CN113334079A - Automatic cylinder barrel machining equipment for hydraulic oil cylinder - Google Patents

Abstract

The invention discloses automatic cylinder barrel processing equipment of a hydraulic cylinder, which comprises a first automatic conveying device, a first scraping roller, a second automatic conveying device, a first lathe assembly and a second lathe assembly, wherein the first automatic conveying device is arranged on the first automatic conveying device; first automatic handling device set up in first scrape between the roller and the second scrapes the roller, second automatic handling device set up in between first lathe subassembly and the second lathe subassembly, first automatic handling device is used for removing the work piece of treating processing to first scraping roller, second and scrapes in the roller, first scraping roller and second scrape the roller and all be used for scraping the roller hole, second automatic handling device is used for scraping the work piece after roller processing with first scraping roller, second and removes to first lathe subassembly, second lathe subassembly on, first lathe subassembly is used for the excircle of finish turning work piece, outer slot and interior slot, second lathe subassembly is used for the hole slot of finish turning work piece.

Description

Automatic cylinder barrel machining equipment for hydraulic oil cylinder

Technical Field

The invention relates to the technical field of hydraulic cylinder processing equipment, in particular to automatic processing equipment for a cylinder barrel of a hydraulic cylinder.

Background

The traditional processing mode is as follows: most of the finished product cylinder barrels are processed by manually matching with a numerical control lathe according to a program processing mode of the outer circle and the outer groove of the cylinder barrel, the finished product cylinder barrels are processed from scraping and rolling of the cylinder barrels to processing of the inner hole grooves, about 15 minutes is needed, the production efficiency is low, and the investment of workers, equipment and capital is very large.

In view of the above, there is a need for a new automatic cylinder barrel processing device for hydraulic cylinder to overcome the above-mentioned drawbacks.

Disclosure of Invention

The invention aims to provide automatic machining equipment for a cylinder barrel of a hydraulic cylinder, which is conveyed to machining process equipment through an automatic conveying device in the whole process, and does not need to finish machining in a mode of manually conveying workpieces to match with the machining process equipment, so that the production efficiency is improved, the labor cost is reduced, and the automation degree is high.

In order to achieve the purpose, the invention provides automatic cylinder barrel processing equipment for a hydraulic cylinder, which comprises a first automatic conveying device, a first scraping roller machine, a second automatic conveying device, a first lathe assembly and a second lathe assembly; the first automatic handling device is arranged between the first scraping roller and the second scraping roller, the second automatic handling device is arranged between the first lathe component and the second lathe component,

first automatic handling device is used for removing the work piece of treating processing to first scraping in rolling machine, the second scrapes the rolling machine, first scrape rolling machine and second scrape the rolling machine and all be used for scraping the cylinder hole, second automatic handling device is used for scraping the work piece after rolling machine processing with first scraping rolling machine, second and removes to first lathe subassembly, second lathe subassembly on, first lathe subassembly is used for the excircle of finish turning work piece, outer slot and interior slot, second lathe subassembly is used for the hole slot of finish turning work piece.

Preferably, the automatic cylinder barrel machining equipment for the hydraulic cylinder further comprises a control cabinet, a controller is accommodated in the control cabinet, and the controller is electrically connected with the first automatic conveying device and the second automatic conveying device.

Preferably, the first automatic handling device comprises a first slide rail arranged between the first scraping roller and the second scraping roller, a first six-axis joint robot slidably arranged on the first slide rail, and a first platform to be fed, which is slidably arranged on the first slide rail and connected with the first six-axis joint robot, wherein the first six-axis joint robot is electrically connected with the controller and can move on the first slide rail.

Preferably, the second automatic handling device includes a second slide rail installed between the first lathe component and the second lathe component, a second six-axis joint robot slidably installed on the second slide rail, and a second material waiting platform slidably installed on the second slide rail and connected to the second six-axis joint robot, and the second six-axis joint robot is electrically connected to the controller and can move on the second slide rail.

Preferably, the automatic cylinder barrel machining equipment for the hydraulic oil cylinder further comprises a selective inspection table, and the selective inspection table is arranged at one end of the second sliding rail.

Preferably, the first lathe assembly comprises a first lathe and a first chip removal machine connected with the first lathe.

Preferably, the second lathe assembly includes a second lathe and a second chip ejector connected to the second lathe.

Preferably, the automatic cylinder barrel machining equipment for the hydraulic oil cylinder further comprises a material warehouse, wherein the material warehouse is arranged between the first scraping roller and the second scraping roller and is adjacent to the first automatic conveying device.

Preferably, the automatic cylinder barrel machining equipment for the hydraulic oil cylinder further comprises a feeding warehouse, and the feeding warehouse is arranged between the first automatic conveying device and the second automatic conveying device.

Preferably, the automatic cylinder barrel machining equipment for the hydraulic oil cylinder further comprises a blanking warehouse, and the blanking warehouse is adjacent to the feeding warehouse.

Compared with the prior art, the automatic machining equipment for the cylinder barrel of the hydraulic cylinder, provided by the invention, has the beneficial effects that: the whole process is carried to the processing procedure equipment through the automatic carrying device, the processing is finished in a mode that workpieces are carried by manpower to match with the processing procedure equipment, the production efficiency is improved, the labor cost is reduced, and the automation degree is high.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a first part of an automatic cylinder barrel processing device of a hydraulic cylinder provided by the invention.

Fig. 2 is a schematic structural diagram of a second part of the automatic cylinder barrel machining equipment for the hydraulic cylinder provided by the invention.

FIG. 3 is a structural view of a third part of the automatic cylinder barrel machining equipment for the hydraulic cylinder, which is provided by the invention.

Fig. 4 is a structural view of the whole automatic processing equipment for the cylinder barrel of the hydraulic oil cylinder provided by the invention.

Fig. 5 is a schematic structural diagram of a workpiece.

Reference numerals: 1. a first automatic conveyance device; 2. a first scraping roller machine; 3. a second scraping roller machine; 4. a second automatic conveyance device; 5. a first lathe 51 assembly; 6. a second lathe 61 assembly; 7. a feeding warehouse; 8. a material warehouse; 9. a control cabinet; 11. a first slide rail; 12. a first six-axis joint robot; 13. a first platform to be fed; 10. a blanking warehouse; 41. a second slide rail; 42. a second six-axis joint robot; 43. a second material waiting platform; 101. a sampling inspection table; 51. a first lathe; 52. a first chip remover; 61. a second lathe; 62. a second chip removal machine; 100. an inner hole of the cylinder barrel; 200. an outer groove; 300. an inner groove; 400. an inner bore groove; 500. a cylinder barrel.

Detailed Description

In order to make the objects, technical solutions and advantageous effects of the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and the detailed description. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1 to 5, the present invention provides an automatic cylinder barrel processing apparatus for a hydraulic cylinder, including a first automatic handling device 1, a first roller scraper 2, a second roller scraper 3, a second automatic handling device 4, a first lathe assembly 5 and a second lathe assembly 6; the first automatic handling device 1 is arranged between the first scraping roller 2 and the second scraping roller 3, the second automatic handling device 4 is arranged between the first lathe component 5 and the second lathe component 6,

first automatic handling device 1 is used for removing the work piece 500 (the cylinder of pneumatic cylinder) of treating processing to the first machining zone of scraping rolling machine 2, in the second machining zone of scraping rolling machine 3, first scrape rolling machine 2 and second scrape rolling machine 3 and all be used for scraping the cylinder hole 100, second automatic handling device 4 is used for scraping the work piece 500 that rolling machine 3 processed with first scraping rolling machine 2, second and removes to first lathe subassembly 5, second lathe subassembly 6 on, first lathe subassembly 5 is used for finish turning work piece 500's excircle, outer slot 200 and interior slot 300, second lathe subassembly 6 is used for finish turning work piece 500's hole slot 400. In the present embodiment, the number of the first vehicle bed assemblies 5 is three, and the number of the second vehicle bed assemblies 6 is one. In the present embodiment, the first scraping and rolling machine 2 and the second scraping and rolling machine 3 are both KTG 2120.

Further, the automatic cylinder barrel machining equipment of the hydraulic oil cylinder further comprises a material warehouse 8, wherein the material warehouse 8 is arranged between the first scraping roller 2 and the second scraping roller 3 and is adjacent to the first automatic conveying device 1. The workpieces 500 to be processed are placed in the magazine 8 in batches by a worker so that the first automatic handling apparatus 1 moves the workpieces 500 to the processing area of the first scraping and rolling machine 2 and the processing area of the second scraping and rolling machine 3.

Further, the automatic cylinder barrel machining equipment of the hydraulic cylinder further comprises a feeding warehouse 7, the feeding warehouse 7 is arranged between the first automatic conveying device 1 and the second automatic conveying device 4, the first automatic conveying device 1 is used for placing a workpiece 500 passing through the first scraping roller 2 and the second scraping roller 3 after finish turning of the inner hole 100 of the cylinder barrel in the feeding warehouse 7, and the second automatic conveying device 4 moves the workpiece 500 in the feeding warehouse 7 to the first lathe component 5 and the second lathe component 6.

Further, the automatic cylinder barrel machining equipment for the hydraulic cylinder further comprises a control cabinet 9, a controller is accommodated in the control cabinet 9, and the controller is arranged adjacent to the feeding warehouse 7 and is electrically connected with the first automatic conveying device 1 and the second automatic conveying device 4.

Specifically, the first automatic handling device 1 includes a first slide rail 11 installed between the first scraping roller 2 and the second scraping roller 3, a first six-axis joint robot 12 installed on the first slide rail 11 in a sliding manner, and a first waiting platform 13 installed on the first slide rail 11 in a sliding manner and connected to the first six-axis joint robot 12, where the first six-axis joint robot 12 is electrically connected to the controller and can move on the first slide rail 11; the first six-axis joint robot 12 sucks the workpiece 500 in the material storage 7 and moves the workpiece to the first platform 13 to be loaded in an adsorption manner.

The controller sends an instruction to the first six-axis joint robot 12 to start the first six-axis joint robot 12, when the first six-axis joint robot 12 moves to a processing area close to the first scraping and rolling machine 2 and a processing area of the second scraping and rolling machine 3 along the first slide rail 11, the first standby platform 13 moves along with the first six-axis joint robot 12, the first six-axis joint robot 12 sucks and moves a workpiece 500 on the first standby platform 13 to the processing area of the first scraping and rolling machine 2 and the processing area of the second scraping and rolling machine 3, the first scraping and rolling machine 2 and the second scraping and rolling machine 3 respectively scrape and roll the cylinder bore 100 of the workpiece 500,

after the first scraping roller 2 and the second scraping roller 3 are machined, the first six-axis joint robot 12 sucks the workpiece 500 in the machining area of the first scraping roller 2 and the machining area of the second scraping roller 3 in an adsorption mode and moves the workpiece to the loading warehouse 7.

Further, the automatic cylinder barrel machining equipment for the hydraulic oil cylinder further comprises a blanking warehouse 10, and the blanking warehouse 10 is adjacent to the feeding warehouse 7.

Specifically, the second automatic handling device 4 includes a second slide rail 41 installed between the first lathe component 5 and the second lathe component 6, a second six-axis joint robot 42 installed on the second slide rail 41 in a sliding manner, and a second material waiting platform 43 installed on the second slide rail 41 in a sliding manner and connected to the second six-axis joint robot 42, where the second six-axis joint robot 42 is electrically connected to the controller and can move on the second slide rail 41; the second six-axis joint robot 42 sucks the workpiece 500 in the feeding bank 7 and moves the workpiece onto the second waiting platform 43 in an adsorption manner.

The controller sends an instruction to the second six-axis joint robot 42 to start the second six-axis joint robot 42, when the second six-axis joint robot 42 moves to be close to the feeding store 7 along the second slide rail 41, the second feeding platform 43 moves along with the second six-axis joint robot 42, the second six-axis joint robot 42 sucks and moves the workpiece 500 in the feeding store 7 to the second feeding platform 43,

when the second six-axis joint robot 42 moves to a position close to the feeding position of the first lathe component 5 and the feeding position of the second lathe component 6 along the second slide rail 41, the second material waiting platform 43 moves along with the second six-axis joint robot 42, the second six-axis joint robot 42 sucks and moves the workpiece 500 on the second material waiting platform 43 to the feeding position of the first lathe component 5 and the feeding position of the second lathe component 6,

after the first lathe assembly 5 finishes processing the workpiece 500, the second six-axis joint robot 42 sucks and moves the workpiece 500 to the second material waiting platform 43, then the second six-axis joint robot 42 sucks the workpiece 500 on the second material waiting platform 43 in an adsorption mode and moves the workpiece 500 to the feeding position of the second lathe assembly 6, after the second lathe assembly 6 finishes processing the workpiece 500, the second six-axis joint robot 42 sucks the workpiece 500 in the second lathe assembly 6 in an adsorption mode and moves the workpiece 500 to the second material waiting platform 43, the second six-axis joint robot 42 moves to a position close to the blanking warehouse 10 along with the second slide rail 41, and the second six-axis joint robot 42 moves the workpiece 500 on the second material waiting platform 43 to the blanking warehouse 10.

Further, the automatic cylinder barrel machining equipment for the hydraulic oil cylinder further comprises a selective inspection table 101, wherein the selective inspection table 101 is arranged at one end of the second slide rail 41, and the feeding warehouse 7 is arranged at the other end of the second slide rail 41.

In this way, by providing the sampling platform 101 at one end of the second slide rail 41, the second six-axis joint robot 42 places the workpiece 500 after the processing of the first lathe component 5 and the second lathe component 6 is completed on the sampling platform 101, so that the quality inspector samples the product quality of the processed workpiece 500.

Further, the first lathe assembly 5 comprises a first lathe 51 and a first chip removing machine 52 connected with the first lathe 51, the first lathe 51 is used for finish turning the outer circle of the workpiece 500, the outer groove 200 and the inner groove 300, and the first chip removing machine 52 is used for removing metal chips generated after the first lathe 51 is machined.

Further, the second lathe assembly 6 comprises a second lathe 61 and a second chip removal machine 62 connected with the second lathe 61, the second lathe 61 is used for finish turning the inner hole groove 400 of the workpiece 500, and the second chip removal machine 62 is used for removing metal chips generated after the second lathe 61 is machined. In the present embodiment, the first lathe and the second lathe are both CK7550 in type or both CK7530 in type.

When in use, a worker puts workpieces 500 to be processed in the material warehouse 8 in batches in advance, the controller sends an instruction to the first six-axis joint robot 12 to start the first six-axis joint robot 12, when the first six-axis joint robot 12 moves to a processing area close to the first scraping and rolling machine 2 and a processing area close to the second scraping and rolling machine 3 along the first slide rail 11,

the first platform to be charged 13 moves along with the first six-axis joint robot 12, the first six-axis joint robot 12 sucks and moves the workpiece 500 on the first platform to be charged 13 to the processing area of the first scraping and rolling machine 2 and the processing area of the second scraping and rolling machine 3, and the first scraping and rolling machine 2 and the second scraping and rolling machine 3 respectively scrape and roll the cylinder bore 100 of the workpiece 500;

after the first scraping and rolling machine 2 and the second scraping and rolling machine 3 are machined, the first six-axis joint robot 12 sucks the workpieces 500 in the machining area of the first scraping and rolling machine 2 and the machining area of the second scraping and rolling machine 3 in an adsorption mode and moves the workpieces into the feeding warehouse 7;

the controller sends an instruction to the second six-axis joint robot 42 to start the second six-axis joint robot 42, and when the second six-axis joint robot 42 moves to be close to the feeding store 7 along the second slide rail 41, the second feeding platform 43 moves along with the second six-axis joint robot 42, and then the second six-axis joint robot 42 sucks and moves the workpiece 500 in the feeding store 7 to the second feeding platform 43;

when the second six-axis joint robot 42 moves along the second slide rail 41 to a position close to the feeding position of the first lathe component 5 and the feeding position of the second lathe component 6, the second material-waiting platform 43 moves along with the second six-axis joint robot 42, the second six-axis joint robot 42 sucks and moves the workpiece 500 on the second material-waiting platform 43 to the feeding position of the first lathe 51 of the first lathe component 5 and the feeding position of the second lathe 61 of the second lathe component 6,

after the first lathe 51 of the first lathe assembly 5 finishes finish turning the outer circle, the outer groove 200 and the inner groove 300 of the workpiece 500, the second six-axis joint robot 42 sucks and moves the workpiece 500 onto the second material waiting platform 43, then the second six-axis joint robot 42 moves the workpiece 500 on the second material-waiting platform 43 to the loading position of the second lathe 61 of the second lathe assembly 6 again by suction, after the second lathe 61 of the second lathe assembly 6 finishes finish-turning the inner hole groove 400 of the workpiece 500, the second six-axis joint robot 42 sucks the workpiece 500 in the second lathe 61 of the second lathe assembly 6 by adsorption and moves the workpiece onto the second workpiece platform 43, the second six-axis joint robot 42 moves to a position close to the blanking warehouse 10 along with the second slide rail 41, the second six-axis joint robot 42 moves the workpiece 500 on the second material-waiting platform 43 into the lower magazine 10.

Has the advantages that: the first automatic handling device and the second automatic handling device are controlled to operate through the controller in the whole process, so that the first automatic handling device and the second automatic handling device are automatically handled to the machining process equipment, the workpiece is not required to be manually handled to complete machining in a manner of being matched with the machining process equipment, the production efficiency is improved, the labor cost is reduced, and the automation degree is high.

The invention is not limited solely to that described in the specification and embodiments, and additional advantages and modifications will readily occur to those skilled in the art, so that the invention is not limited to the specific details, representative apparatus, and examples shown and described herein, without departing from the spirit and scope of the general concept as defined by the appended claims and their equivalents.

Claims (10)

1. The automatic machining equipment for the cylinder barrel of the hydraulic cylinder is characterized by comprising a first automatic conveying device (1), a first scraping roller (2), a second scraping roller (3), a second automatic conveying device (4), a first lathe component (5) and a second lathe component (6); the first automatic handling device (1) is arranged between the first scraping roller (2) and the second scraping roller (3), the second automatic handling device (4) is arranged between the first lathe component (5) and the second lathe component (6),

first automatic handling device (1) is used for removing work piece (500) of treating processing to first scrape in roller (2), the second scrapes roller (3), first scrape roller (2) and second scrape roller (3) and all be used for scraping roller section hole (100), second automatic handling device (4) are used for scraping roller (2), the second and scrape workpiece (500) after roller (3) processing and remove to first lathe subassembly (5), second lathe subassembly (6), first lathe subassembly (5) are used for the excircle of finish turning work piece (500), outer slot (200) and interior slot (300), second lathe subassembly (6) are used for the hole slot (400) of finish turning work piece (500).

2. The automatic processing equipment for the cylinder barrel of the hydraulic oil cylinder as recited in claim 1, characterized in that, the automatic processing equipment for the cylinder barrel of the hydraulic oil cylinder further comprises a control cabinet (9), a controller is housed in the control cabinet (9), and the controller is electrically connected with the first automatic handling device (1) and the second automatic handling device (4).

3. The automatic cylinder barrel machining device of the hydraulic cylinder as recited in claim 2, characterized in that the first automatic handling device (1) comprises a first slide rail (11) installed between the first scraping roller (2) and the second scraping roller (3), a first six-axis joint robot (12) installed on the first slide rail (11) in a sliding manner, and a first waiting platform (13) installed on the first slide rail (11) in a sliding manner and connected with the first six-axis joint robot (12), wherein the first six-axis joint robot (12) is electrically connected with the controller and can move on the first slide rail (11).

4. The automatic cylinder barrel machining device of the hydraulic cylinder as recited in claim 2, characterized in that the second automatic handling device (4) comprises a second slide rail (41) installed between the first lathe component (5) and the second lathe component (6), a second six-axis joint robot (42) slidably installed on the second slide rail (41), and a second material waiting platform (43) slidably installed on the second slide rail (41) and connected with the second six-axis joint robot (42), wherein the second six-axis joint robot (42) is electrically connected with the controller and can move on the second slide rail (41).

5. The automatic cylinder barrel machining device for the hydraulic cylinder as recited in claim 4, characterized in that the automatic cylinder barrel machining device for the hydraulic cylinder further comprises a sampling platform (101), and the sampling platform (101) is arranged at one end of the second slide rail (41).

6. The automatic cylinder machining device of a hydraulic cylinder according to claim 1, characterized in that said first lathe assembly (5) comprises a first lathe (51) and a first chip remover (52) connected to said first lathe (51).

7. An automatic cylinder machining device for hydraulic rams as in claim 1, characterised in that said second lathe assembly (6) comprises a second lathe (61) and a second chip remover (62) connected to said second lathe (61).

8. The automatic processing equipment for the cylinder barrel of the hydraulic oil cylinder as recited in claim 1, characterized in that the automatic processing equipment for the cylinder barrel of the hydraulic oil cylinder further comprises a material warehouse (8), and the material warehouse (8) is arranged between the first scraping roller (2) and the second scraping roller (3) and is adjacent to the first automatic handling device (1).

9. The automatic processing equipment for the cylinder barrel of the hydraulic oil cylinder as recited in claim 1, characterized in that, the automatic processing equipment for the cylinder barrel of the hydraulic oil cylinder further comprises a feeding warehouse (7), the feeding warehouse (7) is arranged between the first automatic handling device (1) and the second automatic handling device (4).

10. The automatic processing equipment for the cylinder barrel of the hydraulic oil cylinder as recited in claim 9, characterized in that, the automatic processing equipment for the cylinder barrel of the hydraulic oil cylinder further comprises a blanking warehouse (10), and the blanking warehouse (10) is arranged adjacent to the feeding warehouse (7).

Images