spirit and scope of the present invention, which is defined by the claims appended hereto. The techniques, shapes, and configurations not described in detail in the present invention are all known techniques.

Claims (10)

1. The utility model provides a drilling equipment is used in die casting die production, is including installing robotic arm (2) on bottom plate (1), install drill bit (3) on robotic arm (2), die casting die body (5), its characterized in that have been placed on bottom plate (1): be provided with protective frame (4) of die casting die body (5) protection in the drilling process on bottom plate (1), die casting die body (5) set up the inside in protective frame (4), be fixed with two mounting brackets (6) on bottom plate (1), two be connected with rectangular plate (7) through the removal subassembly between mounting bracket (6), be fixed with mounting panel (9) that two mutual symmetries set up on rectangular plate (7), two be provided with the clearance subassembly of the clearance of drilling in-process iron cutting clearance and the detection module of die casting die body (5) surface detection before the drilling processing between mounting panel (9).

2. The drilling apparatus for die casting mold production as set forth in claim 1, wherein: remove the subassembly including rotating threaded rod (801) of connection between two mounting brackets (6), rectangular plate (7) are connected with threaded rod (801) thread engagement, sliding connection has guide bar (803) on rectangular plate (7), the both ends of guide bar (803) are fixed mutually with two mounting brackets (6) respectively, install on mounting bracket (6) and be used for threaded rod (801) driven driving motor (802).

3. A die casting die production drilling apparatus as claimed in claim 2, wherein: the clearance subassembly is including installing connecting pipe (1001) on two mounting panels (9) respectively, two air inlet tank (1002) have been seted up to one side that mounting panel (9) are relative, two connecting pipe (1001) communicates with each other with the inside of two air inlet tank (1002) respectively and sets up, two the other end of connecting pipe (1001) is fixed, one side of rectangular plate (7) is provided with fan (1003), install intake pipe (1004) and outlet duct (1005) on fan (1003), intake pipe (1004) communicate with each other with connecting pipe (1005) and set up, be provided with a plurality of shutoff subassemblies that are used for the shutoff of admitting air on air tank (1001).

4. A die casting die production drilling apparatus as claimed in claim 3, wherein: the plugging assembly comprises two fixing plates (1101) fixed on a mounting plate (9), a rotating shaft (1102) is fixed between the fixing plates (1101), the rotating shaft (1102) is rotatably connected with a plugging plate (1103) used for plugging the air inlet groove (1002), and a pulling assembly pulled by the plugging plate (1103) is arranged on the mounting plate (9).

5. The drilling apparatus for die casting mold production as set forth in claim 4, wherein: the pulling assembly comprises a plurality of fixing rods (1201) fixed on the mounting plate (9), each fixing rod (1201) is connected with a sliding rod (1202) in a sliding mode, a magnetic block (1204) is fixed to the other end of each sliding rod (1202), each fixing rod (1201) is sleeved with a first spring (1203) on the side wall, and a connecting assembly used for being connected with the blocking plate (1103) is arranged between each magnetic block (1204) and the blocking plate (1103).

6. The drilling apparatus for die casting mold production as set forth in claim 4, wherein: the connecting assembly comprises a connecting plate (1301) arranged between a magnetic block (1204) and the blocking plate (1103), connecting plates (1302) are rotatably connected to two ends of the connecting plate (1301), and the two connecting plates (1302) are respectively fixed with the blocking plate (1103) and the magnetic block (1204).

7. The drilling equipment for die casting mold production as claimed in claim 1, wherein: the detection assembly comprises an operating panel (1401) arranged above the mounting plate (9), a push rod (1405) is connected to the mounting plate (9) in a sliding mode, a pushing assembly used for pushing the push rod (1405) is arranged on the mounting plate (9), the push rod (1405) is abutted to the upper end of the die-casting die body (5) under the pushing action of the pushing assembly, the two driving rods (1403) and sleeves (1404) are connected to one side, opposite to the operating panel (1401), of the operating panel through a universal ball head (1402), and identification assemblies used for identification after detection are arranged between the driving rods (1403) and the sleeves (1404).

8. The drilling apparatus for die casting mold production as set forth in claim 7, wherein: the pushing assembly comprises a plurality of T-shaped rods (1501) fixed on the mounting plate (9), the operating plate (1401) is connected to the T-shaped rods (1501) in a sliding mode, a second spring (1502) is sleeved on the side wall of each T-shaped rod (1501), and the push rod (1405) abuts against the upper end of the die-casting die body (5) under the elastic force action of the second spring (1502).

9. The drilling apparatus for die casting mold production as set forth in claim 8, wherein: the identification assembly comprises a first L-shaped frame (1601) and a second L-shaped frame (1602) which are respectively fixed on a transmission rod (1403) and a sleeve (1404), a pointer (1603) is connected to the second L-shaped frame (1602) in a rotating mode, an indicating plate (1604) is fixed to the second L-shaped frame (1602), and a transmission assembly used for transmitting the pointer (1603) is arranged on the first L-shaped frame (1601).

10. The drilling apparatus for die casting mold production as set forth in claim 9, wherein: the transmission assembly comprises a sliding groove (1701) formed in the pointer (1603), a transmission pin (1702) is connected to the sliding groove (1701) in a sliding mode, and the transmission pin (1702) is fixed to the first L-shaped frame (1601).

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