CN211708624U

CN211708624U - Drilling, milling and tapping combined machining equipment

Info

Publication number: CN211708624U
Application number: CN202020300881.XU
Authority: CN
Inventors: 冯肃钢
Original assignee: Pujiang Lianli Machinery Co ltd
Current assignee: Pujiang Lianli Machinery Co ltd
Priority date: 2020-03-12
Filing date: 2020-03-12
Publication date: 2020-10-20
Anticipated expiration: 2030-03-12

Abstract

The utility model discloses a bore, mill, tapping combination processing equipment, include: the device comprises a rack, a four-way moving assembly, a plurality of machining heads, a workpiece clamp and a feeding and discharging mechanism; the rack is provided with a top bedplate and a bottom bedplate which are vertically distributed; a group of four-way moving assemblies are arranged on the bottom bedplate; a workpiece clamp is horizontally arranged on the four-way moving assembly; a plurality of machining heads distributed on two sides of the workpiece fixture are arranged on the top platen, and the number of the machining heads on each side is not less than one; a group of feeding and discharging mechanisms are arranged at the initial positions of the rack corresponding to the workpiece clamps; the workpiece fixture is driven by the two sets of servo sliding tables to complete the movement of one surface, a plurality of independent machining machine heads are distributed on two sides of the fixture, the function of machining multiple processes is achieved by machining the two surfaces of the workpiece, the number of times of clamping the workpiece is reduced, the efficiency is improved, and machining errors are reduced.

Description

Drilling, milling and tapping combined machining equipment

Technical Field

The utility model relates to a bore, mill, tapping combination processing equipment belongs to the processing equipment field.

Background

Machining is used as a daily production mode, is applied to various industries, is the machining equipment and single-side machining equipment with a traditional single process used in most factories, and in reality, a plurality of products often need to be machined on a plurality of surfaces, and a plurality of processes need to be machined, such as padlock lock bodies, valve bodies of electromagnetic gas valves, parts of equipment and the like, and the products often need to be machined on a plurality of surfaces and in a plurality of processes, for example: drilling, tapping, engraving, chamfering, etc., for which the following drawbacks exist if conventional machining equipment is used: firstly, the workpiece is fixed for many times, so that the machining precision is influenced, and the quality of a product is influenced; secondly, the cutter needs to be replaced continuously, so that the machining efficiency is greatly influenced; based on the defects, the traditional processing equipment has low efficiency and low precision when processing workpieces such as padlock lock bodies, valve bodies of electromagnetic gas valves and the like.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to solve the problem, the utility model provides a bore, mill, tapping combination processing equipment, the quadriversal that constitutes through two sets of servo slip tables removes the subassembly and drives, and work piece holder can remove wantonly on one face, and a plurality of processing aircraft noses of the distribution of work piece holder both sides, every processing aircraft nose independently press from both sides the dress cutter, remove through independent servo slip table control, can realize the function that the two different processes of work piece side just can synchronous processing.

(II) technical scheme

The utility model discloses a bore, mill, tapping combination processing equipment, include: the device comprises a rack, a four-way moving assembly, a plurality of machining heads, a workpiece clamp and a feeding and discharging mechanism; the rack is provided with a top bedplate and a bottom bedplate which are vertically distributed; a group of four-way moving assemblies are arranged on the bottom bedplate; the four-way moving assembly comprises: the servo sliding table comprises a first servo sliding table, a second servo sliding table and a mounting bracket; the first servo sliding table is correspondingly and horizontally arranged on the bottom bedplate; the second servo sliding table is fixedly arranged on the sliding seat of the first servo sliding table; a mounting bracket is fixedly connected to the sliding seat of the second servo sliding table; the mounting bracket is provided with a workpiece clamp; the workpiece clamp is driven by the four-way moving assembly to move on one surface randomly; a plurality of machining heads distributed on two sides of the workpiece fixture are arranged on the top platen, and the number of the machining heads on each side is not less than one; and a group of feeding and discharging mechanisms are arranged at the initial positions of the rack corresponding to the workpiece clamps.

Furthermore, the second servo sliding table is integrally installed on the sliding seat of the first servo sliding table in a slope shape.

Further, the processing head comprises: a third servo sliding table, a four-way adjusting mounting seat and a machining assembly; the third servo sliding table is correspondingly installed and fixed on the top platen; a four-way adjusting mounting seat is fixedly arranged on the sliding seat of the third servo sliding table; and a processing assembly is fixedly arranged on the four-direction adjusting mounting seat.

Further, the processing assembly also comprises a power motor and a cutter chuck; the power motor can adopt any one of an electric motor or a pneumatic motor.

Further, the work holder includes: a base, a clamping body and a pushing element; the base is correspondingly installed and fixed on the installation support; the clamping body is fixedly connected to the base through a bolt; a clamping groove convenient for feeding, discharging and processing is formed in the middle of the clamping body in a penetrating manner; a pushing element is fixedly arranged at the top end of the clamping body; a through groove communicated with the clamping groove and the pushing element is formed in the clamping body; a top pressing block is arranged in the through groove; the top pressing block is correspondingly connected and fixed with a top pushing rod of the top pushing element.

Furthermore, the base is provided with a limiting rail for limiting the clamping body.

Furthermore, the bottom of the clamping body is provided with a limit groove correspondingly connected with the limit rail.

Further, the mechanism of input and output material includes: the device comprises a mounting seat frame, a feeding assembly, a discharging assembly and a positioning cylinder; the mounting seat frame is fixedly arranged on the rack; the mounting seat frame is provided with a feeding assembly, a discharging assembly and a positioning cylinder; the feeding assembly and the positioning cylinder are respectively positioned on two sides of the workpiece clamp; the discharging cylinder of the discharging component only consists of a discharging cylinder and a discharging rail which are respectively arranged on the mounting seat frame; the discharging cylinder is connected with a material pushing block, and a corresponding pushing workpiece enters the discharging track to complete discharging; and the front end of the ejector rod of the positioning cylinder is fixedly connected with an ejector block and faces towards the workpiece clamp.

Further, the feed assembly comprises: the feeding device comprises a feeding platform arranged at the top of an installation seat frame, a feeding cylinder arranged on the feeding platform, a feeding track and a material placing cylinder; the feeding cylinder is installed and fixed at the tail part of the feeding platform, and a push rod of the feeding cylinder faces the workpiece clamp and is positioned on the same horizontal line with the positioning cylinder; the feeding track is in a slope shape, and the bottom end of the feeding track is fixedly connected with the feeding platform; the material placing cylinder is located in front of a feeding hole of the feeding track so as to push a workpiece which slides from the feeding track to the feeding platform to the front of the feeding cylinder.

Furthermore, a control box is also installed on the machine frame.

(III) advantageous effects

The utility model discloses it has following beneficial effect:

the utility model provides a bore, mill, tapping combination processing equipment drives the removal that work piece holder accomplished a face through two sets of servo slip tables, distributes a plurality of independent processing aircraft noses in anchor clamps both sides simultaneously, realizes that the two-sided processing of work piece satisfies the function of multiple process processing simultaneously, reduces the work piece moreover and presss from both sides the dress number of times, and lifting efficiency reduces machining error.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of the structure and distribution of the four-way moving assembly of the present invention.

Fig. 3 is a schematic view of the middle workpiece holder and the feeding and discharging mechanism of the present invention.

Fig. 4 is a schematic view of the internal structure of the clamping body of the middle workpiece clamp of the present invention.

Fig. 5 is a schematic structural view of the middle processing head of the present invention.

Detailed Description

As shown in fig. 1 to 5, a combined drilling, milling and tapping apparatus includes: the device comprises a rack 1, a four-way moving assembly 2, a plurality of machining heads 3, a workpiece clamp 4 and a feeding and discharging mechanism 5; the rack 1 is provided with a top bedplate 12 and a bottom bedplate 11 which are distributed up and down; a group of four-way moving assemblies 2 are arranged on the bottom bedplate 11; the four-way moving assembly 2 includes: a first servo sliding table 21, a second servo sliding table 22 and a mounting bracket 23; the first servo sliding table 21 is correspondingly and horizontally arranged on the bottom platen 11; the second servo sliding table 22 is fixedly arranged on the sliding seat of the first servo sliding table 21; a mounting bracket 23 is fixedly connected to the slide seat of the second servo sliding table 22; the mounting bracket 23 is provided with a workpiece clamp 4; the workpiece clamp 4 is driven by the four-way moving assembly 2 to move on one surface randomly; a plurality of machining heads 3 distributed on two sides of the workpiece fixture 4 are arranged on the top platen 12, and the number of the machining heads 3 on each side is not less than one; a group of feeding and discharging mechanisms 5 are mounted on the frame 1 at initial positions corresponding to the workpiece clamps 4.

Referring to fig. 2, the second servo slide table 22 is integrally mounted on the slide of the first servo slide table 21 in a ramp shape.

Referring to fig. 5, the processing head 3 includes: a third servo sliding table 31, a four-way adjusting mounting seat 32 and a processing assembly 33; the third servo sliding table 31 is correspondingly installed and fixed on the top platen 12; a four-way adjusting mounting seat 32 is fixedly mounted on the sliding seat of the third servo sliding table 31; and a processing assembly 33 is fixedly arranged on the four-direction adjusting mounting seat 32.

Preferably, the machining assembly 33 is also comprised of a power motor 331 and a tool holder 332; the power motor 331 may be an electric motor or a pneumatic motor.

Referring to fig. 3 and 4, the work holder 4 includes: a base 41, a clamping body 42, an urging element 43; the base 41 is correspondingly installed and fixed on the installation bracket 23; a clamping body 42 is fixedly connected to the base 41 through a bolt; a clamping groove 421 convenient for feeding, discharging and processing is formed in the middle of the clamping body 42 in a penetrating manner; the top end of the clamping body 42 is fixedly provided with a pushing element 43; a through groove 422 communicated with the clamping groove 421 and the pushing element 43 is formed in the clamping body 42; a top pressing block 44 is arranged in the through groove 422; the top pressing block 44 is correspondingly connected and fixed with the pushing rod of the pushing element 43.

Preferably, the base 41 is provided with a limit rail 411 for limiting the clip fitting body 42.

Preferably, the bottom of the clamping body 42 is opened with a limit groove 423 correspondingly connected with the limit rail 411.

Referring to fig. 2 and 3, the feeding and discharging mechanism 5 includes: a mounting seat frame 51, a feeding assembly 52, a discharging assembly 53 and a positioning cylinder 54; the mounting seat frame 51 is fixedly mounted on the frame 1; the mounting seat frame 51 is provided with a feeding assembly 52, a discharging assembly 53 and a positioning cylinder 54; the feeding assembly 52 and the positioning air cylinder 54 are respectively positioned at two sides of the workpiece clamp 4; the discharging cylinder of the discharging component 53 only consists of a discharging cylinder 531 and a discharging rail 532 which are respectively arranged on the mounting seat frame 51; the discharging cylinder 531 is connected with a material pushing block, and correspondingly pushes the workpiece to enter the discharging rail 532 to complete discharging; the front end of the ejector rod of the positioning cylinder 54 is fixedly connected with an ejector block and faces the workpiece clamp 4.

Preferably, the feeding assembly 52 comprises: a feeding platform 521 arranged at the top of the mounting seat frame 51, a feeding cylinder 522 arranged on the feeding platform 521, a feeding rail 523 and a material placing cylinder 524; the feeding cylinder 522 is fixedly arranged at the tail part of the feeding platform 521, and the ejector rod of the feeding cylinder is towards the workpiece clamp 4 and is positioned at the same horizontal line with the positioning cylinder 54; the feeding rail 523 is in a slope shape, and the bottom end of the feeding rail is fixedly connected with the feeding platform 521; the material placing cylinder 524 is located in front of the feeding hole of the feeding rail 523, so as to push the workpiece sliding from the feeding rail 523 to the feeding platform 521 to the right front of the feeding cylinder 522.

Referring to fig. 1, a control box 13 is further installed on the frame 1.

With reference to fig. 1-5, the action process of the present invention is described in detail, in an initial state, the bottom surface of the clamping groove 421 of the workpiece holder 4 is flush with the feeding platform 521, two ports are respectively opposite to the positioning cylinder 54 and the feeding cylinder 522, after the operation, the feeding and discharging mechanism 5 feeds the workpiece holder 4, the positioning cylinder 54 performs a limiting function to prevent the feeding cylinder 522 from pushing excessive material, then the first servo sliding table 21 and the second servo sliding table 22 in the four-way moving assembly 2 start to act to drive the workpiece holder 4 thereon to move to the front end of each machining head 3 in sequence, so as to facilitate the machining head 3 to machine the workpiece, and then the third servo sliding table 31 at the bottom of the machining head 3 acts to drive the machining assembly 33 thereon to lean against the workpiece, thereby implementing the machining, according to the machining requirements, the machining head 3 on one side can be machined separately, or the machining heads 3 on two sides of the workpiece can be machined simultaneously, after the machining is finished, the workpiece clamp 4 is driven by the four-way moving assembly 2 to return to the corresponding feeding and discharging mechanism 5, two ends of the clamping groove 421 face the discharging air cylinder 531 and the discharging bin rail 532, and the discharging is finished by pushing through the discharging air cylinder 531.

It is to be understood that the exemplary embodiments described herein are illustrative and not restrictive; although the embodiments of the present invention have been described with reference to the accompanying drawings, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A combined drilling, milling and tapping machining device comprises: the device comprises a rack (1), a four-way moving assembly (2), a plurality of machining heads (3), a workpiece clamp (4) and a feeding and discharging mechanism (5); the method is characterized in that: a top bedplate (12) and a bottom bedplate (11) which are distributed up and down are arranged on the frame (1); a group of four-way moving components (2) are arranged on the bottom bedplate (11); the four-way moving assembly (2) comprises: the servo sliding table comprises a first servo sliding table (21), a second servo sliding table (22) and a mounting bracket (23); the first servo sliding table (21) is correspondingly and horizontally arranged on the bottom platen (11); the second servo sliding table (22) is fixedly arranged on a sliding seat of the first servo sliding table (21); a mounting bracket (23) is fixedly connected to the sliding seat of the second servo sliding table (22); the mounting bracket (23) is provided with a workpiece clamp (4); the workpiece clamp (4) is driven by the four-direction moving assembly (2) to move on one surface randomly; a plurality of machining heads (3) distributed on two sides of the workpiece fixture (4) are mounted on the top platen (12), and the number of the machining heads (3) on each side is not less than one; a group of feeding and discharging mechanisms (5) are installed at the initial position, corresponding to the workpiece clamp (4), on the rack (1).

2. The combined drilling, milling and tapping machining device as claimed in claim 1, wherein: the second servo sliding table (22) is integrally installed on a sliding seat of the first servo sliding table (21) in a slope shape.

3. The combined drilling, milling and tapping machining device as claimed in claim 1, wherein: the processing head (3) comprises: a third servo sliding table (31), a four-way adjusting mounting seat (32) and a processing assembly (33); the third servo sliding table (31) is correspondingly installed and fixed on the top platen (12); a four-way adjusting mounting seat (32) is fixedly arranged on a sliding seat of the third servo sliding table (31); and a processing assembly (33) is fixedly arranged on the four-direction adjusting mounting seat (32).

4. The combined drilling, milling and tapping machining device as claimed in claim 3, wherein: the processing assembly (33) also consists of a power motor (331) and a cutter chuck (332); the power motor (331) may be any one of an electric motor and a pneumatic motor.

5. The combined drilling, milling and tapping machining device as claimed in claim 1, wherein: the work holder (4) comprises: a base (41), a clamping body (42) and a pushing element (43); the base (41) is correspondingly installed and fixed on the installation bracket (23); a clamping body (42) is fixedly connected to the base (41) through a bolt; a clamping groove (421) convenient for feeding, discharging and processing is arranged in the middle of the clamping body (42) in a penetrating way; a pushing element (43) is fixedly arranged at the top end of the clamping body (42); a through groove (422) communicated with the clamping groove (421) and the pushing element (43) is formed in the clamping body (42); a top pressing block (44) is arranged in the through groove (422); the jacking block (44) is correspondingly connected and fixed with a jacking rod of the jacking element (43).

6. The combined drilling, milling and tapping machining device as claimed in claim 5, wherein: the base (41) is provided with a limiting rail (411) used for limiting the clamping body (42).

7. The combined drilling, milling and tapping machining device as claimed in claim 6, wherein: the bottom of the clamping body (42) is provided with a limit groove (423) correspondingly connected with the limit rail (411).

8. The combined drilling, milling and tapping machining device as claimed in claim 1, wherein: the feeding and discharging mechanism (5) comprises: the device comprises a mounting seat frame (51), a feeding assembly (52), a discharging assembly (53) and a positioning cylinder (54); the mounting seat frame (51) is fixedly mounted on the frame (1); the mounting seat frame (51) is provided with a feeding assembly (52), a discharging assembly (53) and a positioning cylinder (54); the feeding assembly (52) and the positioning air cylinder (54) are respectively positioned at two sides of the workpiece clamp (4); the discharging cylinder of the discharging assembly (53) only consists of a discharging cylinder (531) and a discharging rail (532) which are respectively arranged on the mounting seat frame (51); the discharging cylinder (531) is connected with a material pushing block, and correspondingly pushes a workpiece to enter a discharging track (532) so as to finish discharging; the front end of the ejector rod of the positioning cylinder (54) is fixedly connected with an ejector block and faces the workpiece clamp (4).

9. The combined drilling, milling and tapping machining device as claimed in claim 8, wherein: the feed assembly (52) comprises: a feeding platform (521) arranged at the top of the mounting seat frame (51), a feeding cylinder (522) arranged on the feeding platform (521), a feeding track (523) and a material swinging cylinder (524); the feeding cylinder (522) is fixedly arranged at the tail part of the feeding platform (521), and a push rod of the feeding cylinder faces the workpiece clamp (4) and is positioned on the same horizontal line with the positioning cylinder (54); the feeding track (523) is in a slope shape, and the bottom end of the feeding track is fixedly connected with the feeding platform (521); the material placing cylinder (524) is positioned in front of a feeding hole of the feeding track (523) so as to push a workpiece sliding from the feeding track (523) to the feeding platform (521) to the right front of the feeding cylinder (522).

10. The combined drilling, milling and tapping machining device as claimed in claim 1, wherein: and the rack (1) is also provided with a control box (13).