CN113579735A

CN113579735A - Drilling and tapping equipment

Info

Publication number: CN113579735A
Application number: CN202110699812.XA
Authority: CN
Inventors: 李光亮; 刘西军; 彭连伟; 赵正伟
Original assignee: Shenzhen Huasheng Yuan Electrical Co ltd
Current assignee: Shenzhen Huasheng Yuan Electrical Co ltd
Priority date: 2021-06-23
Filing date: 2021-06-23
Publication date: 2021-11-02

Abstract

The invention discloses drilling and tapping equipment which comprises a drill bit, a screw tap, an installation part, a lifting mechanism and a jacket, wherein the drill bit is arranged on the drill bit; the lifting mechanism is used for driving the mounting piece to lift; the jacket is arranged on the mounting piece and can be used for detachably mounting the drill bit or the screw tap. According to the invention, the screw tap or the drill bit can be detachably mounted through the jacket, and the jacket is mounted on the mounting part, so that when the screw tap or the drill bit is mounted on the jacket, the lifting mechanism can drive the drill bit or the screw tap to lift through the jacket to correspondingly perform tapping or drilling operation, and the screw tap and the drill bit share the lifting mechanism, so that the cost is saved.

Description

Drilling and tapping equipment

Technical Field

The invention relates to the technical field of machining, in particular to drilling and tapping equipment.

Background

The existing drilling and tapping all-in-one machine can be used for drilling or tapping a workpiece, however, the existing drilling and tapping all-in-one machine needs to drive a screw tap and a drill bit of the drilling and tapping all-in-one machine to descend by adopting a lifting mechanism respectively during operation so as to be close to and pressed into the workpiece, and therefore cost is high.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide the drilling and tapping equipment, wherein a drill bit and a screw tap share a lifting mechanism, and the cost is saved.

The purpose of the invention is realized by adopting the following technical scheme:

an underdrill apparatus comprising:

a drill bit;

a screw tap;

a mounting member;

the lifting mechanism is used for driving the mounting piece to lift;

the clamping sleeve is arranged on the mounting piece and can be used for detachably mounting the drill bit or the screw tap.

Further, still include the mechanism that supports, support the mechanism and include:

the pressing piece is used for pressing a workpiece;

the connecting piece can detachably install the pressing piece below the mounting piece and enable the mounting piece to be lifted relative to the pressing piece;

the pressing elastic piece can be detachably arranged between the pressing piece and the mounting piece and is compressed when the mounting piece descends relative to the pressing piece so as to provide elastic stress for promoting the pressing piece to move away from the mounting piece.

Furthermore, two adjacent sides of the pressing piece are respectively provided with a positioning part, and the two positioning parts are respectively attached to two adjacent side surfaces of the workpiece.

Furthermore, the connecting piece comprises a connecting rod, the upper end of the connecting rod can be detachably fixed on the mounting piece, the pressing piece can be movably sleeved outside the connecting rod, and a first limiting part is formed at the lower end of the connecting rod; the first limiting part is used for abutting against the bottom surface of the pressing part to prevent the pressing part from being separated from the connecting rod.

Further, the abutting elastic piece is a spring, and the spring can be sleeved outside the connecting rod.

Furthermore, the abutting mechanism also comprises an adjusting rod; the upper end of the adjusting rod is provided with a second limiting part, and the lower end of the adjusting rod is provided with an adjusting thread; the second limiting part is used for abutting against the top surface of the mounting part; the mounting piece is provided with a through hole for the adjusting rod to pass through; the pressing piece is provided with an adjusting screw hole which is used for being in threaded connection with the adjusting screw thread.

Further, still include location structure, location structure includes:

the device comprises a base, wherein a feeding station, a processing station and a discharging station are sequentially arranged on the upper surface of the base; the discharging station can be used for placing a single workpiece in a matched mode and is connected with the machining station;

the first positioning plate is positioned on one side of the processing station and is used for abutting against the side face of the workpiece in the processing station;

and the second positioning plate is positioned at one end of the discharging station, which is far away from the machining station, and is used for abutting against the end face of the workpiece in the discharging station.

Furthermore, the first positioning plate is also used for guiding the workpiece to the direction of the discharging station when the workpiece of the processing station moves along the extension direction of the workpiece.

Furthermore, the first positioning plate is also used for abutting against the side face of the workpiece of the feeding station and guiding the workpiece to the processing station when the workpiece moves along the extending direction of the first positioning plate.

Furthermore, the first positioning plate is positioned at one end, facing the machining station, of the second positioning plate, and a material pushing interval corresponding to the discharging station is formed between the first positioning plate and the second positioning plate at an interval; the drilling and tapping equipment further comprises a material pushing device; the material pushing device comprises a push plate and a push plate driving mechanism; the push plate is used for pushing out a workpiece and can enter and exit the discharging station through the material pushing interval; the push plate driving mechanism is used for driving the push plate to move.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the screw tap or the drill bit can be detachably mounted through the jacket, and the jacket is mounted on the mounting part, so that when the screw tap or the drill bit is mounted on the jacket, the lifting mechanism can drive the drill bit or the screw tap to lift through the jacket to correspondingly perform tapping or drilling operation, and the screw tap and the drill bit share the lifting mechanism, so that the cost is saved.

Drawings

Fig. 1 is a schematic structural view of the drilling and tapping apparatus of the present invention (excluding the positioning structure, the pusher, and the pressing mechanism).

FIG. 2 is a schematic structural view of the drilling and tapping apparatus of the present invention (with the positioning structure and the pusher removed);

FIG. 3 is a schematic view of the drilling and tapping apparatus of the present invention in a disassembled configuration (with the positioning structure and the pushing device removed);

FIG. 4 is a schematic view of the construction of the present invention (with the biasing mechanism removed);

in the figure: 10. a drill bit; 20. a screw tap; 30. a mounting member; 40. a workpiece; 50. a jacket; 60. a material pushing device; 61. pushing the plate; 62. a push plate drive mechanism; 70. a pressing mechanism; 71. a pressing member; 72. a connecting member; 721. a first limiting part; 73. pressing the elastic piece; 74. a positioning part; 75. adjusting a rod; 76. a second limiting part; 77. adjusting the screw thread; 80. a positioning structure; 81. a base; 811. a feed station; 812. a processing station; 813. a discharge station; 82. a first positioning plate; 83. and a second positioning plate.

Detailed Description

As shown in fig. 1 to 4, a drilling and tapping apparatus includes a drill 10, a tap 20, a mounting member 30, a lifting mechanism, and a collet 50; the lifting mechanism is used for driving the mounting piece 30 to lift; the jacket 50 is mounted on the mounting member 30 and allows the drill 10 or the tap 20 to be detachably mounted; it should be noted here that the above-mentioned jacket 50 can be purchased directly from the market, and can also be constructed by using a quick-change chuck of the prior art document CN 202292130U.

On the basis of the structure, when drilling is needed, the drill 10 is arranged on the jacket 50, the lifting mechanism drives the mounting piece 30 to lift, and the jacket 50 is lifted along with the mounting piece 30 to link the drill 10 to lift, so that the drilling operation of the drill 10 can be carried out; when tapping is needed, the screw tap 20 is installed on the jacket 50, the lifting mechanism drives the installation part 30 to lift, and the jacket 50 is lifted along with the installation part 30 to link the lifting of the screw tap 20, so that tapping operation of the screw tap 20 can be performed; by the above, the screw tap 20 and the drill 10 share the lifting mechanism, so that the cost can be saved.

The lifting mechanism can adopt, but is not limited to, the existing lifting cylinder and linear motor.

Notably, the collet 50 is rotatably mounted on the mounting member 30 about its central axis; the drilling and tapping equipment further comprises a rotating mechanism, wherein the rotating mechanism is arranged on the mounting piece 30 and is used for driving the clamping sleeve 50 to rotate, so that the drill bit 10 or the screw tap 20 is driven to rotate, mechanical operation is realized, and the efficiency is improved; meanwhile, the tap 20 and the drill 10 share a rotating mechanism, further saving cost.

The above-mentioned rotating mechanism can be used, but not limited to, existing rotating electric machines and rotating air cylinders.

Further, the present drilling and tapping apparatus further includes a pressing mechanism 70, and the pressing mechanism 70 includes:

a pressing member 71, the pressing member 71 being used for pressing the workpiece 40;

a connector 72, wherein the connector 72 can detachably mount the pressing element 71 below the mounting element 30, and can enable the mounting element 30 to be lifted and lowered relative to the pressing element 71;

and the pressing elastic piece 73 is detachably arranged between the pressing piece 71 and the mounting piece 30, and is compressed when the mounting piece 30 descends relative to the pressing piece 71 to provide elastic stress for promoting the pressing piece 71 to move away from the mounting piece 30.

After drilling, the workpiece 40 is lifted up due to friction between the drill 10 and the workpiece 40 when retracting, so that the workpiece 40 needs to be fixed during drilling operation, and the drill 10 can be used in cooperation with the pressing mechanism 70; in tapping, since the tapping tap 20 is rotated in the reverse direction when the tapped tap 20 is separated from the workpiece 40 in a normal operation, there is no possibility that the workpiece 40 is taken up, and the tap 20 may not be used in cooperation with the pressing mechanism 70.

On the basis of the structure, when in use, the pressing piece 71 is arranged below the mounting piece 30 through the connecting piece 72, and the pressing elastic piece 73 is arranged between the pressing piece 71 and the mounting piece 30; the workpiece 40 is placed below the pressing piece 71, when the lifting mechanism drives the mounting piece 30 to descend, the pressing piece 71 descends along with the mounting piece 30, then the pressing piece 71 abuts against the workpiece 40, the mounting piece 30 descends continuously, at the moment, the pressing elastic piece 73 is compressed, so that the pressing piece 71 moves downwards relative to the mounting piece 30 to press against the workpiece 40, the drill 10 continuously descends to the position below the protruding pressing piece 71 along with the mounting piece 30 relative to the pressing piece 71, and therefore the drill can act on the workpiece 40, and then in the ascending process of the drill 10, the pressing piece 71 still presses against the workpiece 40 under the elastic stress of the pressing elastic piece 73, and the workpiece 40 can be prevented from being taken up; therefore, through the matching of the connecting piece 72 and the abutting elastic piece 73, a power mechanism for driving the abutting piece 71 to abut against the workpiece 40 does not need to be additionally arranged, the structure is simplified, and the cost is saved.

It should be noted that, the pressing elastic member 73 may be configured to: in a compressed but not fully compressed state when the mounting member 30 is not moved downward relative to the pressing member 71, there is a compression space for the mounting member 30 to move downward relative to the pressing member 71; alternatively, the pressing resilient member 73 is in a completely uncompressed state when the mounting member 30 is not moved downward relative to the pressing member 71.

Specifically, the connecting member 72 includes a connecting rod whose upper end can be detachably fixed to the mounting member 30, where the upper end of the connecting rod can be mounted on the mounting member 30 by a screw; the pressing piece 71 can be movably sleeved outside the connecting rod, and a first limiting part 721 is formed at the lower end of the connecting rod; the first limiting portion 721 is used for abutting against the bottom surface of the pressing member 71 to prevent the pressing member 71 from separating from the connecting rod. Thus, after the connecting rod and the pressing member 71 are installed, when the pressing member 71 does not abut against the workpiece 40, the first limiting portion 721 abuts against the supporting pressing member 71 to prevent the pressing member 71 from separating from the connecting rod, so that the pressing member 71 can be lifted along with the installation member 30; meanwhile, the connecting rod can play a role in guiding when the mounting piece 30 is lifted relative to the pressing piece 71, so that the motion stability is improved.

Furthermore, two adjacent sides of the pressing piece 71 are respectively provided with a positioning portion 74, and the two positioning portions 74 are respectively attached to two adjacent sides of the workpiece 40; when the workpiece 40 is placed below the abutting piece 71 in use, the two adjacent sides of the workpiece 40 abut against the two positioning parts 74 respectively, so that the workpiece 40 is positioned, and the machining precision is improved.

Specifically, the pressing elastic member 73 is a spring, and the spring can be sleeved outside the connecting rod, so that other structures are not used for installing the pressing elastic member, and the structure is further simplified.

Further, the pressing mechanism 70 further includes an adjusting lever 75; the upper end of the adjusting rod 75 is provided with a second limiting part 76, and the lower end of the adjusting rod 75 is provided with an adjusting thread 77; the second limiting portion 76 is used for abutting against the top surface of the mounting member 30; the mounting member 30 is provided with a through hole for the adjusting rod 75 to pass through; the pressing piece 71 is provided with an adjusting screw hole for screwing with the adjusting screw thread 77; when the drill bit is installed, the lower end of the connecting rod penetrates through the through hole and is in threaded connection with the adjusting screw hole, at this time, the second limiting part 76 abuts against the top surface of the installation part 30 to prevent the installation part 30 from being separated from the adjusting rod 75, and then the initial position between the installation part 30 and the abutting part 71 can be adjusted by rotating the adjusting rod 75, so that the bottom end of the drill bit 10 or the screw tap 20 does not extend below the abutting part 71 in the initial state.

The drilling and tapping equipment further comprises a positioning structure 80, wherein the positioning structure 80 comprises a base 81, a first positioning plate 82 and a second positioning plate 83; a feeding station 811, a processing station 812 and a discharging station 813 are sequentially arranged on the upper surface of the base 81; the discharge station 813 is capable of accommodating a single workpiece 40 and is connected with the processing station 812; the first positioning plate 82 is positioned at one side of the processing station 812 and is used for abutting against the side surface of the workpiece 40 in the processing station 812; the second positioning plate 83 is located at one end of the discharging station 813 far away from the processing station 812, and is used for abutting against the end face of the workpiece 40 in the discharging station 813.

On the basis of the above structure, when the positioning structure 80 is used, in an initial state, the workpiece 40 is placed at the discharge station 813, the end surface of the workpiece 40 abuts against the second positioning plate 83, then the end surface of the workpiece 40 in the processing station 812 abuts against the end surface of the workpiece 40 in the discharge station 813, so that the positioning of one end of the workpiece 40 in the processing station 812 is realized, the side surface of the workpiece 40 in the processing station 812 abuts against the first positioning plate 82, and the positioning of the workpiece 40 in the processing station 812 is completed; after the workpiece 40 in the discharge station 813 is taken out, after the workpiece 40 in the processing station 812 is processed, the workpiece 40 in the processing station 812 is pushed to the discharge station 813 by the workpiece 40 placed in the feeding station 811 without extending into the processing station 812, the workpiece 40 can be pushed out in a direction perpendicular to the arrangement direction of the feeding station 811 and the processing station 812 (hereinafter, the direction is referred to as a vertical direction) at the discharge station 813, the workpiece 40 does not need to be pushed out in the vertical direction at the processing station 812, and efficiency can be improved or accidental injury can be avoided.

The side surface of the workpiece 40 and the end surface of the workpiece 40 are two surfaces of the workpiece 40 which are arranged around the vertical axis of the workpiece and are not opposite to each other.

Specifically, the first positioning plate 82 and the second positioning plate 83 are fixed on the base 81 to facilitate the movement of the positioning structure 80.

When the workpiece 40 at the machining station 812 enters the discharge station 813 and abuts against the second positioning plate 83, the workpiece 40 is positioned at the end thereof that enters the machining station 811.

To improve the tapping accuracy, the tap 20 may be used in conjunction with the positioning structure 80, i.e., a tap is used to tap the workpiece 40 located in the processing station 812.

Furthermore, the first positioning plate 82 is also used to guide the workpiece 40 toward the outfeed station 813 when the workpiece 40 of the processing station 812 moves in the direction of extension of the workpiece, so as to avoid the workpiece 40 from being displaced during the movement from the processing station 812 to the outfeed station 813.

Further, the first positioning plate 82 is also used for abutting against the side surface of the workpiece 40 of the feeding station 811 so as to coarsely position the workpiece 40 of the feeding station 811; the first positioning plate 82 is used for guiding the workpiece 40 to the processing station 812 when the workpiece 40 moves along the extending direction of the first positioning plate 82, so that the workpiece 40 is prevented from being displaced during the movement from the feeding station 811 to the processing station 812. Further, the first positioning plate 82 is located at one end of the second positioning plate 83 facing the processing station 812, and forms a material pushing interval corresponding to the discharging station 813 with the second positioning plate 83 at an interval; the drilling and tapping device further comprises a pushing device 60; the material pushing device 60 comprises a push plate 61 and a push plate driving mechanism 62; the push plate 61 is used for pushing out the workpiece 40 and can enter and exit the discharging station 813 through the material pushing interval; the push plate driving mechanism 62 is used for driving the push plate 61 to move, so that mechanical pushing is realized, and the efficiency is improved.

The push plate driving mechanism 62 can be, but is not limited to, a linear motor and a telescopic cylinder.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims

1. An underdrill apparatus, comprising:

a drill (10);

a tap (20);

a mounting (30);

the lifting mechanism is used for driving the mounting piece (30) to lift;

a collet (50), the collet (50) being mounted on the mounting (30) and being adapted to removably mount the drill bit (10) or the tap (20).

2. The drilling and tapping device according to claim 1, further comprising an abutting mechanism (70), the abutting mechanism (70) comprising:

a pressing member (71), the pressing member (71) being used for pressing a workpiece (40);

a connecting piece (72), wherein the connecting piece (72) can detachably install the pressing piece (71) below the mounting piece (30) and can enable the mounting piece (30) to be lifted relative to the pressing piece (71);

a pressing elastic piece (73), wherein the pressing elastic piece (73) can be detachably arranged between the pressing piece (71) and the mounting piece (30) and is compressed when the mounting piece (30) descends relative to the pressing piece (71) to provide elastic stress for promoting the pressing piece (71) to move away from the mounting piece (30).

3. The drilling and tapping device according to claim 2, wherein adjacent two sides of the pressing member (71) are further provided with positioning portions (74), respectively, and two of the positioning portions (74) are adapted to be respectively engaged with adjacent two sides of the workpiece (40).

4. The drilling and tapping device according to claim 2, wherein the connecting member (72) comprises a connecting rod, the upper end of the connecting rod can be detachably fixed on the mounting member (30), the pressing member (71) can be movably sleeved outside the connecting rod, and the lower end of the connecting rod is formed with a first limiting part (721); the first limiting part (721) is used for abutting against the bottom surface of the abutting part (71) to prevent the abutting part (71) from being separated from the connecting rod.

5. Drilling and tapping device according to claim 4, wherein said elastic member (73) is a spring which can be fitted over the connecting rod.

6. Drilling and tapping device according to claim 4, wherein said abutting means (70) further comprise an adjustment lever (75); the upper end of the adjusting rod (75) is provided with a second limiting part (76), and the lower end of the adjusting rod (75) is provided with an adjusting thread (77); the second limiting part (76) is used for being abutted against the top surface of the mounting part (30); the mounting piece (30) is provided with a through hole for the adjusting rod (75) to pass through; the pressing piece (71) is provided with an adjusting screw hole for screwing with the adjusting screw thread (77).

7. The drilling and tapping apparatus of claim 1, further comprising a positioning structure (80), the positioning structure (80) comprising:

the device comprises a base (81), wherein a feeding station (811), a processing station (812) and a discharging station (813) are sequentially arranged on the upper surface of the base (81); the discharging station (813) can be used for matching and placing a single workpiece (40) and is connected with the processing station (812);

the first positioning plate (82) is positioned on one side of the processing station (812), and is used for abutting against the side surface of the workpiece (40) in the processing station (812);

and the second positioning plate (83) is positioned at one end of the discharging station (813) far away from the processing station (812), and is used for abutting against the end face of the workpiece (40) in the discharging station (813).

8. The drilling and tapping apparatus according to claim 7, wherein the first positioning plate (82) is also used for guiding the workpiece (40) in the direction of the outfeed station (813) when the workpiece (40) of the machining station (812) is moved in its direction of extension.

9. The drill tapping apparatus according to claim 8, wherein the first positioning plate (82) is further adapted to abut against a side of the workpiece (40) of the feed station (811) and to guide the workpiece (40) to the machining station (812) when the workpiece moves in the extending direction of the first positioning plate (82).

10. The drilling and tapping device according to any one of claims 7 to 9, wherein the first positioning plate (82) is located at one end of the second positioning plate (83) facing the machining station (812) and is spaced from the second positioning plate (83) to form a material pushing interval corresponding to the discharging station (813); the drilling and tapping equipment further comprises a material pushing device (60); the material pushing device (60) comprises a push plate (61) and a push plate driving mechanism (62); the push plate (61) is used for pushing out a workpiece (40) and can enter and exit the discharging station (813) through the material pushing interval; the push plate driving mechanism (62) is used for driving the push plate (61) to move.