CN113084216A

CN113084216A - Automatic drilling device with positioning mechanism

Info

Publication number: CN113084216A
Application number: CN202110578157.2A
Authority: CN
Inventors: 张勇
Original assignee: Anhui Xinnuo Furniture Co ltd
Current assignee: Anhui Xinnuo Furniture Co ltd
Priority date: 2021-05-26
Filing date: 2021-05-26
Publication date: 2021-07-09

Abstract

The invention discloses an automatic drilling device with a positioning mechanism, and relates to the technical field of automatic drilling devices. The drilling system comprises a drilling platform, wherein an L-shaped support is arranged on one side of the drilling platform, and a drilling mechanism is arranged on the bottom side surface of the horizontal section of the L-shaped support; the bottom side surface of the drilling platform is provided with a first T-shaped sliding groove, a first T-shaped sliding block is arranged in the first T-shaped sliding groove in a matched mode, and the top of the first T-shaped sliding block is provided with a first baffle plate; an opening is formed in the drilling platform located on one side of the T-shaped sliding block along the length direction of the drilling platform, a plurality of U-shaped frames are connected to the two sides of the opening, a T-shaped guide rail II is arranged on the U-shaped frames in a matched mode, and a control mechanism is arranged on the T-shaped guide rail II in a matched mode. According to the invention, through the arrangement of the drilling system, the control system and the feeding system, the material to be drilled is automatically conveyed to the drilling system through the feeding system, and the material is drilled through the drilling system, so that the drilling efficiency and the drilling position precision are improved.

Description

Automatic drilling device with positioning mechanism

Technical Field

The invention belongs to the technical field of automatic drilling devices, and particularly relates to an automatic drilling device with a positioning mechanism.

Background

The steel types and the specifications of the pipe products are extremely various, and the performance requirements of the pipe products are also various. The drilling tool can be applied to various products, has extremely wide application, and has the requirement of drilling pipes in the functions of conveying, supporting or protecting circuits.

In the prior art, the technical scheme for drilling the pipe is generally as follows:

1. fixing the pipe by a fixing device, and manually drilling the part needing to be drilled by a worker; 2. fixing the pipe through the fixing device, then arranging a plurality of drilling machines beside the fixed pipe, and gradually approaching the drilling machines to the pipe to realize the drilling of the pipe.

The device required by the technical scheme 1 is simple, only the fixing device is required to fix the pipe, the position to be drilled on the steel pipe is marked while marking is carried out, and then the drilling tool is adopted to drill the marked position of the steel pipe, but the drilling precision cannot be guaranteed, the drilling precision mainly depends on the working experience of workers, the labor intensity of the workers is high, and the drilling efficiency is low; the drilling machine device that technical scheme 2 adopted is when driling the tubular product, receives the influence of tubular product wall thickness and the drive dynamics influence of rig drill bit, appears the depressed area around the processing hole on the pipe easily to influence the tubular product quality, its technical scheme also can not be to the tubular metal resonator of different diameters simultaneously and handle.

Disclosure of Invention

The present invention is directed to an automatic drilling device with a positioning mechanism to solve the above problems.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to an automatic drilling device with a positioning mechanism, which comprises a drilling system, a control system and a feeding system, wherein the drilling system comprises a drilling head, a drilling head and a drilling head; the drilling system comprises a drilling platform, wherein an L-shaped support is arranged on one side of the drilling platform, a first T-shaped guide rail is arranged on the bottom side surface of the horizontal section of the L-shaped support, and a drilling mechanism is arranged on the first T-shaped guide rail in a sliding and matching manner; the bottom side surface of the drilling platform is provided with a first T-shaped sliding groove along the length direction of the drilling platform, a first T-shaped sliding block is arranged in the first T-shaped sliding groove in a matched mode, and the top of the first T-shaped sliding block is provided with a first baffle plate; an opening is formed in the drilling platform on one side of the T-shaped sliding block along the length direction of the drilling platform, a plurality of U-shaped frames are connected to the two sides of the opening, a T-shaped guide rail II is arranged on the U-shaped frames in a matched mode, and a control mechanism used for driving a product to be drilled to move along the upper surface of the drilling platform is arranged on the T-shaped guide rail II in a matched mode;

wherein, the control system controls and connects drilling mechanism, control mechanism, feeding system.

Furthermore, a second baffle plate is arranged on the other side of the drilling platform, the inner side of the second baffle plate is connected with a first guide plate through a plurality of telescopic cylinders A, and a plurality of first balls are embedded in the inner side surface of the first guide plate along the length direction of the first guide plate; one end, far away from the guide plate, of the first baffle is provided with a telescopic rod, and the end part of the telescopic rod is provided with a clamping plate clamped on one side of a product to be drilled; the control system is connected with the telescopic cylinder A in a control mode.

Furthermore, the control mechanism comprises a first electric sliding block capable of sliding along the length direction of a second T-shaped guide rail, a rotating motor is arranged at the top of the first electric sliding block, an installation block is arranged at the end part of the rotating motor, a first telescopic motor is arranged on one side of the installation block, and a driving block abutting against one end of a product to be drilled is connected to the end part of the first telescopic motor; the control system is connected with the first electric sliding block, the rotating motor and the first telescopic motor in a control mode.

Furthermore, the drilling mechanism comprises an electric sliding block II moving along the T-shaped guide rail I, a drilling motor is fixed on the bottom side face of the electric sliding block II, a drill bit is connected to an output shaft of the drilling motor, and the electric sliding block II and the drilling motor are both in control connection with a control system.

Furthermore, a concave cavity is formed in the bottom side face of the first T-shaped sliding block, a second telescopic motor is arranged in the concave cavity, a positioning insertion rod is arranged at the end of the second telescopic motor, and the end of the positioning insertion rod is of a spherical structure; a plurality of positioning insertion holes which are matched with the positioning insertion rods one by one are formed in the bottom side surface of the T-shaped sliding groove I along the length direction of the T-shaped sliding groove I at equal intervals; the second telescopic motor is connected with the control system.

Furthermore, a cross beam A is arranged on one side of the top of the L-shaped support, a third telescopic motor connected with the control system is arranged on the bottom side face of the cross beam A, and a pressing plate is arranged at the end of the third telescopic motor.

Further, the control system comprises a processor, and a signal output end of the processor is connected with the display and the alarm.

Furthermore, the feeding system comprises a feeding platform, and the upper surface of the feeding platform is an inclined plane; a third baffle is arranged on the feeding platform at the bottom end of the inclined plane, the inner side wall of the third baffle is connected with a second guide plate through a plurality of telescopic cylinders B, and a plurality of second balls are embedded in the inner side surface of the second guide plate; the top of the third baffle plate is provided with an L-shaped side plate, the inner top side face of the L-shaped side plate is provided with a third T-shaped guide rail, a second electric sliding block connected with the processor is arranged on the third T-shaped guide rail in a matched mode, the bottom side face of the second electric sliding block is connected with a driving rod, and the end portion of the driving rod is connected and abutted against a driving plate at one end of a product to be drilled.

Furthermore, the inclination angle of the inclined plane is 5-15 degrees, two ends of the upper surface of the feeding platform are respectively provided with a blocking edge, the distance between the blocking edge and one end of the third baffle close to the third baffle is T, the width of a product to be drilled placed on the feeding platform is M, and T is greater than M.

Furthermore, a pillar is arranged on the top of each of two retaining edges on the three sides of the baffle, the top of each of the two pillars is connected with a cross beam B, a plurality of telescopic cylinders C connected with the processor are arranged on the bottom side face of the cross beam B, and the end portions of the telescopic cylinders C are connected with a pressing block which is pressed against the upper surface of a product to be drilled.

The invention has the following beneficial effects:

according to the invention, through the arrangement of the drilling system, the control system and the feeding system, the material to be drilled is automatically conveyed to the drilling system through the feeding system, and the material is drilled through the drilling system, so that the drilling efficiency and the drilling position precision are improved.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a first schematic structural diagram of an automated drilling apparatus according to the present invention;

FIG. 2 is a schematic structural diagram of an automated drilling apparatus according to the present invention;

FIG. 3 is a right side view of the automated drilling apparatus of the present invention;

FIG. 4 is a left side view of the automated drilling apparatus of the present invention;

FIG. 5 is a schematic view of a T-shaped slider structure according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

Referring to fig. 1-5, the present invention is an automatic drilling device with a positioning mechanism, which comprises a drilling system, a control system and a feeding system; the drilling system comprises a drilling platform 1, wherein an L-shaped support 11 is arranged on one side of the drilling platform 1, a T-shaped guide rail I111 is arranged on the bottom side surface of the horizontal section of the L-shaped support 11, and a drilling mechanism is arranged on the T-shaped guide rail I111 in a sliding and matching manner; the bottom side surface of the drilling platform 1 is provided with a T-shaped sliding groove I12 along the length direction, a T-shaped sliding block I121 is arranged in the T-shaped sliding groove I12 in a matched mode, and the top of the T-shaped sliding block I121 is provided with a baffle I122; an opening 13 is formed in the drilling platform 1 on one side of the first T-shaped sliding block 121 along the length direction of the drilling platform, a plurality of U-shaped frames 131 are connected to two sides of the opening 13, a second T-shaped guide rail 132 is arranged on the U-shaped frames 131 in a matched mode, and a control mechanism used for driving a product to be drilled to move along the upper surface of the drilling platform 1 is arranged on the second T-shaped guide rail 132 in a matched mode;

A second baffle plate 14 is arranged on the other side of the drilling platform 1, the inner side of the second baffle plate 14 is connected with a first guide plate 142 through a plurality of telescopic cylinders A141, and a plurality of first balls 143 are embedded in the inner side surface of the first guide plate 142 along the length direction of the inner side surface; one end, far away from the first guide plate 142, of the first baffle 122 is provided with an expansion link 123, and the end part of the expansion link 123 is provided with a clamping plate 124 clamped on one side of a product to be drilled; the control system controls the connection of the telescopic cylinder A141.

The control mechanism comprises a first electric sliding block 133 capable of sliding along the length direction of a second T-shaped guide rail 132, a rotating motor 134 is arranged at the top of the first electric sliding block 133, an installation block 135 is arranged at the end part of the rotating motor 134, a first telescopic motor 136 is arranged on one side of the installation block 135, and a driving block 137 abutted against one end of a product to be drilled is connected to the end part of the first telescopic motor 136; the control system is connected with the first electric sliding block 133, the first rotating motor 134 and the first telescopic motor 136 in a control mode.

The drilling mechanism comprises a second electric sliding block 112 moving along a first T-shaped guide rail 111, a drilling motor 113 is fixed on the bottom side surface of the second electric sliding block 112, a drill bit 114 is connected to an output shaft of the drilling motor 113, and the second electric sliding block 112 and the drilling motor 113 are in control connection with a control system.

A concave cavity 125 is formed in the bottom side face of the first T-shaped sliding block 121, a second telescopic motor 126 is arranged in the concave cavity 125, a positioning insertion rod 127 is arranged at the end of the second telescopic motor 126, and the end of the positioning insertion rod 127 is of a spherical structure 128; a plurality of positioning insertion holes which are matched with the positioning insertion rods 127 one by one are formed in the bottom side surface of the T-shaped sliding groove I12 along the length direction of the T-shaped sliding groove I at equal intervals; the second telescopic motor 126 is connected with the control system.

One side of the top of the L-shaped support 11 is provided with a beam A15, the bottom side of the beam A15 is provided with a telescopic motor III 151 connected with a control system, and the end part of the telescopic motor III 151 is provided with a pressing plate 152.

The control system comprises a processor, and the signal output end of the processor is connected with the display and the alarm.

The feeding system comprises a feeding platform 2, and the upper surface of the feeding platform 2 is an inclined plane 21; a third baffle 22 is arranged on the feeding platform 2 positioned at the bottom end of the inclined plane 21, the inner side wall of the third baffle 22 is connected with a second guide plate 222 through a plurality of telescopic cylinders B221, and a plurality of second balls 223 are embedded in the inner side surface of the second guide plate 222; an L-shaped side plate 23 is arranged at the top of the third baffle plate 22, a T-shaped guide rail three 231 is arranged on the inner top side surface of the L-shaped side plate 23, an electric slider two 232 connected with the processor is arranged on the T-shaped guide rail three 231 in a matching mode, the bottom side surface of the electric slider two 232 is connected with a driving rod 233, and the end portion of the driving rod 233 is connected with a driving plate 234 abutting against one end of a product to be drilled.

The inclination angle of the inclined plane 21 is 5-15 degrees, two ends of the upper surface of the feeding platform 2 are respectively provided with a blocking edge 24, the distance between the blocking edge 24 and the third baffle 22 at the end close to the third baffle 22 is T, the width of a product to be drilled placed on the feeding platform 2 is M, and T is larger than M.

The tops of the two retaining edges 24 on one side of the third baffle 22 are respectively provided with a support column 241, the tops of the two support columns 241 are connected with a beam B242, the bottom side surface of the beam B242 is provided with a plurality of telescopic cylinders C243 connected with the processor, and the end parts of the telescopic cylinders C243 are connected with a pressing block which is pressed against the upper surface of a product to be drilled.

Stp1, when in use, a square rod or pipe to be drilled is flatly laid on the inclined plane 21, the square rod A at the bottom abuts against the second guide plate 222, the controller controls the plurality of telescopic cylinders C243 to synchronously extend, and the pressing block abuts against the top side surface of the other square rod B at one side of the square rod A and limits the square rod B;

the Stp2 and the controller control the telescopic cylinder B221 to retract, at the moment, the square rod A slides along the inclined plane 21 and is abutted against the second guide plate 222 at any time, at the moment, the controller controls the second electric slide block 232 to move along the third T-shaped guide rail 231, and controls the driving plate 234 to abut against one end of the square rod A, so that the square rod A is controlled to move from the inclined plane 21 to the drilling platform 1;

stp3, moving the square rod A on the drilling platform 1, wherein the end of the square rod A abuts against the first baffle 122, and controlling the telescopic cylinder A141 to extend to enable one side of the square rod A to abut against the first guide plate 142 and the end of the other side to abut against the inner side of the clamping plate 124; the telescopic length of the telescopic rod 123 is adjusted in advance according to the width of the square rod A;

stp4, controlling the rotation of the rotating motor 134 to enable the axial direction of the first telescopic motor 136 to be perpendicular to the axial direction of the square rod A, controlling the first electric sliding block 133 to move, and controlling the first telescopic motor 136 to extend to enable the driving block 137 to abut against one end of the square rod A; at the moment, the electric slide block I133 is continuously controlled to move to drive the square rod material A to move along the upper surface of the drilling platform 1;

stp5, move to the corresponding position, control flexible motor two 126 to stretch out this moment and make location inserted bar 127 insert in the location jack, and control flexible motor three 151 to stretch out and make pressure strip 152 press and realize fixing square pole material A on the upper surface of square pole material A, control electronic slider two 112 and move to the drilling position after start drilling motor 113 and carry out the drilling.

Stp6, after the square rod A is drilled, controlling the telescopic cylinder B221 to extend to the initial state and controlling the telescopic cylinder A141 to retract to the initial state; then the telescopic cylinder C243 is controlled to retract, at this time, the square rod B and other square rods placed on the inclined plane 21 synchronously slide along the inclined plane 21, and the operation Stp 1-Stp 5 can be repeated until the square rod B abuts against the second guide plate 222.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides an automatic drilling equipment with positioning mechanism which characterized in that: the device comprises a drilling system, a control system and a feeding system;

the drilling system comprises a drilling platform (1), wherein an L-shaped support (11) is arranged on one side of the drilling platform (1), a first T-shaped guide rail (111) is arranged on the bottom side surface of the horizontal section of the L-shaped support (11), and a drilling mechanism is arranged on the first T-shaped guide rail (111) in a sliding and matching manner;

a first T-shaped sliding groove (12) is formed in the bottom side face of the drilling platform (1) along the length direction of the drilling platform, a first T-shaped sliding block (121) is arranged in the first T-shaped sliding groove (12) in a matched mode, and a first baffle plate (122) is arranged at the top of the first T-shaped sliding block (121);

an opening (13) is formed in the drilling platform (1) on one side of the first T-shaped sliding block (121) along the length direction of the drilling platform, a plurality of U-shaped frames (131) are connected to two sides of the opening (13), a second T-shaped guide rail (132) is arranged on the U-shaped frames (131) in a matched mode, and a control mechanism used for driving a product to be drilled to move along the upper surface of the drilling platform (1) is arranged on the second T-shaped guide rail (132) in a matched mode;

2. The automatic drilling device with the positioning mechanism is characterized in that a second baffle plate (14) is arranged on the other side of the drilling platform (1), the inner side of the second baffle plate (14) is connected with a first guide plate (142) through a plurality of telescopic cylinders A (141), and a plurality of first balls (143) are embedded in the inner side surface of the first guide plate (142) along the length direction of the first guide plate;

one end, far away from the first guide plate (142), of the first baffle plate (122) is provided with an expansion rod (123), and the end part of the expansion rod (123) is provided with a clamping plate (124) clamped on one side of a product to be drilled;

the control system controls the connection of the telescopic cylinder A (141).

3. The automatic drilling device with the positioning mechanism is characterized in that the control mechanism comprises a first electric slide block (133) capable of sliding along the length direction of a second T-shaped guide rail (132), a rotating motor (134) is arranged at the top of the first electric slide block (133), a mounting block (135) is arranged at the end part of the rotating motor (134), a first telescopic motor (136) is arranged on one side of the mounting block (135), and a driving block (137) abutting against one end of a product to be drilled is connected to the end part of the first telescopic motor (136);

the control system is connected with the first electric sliding block (133), the rotating motor (134) and the first telescopic motor (136) in a control mode.

4. The automatic drilling device with the positioning mechanism is characterized in that the drilling mechanism comprises a second electric slide block (112) moving along a first T-shaped guide rail (111), a drilling motor (113) is fixed on the bottom side surface of the second electric slide block (112), a drill bit (114) is connected to an output shaft of the drilling motor (113), and the second electric slide block (112) and the drilling motor (113) are in control connection with a control system.

5. The automatic drilling device with the positioning mechanism is characterized in that a cavity (125) is formed in the bottom side face of the first T-shaped sliding block (121), a second telescopic motor (126) is arranged in the cavity (125), a positioning insertion rod (127) is arranged at the end of the second telescopic motor (126), and the end of the positioning insertion rod (127) is of a spherical structure (128);

the bottom side surface of the T-shaped sliding groove I (12) is provided with a plurality of positioning insertion holes which are matched with the positioning insertion rods (127) one by one at equal intervals along the length direction;

and the second telescopic motor (126) is connected with a control system.

6. The automatic drilling device with the positioning mechanism is characterized in that a cross beam A (15) is arranged on one side of the top of the L-shaped support (11), a telescopic motor III (151) connected with a control system is arranged on the bottom side of the cross beam A (15), and a pressing plate (152) is arranged at the end part of the telescopic motor III (151).

7. The automated drilling apparatus with a positioning mechanism of claim 6, wherein the control system comprises a processor, and a signal output end of the processor is connected with the display and the alarm.

8. The automatic drilling device with the positioning mechanism is characterized in that the feeding system comprises a feeding platform (2), the upper surface of the feeding platform (2) is an inclined slope (21);

a third baffle plate (22) is arranged on the feeding platform (2) positioned at the bottom end of the inclined plane (21), the inner side wall of the third baffle plate (22) is connected with a second guide plate (222) through a plurality of telescopic cylinders B (221), and a plurality of second balls (223) are embedded in the inner side surface of the second guide plate (222);

the top of baffle three (22) is provided with an L type curb plate (23), the interior top side of L type curb plate (23) is provided with a T type guide rail three (231), the cooperation is provided with the electronic slider two (232) of being connected with the treater on T type guide rail three (231), actuating lever (233) is connected to the bottom side of electronic slider two (232), the end connection of actuating lever (233) supports and leans on drive plate (234) of waiting to bore hole product one end.

9. The automatic drilling device with the positioning mechanism is characterized in that the inclination angle of the inclined surface (21) is 5-15 degrees, two ends of the upper surface of the feeding platform (2) are respectively provided with a blocking edge (24), the distance between one end of each blocking edge (24) close to the corresponding blocking plate III (22) and the corresponding blocking plate III (22) is T, the width of a product to be drilled placed on the feeding platform (2) is M, and T is greater than M.

10. The automatic drilling device with the positioning mechanism according to claim 9, wherein a support column (241) is respectively arranged at the tops of the two retaining edges (24) on one side of the three baffle plates (22), a cross beam B (242) is connected to the tops of the two support columns (241), a plurality of telescopic cylinders C (243) connected with the processor are arranged on the bottom side surface of the cross beam B (242), and a pressing block abutting against the upper surface of a product to be drilled is connected to the end portion of each telescopic cylinder C (243).