CN218657735U - Automatic production line for hydraulic oil pipe joint - Google Patents

Abstract

The utility model discloses a hydraulic oil pipe joint automatic production line, which belongs to the technical field of hydraulic oil pipe joint production and comprises an automatic feeding conveying line, a first machine tool, a second machine tool, an automatic discharging conveying line and a lifting grabbing mechanism, wherein the automatic feeding conveying line is used for automatic feeding, the lifting grabbing mechanism grabs and moves parts on the automatic feeding conveying line to a chuck clamping position of the first machine tool, a chuck realizes clamping, after a first procedure is completed, the lifting grabbing mechanism puts processed semi-finished products into a feeding disc, the lifting grabbing mechanism grabs the semi-finished products, the turning is carried out, the clamping is carried out to the second machine tool, and the chuck realizes clamping; after the machining is finished, the parts are automatically placed into the material tray, and then the parts are discharged through the automatic discharging conveying line.

Description

Automatic production line for hydraulic oil pipe joints

Technical Field

The utility model belongs to the technical field of hydraulic pressure oil pipe joint production, concretely relates to hydraulic pressure oil pipe joint automation line.

Background

The hydraulic oil pipe joint is used for connecting hydraulic oil and power equipment in the construction of a hydraulic system, and the hydraulic oil pipe joint plays a normal function role and plays a key role in the effective operation of the whole system through the effective connection effect of the hydraulic oil pipe joint. The production and processing of the traditional hydraulic oil pipe joint usually adopt manual feeding and manual transfer, if the front and back surfaces of the hydraulic oil pipe joint need to be manually operated by special equipment personnel, and because the raw materials and related auxiliary materials greatly rise, the cost is greatly improved.

Therefore, the automatic production line for the hydraulic oil pipe joints is provided for solving the problems by automatically feeding and discharging materials, automatically transferring and overturning the hydraulic oil pipe joints, greatly reducing labor cost and improving production efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hydraulic oil pipe connects automation line to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a hydraulic oil pipe joint automation line, includes:

the automatic feeding conveying line is used for automatically conveying and feeding the hydraulic oil pipe joint;

the first machine tool is provided with a first chuck, a first material tray for temporarily storing a hydraulic oil pipe joint is arranged on the front side of the first machine tool, and the first machine tool is used for machining the front side of the hydraulic oil pipe joint;

the second machine tool is provided with a second chuck, a second tray for temporarily storing the hydraulic oil pipe joint is arranged on the front side of the second machine tool, and the second machine tool is used for machining the reverse side of the hydraulic oil pipe joint;

the automatic discharging conveying line is used for automatic conveying and discharging of the hydraulic oil pipe joint, and the first machine tool and the second machine tool are located between the automatic feeding conveying line and the automatic discharging conveying line;

promote and snatch the mechanism, promote and snatch the front side that the mechanism located automatic feeding transfer chain and automatic ejection of compact transfer chain, promote and snatch the mechanism and include horizontal translation subassembly and locate first pay-off subassembly, upset pay-off subassembly and the second pay-off subassembly on the horizontal translation subassembly, first pay-off subassembly is used for pressing from both sides the product pay-off of getting on the automatic feeding transfer chain to first (holding) plate, and upset pay-off subassembly is used for pressing from both sides the product of getting on the first (holding) plate and pay-off to the second lathe after with the product upset on, and second pay-off subassembly is used for pressing from both sides the product pay-off of getting on the second (holding) plate to automatic out on the transfer chain.

Horizontal translation subassembly includes U type support frame, the fixed horizontal U-shaped groove that is connected with horizontal lead screw of locating U type support frame top and transmission, three groups that are connected through screw-nut and horizontal lead screw transmission remove the seat and fix locate on horizontal U-shaped groove and the servo gear motor who is connected with the input transmission of horizontal lead screw, first pay-off subassembly, upset pay-off subassembly and second pay-off subassembly are located respectively on three groups remove the seat, and three groups remove the equidistant setting of seat.

The first feeding assembly and the second feeding assembly respectively comprise a vertical block fixedly arranged on the moving seat, a horizontal pushing cylinder fixedly arranged on the front side face of the vertical block, an installation block fixedly connected with the end part of a piston rod of the horizontal pushing cylinder, a lifting cylinder fixedly arranged at the bottom of the installation block, an installation panel fixedly arranged at the end part of the piston rod of the lifting cylinder, and an electric chuck fixedly arranged at the bottom of the installation panel and used for clamping and fixing a hydraulic oil pipe joint.

The vertical blocks on the first feeding component and the second feeding component are respectively and fixedly arranged at the tops of the two movable seats at the left side and the right side.

The overturning feeding assembly comprises a second vertical block fixedly arranged on the moving seat, a second horizontal pushing cylinder fixedly arranged on the front side surface of the second vertical block, a second mounting block fixedly connected with the end part of a piston rod of the second horizontal pushing cylinder, a second lifting cylinder fixedly arranged at the bottom of the second mounting block, a second mounting panel fixedly arranged at the end part of the piston rod of the second lifting cylinder, two mounting vertical plates symmetrically and fixedly arranged at the bottom of the second mounting panel in the front-back direction, a second electric chuck rotatably arranged between the two mounting vertical plates through a rotating shaft and a rotary motor fixedly arranged on one of the mounting vertical plates and in transmission connection with the input end of the rotating shaft.

The utility model discloses a technological effect and advantage: the automatic production line for the hydraulic oil pipe joints comprises an automatic feeding conveying line, a first machine tool, a second machine tool, an automatic discharging conveying line and a lifting and grabbing mechanism, wherein the automatic feeding conveying line is used for automatic feeding, the lifting and grabbing mechanism grabs and moves parts on the automatic feeding conveying line to a chuck clamping position of the first machine tool, the chuck realizes clamping, when a first procedure is completed, the lifting and grabbing mechanism puts processed semi-finished products into a material tray, the lifting and grabbing mechanism grabs the semi-finished products, overturns the semi-finished products, clamps the semi-finished products to the second machine tool, and clamps the semi-finished products; after the machining is finished, the parts are automatically placed into the material disc, and then the parts are discharged through the automatic discharging conveying line.

The servo speed reduction motor drives the transverse screw rod to rotate, the three groups of moving seats are driven to horizontally move left and right, the three groups of moving seats are respectively connected with the first feeding assembly, the overturning feeding assembly and the second feeding assembly, transfer of a hydraulic oil pipe joint is achieved, the horizontal pushing cylinder pushes the mounting block to move back and forth, the lifting cylinder drives the mounting panel to move up and down, the electric chuck is used for clamping and fixing the hydraulic oil pipe joint, therefore, the electric chuck can be driven to clamp and feed a product on the automatic feeding conveying line onto the first chuck, a processed semi-finished product is manufactured on the first chuck, the product clamped on the second chuck is fed onto the automatic discharging conveying line, the second horizontal pushing cylinder pushes the second mounting block to move back and forth, the second lifting cylinder pushes the second mounting panel to move up and down, the second electric chuck clamps the semi-finished product, overturning is performed under the action of the rotary motor, the clamped hydraulic oil pipe joint is overturned to the reverse side, and is conveyed to the second machine tool for processing.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the lifting and grabbing mechanism of fig. 1 according to the present invention after being disassembled;

fig. 3 is a schematic structural view of the lifting and grabbing mechanism of the present invention;

fig. 4 is an enlarged view of a point a in fig. 3 according to the present invention.

In the figure: 1. an automated feed conveyor line; 2. a first machine tool; 201. a first chuck; 202. a first tray; 3. a second machine tool; 301. a second chuck; 302. a second tray; 4. an automatic discharging conveying line; 5. lifting the grabbing mechanism; 501. a U-shaped support frame; 502. a transverse screw rod; 503. a transverse U-shaped slot; 504. a movable seat; 505. a servo deceleration motor; 506. erecting a block; 507. a horizontal pushing cylinder; 508. mounting blocks; 509. a lifting cylinder; 510. installing a panel; 511. an electric chuck; 512. a second vertical block; 513. a second thrust cylinder; 514. a second mounting block; 515. a second lifting cylinder; 516. a second mounting panel; 517. installing a vertical plate; 518. a rotating shaft; 519. a second electrically powered chuck; 520. a rotary electric machine.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

The utility model provides a hydraulic oil pipe joint automation line as shown in figures 1-4, including automatic feed transfer chain 1, first lathe 2, second lathe 3, automatic discharge transfer chain 4 and promotion snatching mechanism 5, automatic feed transfer chain 1 is used for automatic feeding, promote snatching mechanism 5 snatch the part on the automatic feed transfer chain 1 and move to the chuck clamping position of first lathe 2, the chuck realizes the clamping, after the first preface is accomplished, promote snatching mechanism 5 and put the semi-manufactured goods that will process into the charging tray, promote snatching mechanism 5 and snatch the semi-manufactured goods, overturn, the clamping is to second lathe 3, the chuck realizes the clamping; after the machining is finished, the parts are automatically placed into the material tray, and then the parts are discharged through the automatic discharging conveying line 4.

The automatic feeding conveying line 1 is used for automatic conveying and feeding of hydraulic oil pipe joints; a first chuck 201 is arranged on the first machine tool 2, a first tray 202 for temporarily storing a hydraulic oil pipe joint is arranged on the front side of the first machine tool 2, and the first machine tool 2 is used for machining the front side of the hydraulic oil pipe joint; a second chuck 301 is arranged on the second machine tool 3, a second tray 302 for temporarily storing a hydraulic oil pipe joint is arranged on the front side of the second machine tool 3, and the second machine tool 3 is used for machining the reverse side of the hydraulic oil pipe joint; the automatic discharging conveying line 4 is used for automatic conveying and discharging of a hydraulic oil pipe joint, and the first machine tool 2 and the second machine tool 3 are located between the automatic feeding conveying line 1 and the automatic discharging conveying line 4;

promote and snatch mechanism 5 and locate the front side of automatic feeding transfer chain 1 and automatic ejection of compact transfer chain 4, promote and snatch mechanism 5 and include horizontal translation subassembly and locate first pay-off subassembly, upset pay-off subassembly and the second pay-off subassembly on the horizontal translation subassembly, first pay-off subassembly is used for pressing from both sides the product pay-off of getting on the automatic feeding transfer chain 1 to first (holding) dish 201, and upset pay-off subassembly is used for pressing from both sides the product of getting on the first (holding) dish 201 and with product upset back pay-off to second lathe 3 on, and the second pay-off subassembly is used for pressing from both sides the product pay-off of getting on the second (holding) dish 301 to automatic ejection of compact transfer chain 4.

The horizontal translation assembly comprises a U-shaped support frame 501, a horizontal U-shaped groove 503 which is fixedly arranged at the top of the U-shaped support frame 501 and is in transmission connection with a horizontal screw rod 502, three groups of moving seats 504 which are in transmission connection with the horizontal screw rod 502 through screw nuts, and a servo speed reduction motor 505 which is fixedly arranged on the horizontal U-shaped groove 503 and is in transmission connection with the input end of the horizontal screw rod 502, wherein a first feeding assembly, a turnover feeding assembly and a second feeding assembly are respectively arranged on the three groups of moving seats 504, and the three groups of moving seats 504 are arranged at equal intervals.

The servo speed reducing motor 505 drives the transverse screw rod 502 to rotate, and drives the three groups of moving seats 504 to translate left and right, and the three groups of moving seats 504 are respectively connected with the first feeding assembly, the overturning feeding assembly and the second feeding assembly to realize the transfer of the hydraulic oil pipe joint;

the first feeding assembly and the second feeding assembly respectively comprise an upright block 506 fixedly arranged on the movable base 504, a horizontal pushing cylinder 507 fixedly arranged on the front side surface of the upright block 506, an installation block 508 fixedly connected with the end part of a piston rod of the horizontal pushing cylinder 507, a lifting cylinder 509 fixedly arranged at the bottom of the installation block 508, an installation panel 510 fixedly arranged at the end part of the piston rod of the lifting cylinder 509, and an electric chuck 511 fixedly arranged at the bottom of the installation panel 510 and used for clamping and fixing a hydraulic oil pipe joint.

The overturning feeding assembly comprises a second vertical block 512 fixedly arranged on the moving base 504, a second horizontal pushing cylinder 513 fixedly arranged on the front side surface of the second vertical block 512, a second mounting block 514 fixedly connected with the end part of a piston rod of the second horizontal pushing cylinder 513, a second lifting cylinder 515 fixedly arranged at the bottom of the second mounting block 514, a second mounting panel 516 fixedly arranged at the end part of the piston rod of the second lifting cylinder 515, two mounting vertical plates 517 symmetrically and fixedly arranged at the bottom of the second mounting panel 516 in a front-back mode, a second electric chuck 519 rotatably arranged between the two mounting vertical plates 517 through a rotating shaft 518, and a rotary motor 520 fixedly arranged on one of the mounting vertical plates 517 and in transmission connection with the input end of the rotating shaft 518.

The vertical blocks 506 on the first feeding assembly and the second feeding assembly are respectively and fixedly arranged at the tops of the two movable seats 504 positioned at the left side and the right side, and the overturning feeding assembly is positioned at the top of the movable seat 504 positioned in the middle.

The horizontal pushing cylinder 507 pushes the mounting block 508 to move back and forth, the lifting cylinder 509 drives the mounting panel 510 to move up and down, the electric chuck 511 is used for clamping and fixing a hydraulic oil pipe connector, therefore, the electric chuck 511 can be driven to clamp and feed a product on the automatic feeding conveying line 1 onto the first chuck 201, a processed semi-finished product is prepared on the first chuck 201, the product on the second chuck 301 is clamped and fed onto the automatic discharging conveying line 4, the second horizontal pushing cylinder 513 pushes the second mounting block 514 to move back and forth, the second lifting cylinder 515 pushes the second mounting panel 516 to move up and down, the second electric chuck 519 clamps the semi-finished product, the semi-finished product is turned over under the action of the rotary motor 520, the clamped hydraulic oil pipe connector is turned over to the reverse side, and the hydraulic oil pipe connector is conveyed to the second machine tool 3 for reverse side processing.

The automatic production line for the hydraulic oil pipe joints comprises an automatic feeding conveying line 1, a first machine tool 2, a second machine tool 3, an automatic discharging conveying line 4 and a lifting and grabbing mechanism 5, wherein the automatic feeding conveying line 1 is used for automatic feeding, the lifting and grabbing mechanism 5 grabs and moves parts on the automatic feeding conveying line 1 to a chuck clamping position of the first machine tool 2, the chuck realizes clamping, after a first procedure is completed, the lifting and grabbing mechanism 5 puts processed semi-finished products into a material tray, the lifting and grabbing mechanism 5 grabs the semi-finished products, overturns the semi-finished products, clamps the semi-finished products to the second machine tool 3, and the chuck realizes clamping; after the machining is finished, the parts are automatically placed into the material disc, and then the parts are discharged through the automatic discharging conveying line 4.

The servo speed reducing motor 505 drives the transverse screw rod 502 to rotate, the three sets of moving seats 504 are driven to move left and right in a horizontal translation mode, the three sets of moving seats 504 are respectively connected with a first feeding assembly, an overturning feeding assembly and a second feeding assembly, transfer of hydraulic oil pipe joints is achieved, the horizontal pushing cylinder 507 pushes the mounting block 508 to move back and forth, the lifting cylinder 509 drives the mounting panel 510 to move up and down, the electric chuck 511 is used for clamping and fixing the hydraulic oil pipe joints, therefore, the electric chuck 511 can be driven to clamp and feed products on the automatic feeding conveying line 1 onto the first chuck 201, processed semi-finished products are manufactured on the first chuck 201, the products clamped on the second chuck 301 are fed onto the automatic discharging conveying line 4, the second horizontal pushing cylinder 513 pushes the second mounting block 514 to move back and forth, the second lifting cylinder 515 pushes the second mounting panel 516 to move up and down, the semi-finished products are clamped by the second electric chuck 519, overturning is performed under the action of the rotary motor 520, the clamped hydraulic oil pipe joints are overturned to the reverse side, and the reverse side of the hydraulic oil pipe joints are conveyed into the second machine tool 3 to be processed on the reverse side.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (5)

1. The utility model provides a hydraulic oil pipe joint automation line which characterized in that includes:

the automatic feeding conveying line (1), wherein the automatic feeding conveying line (1) is used for automatically conveying and feeding the hydraulic oil pipe joint;

the hydraulic oil pipe joint machining device comprises a first machine tool (2), wherein a first chuck (201) is arranged on the first machine tool (2), a first material tray (202) for temporarily storing a hydraulic oil pipe joint is arranged on the front side of the first machine tool (2), and the first machine tool (2) is used for machining the front side of the hydraulic oil pipe joint;

the second machine tool (3), a second chuck (301) is arranged on the second machine tool (3), a second material tray (302) for temporarily storing the hydraulic oil pipe joint is arranged on the front side of the second machine tool (3), and the second machine tool (3) is used for machining the reverse side of the hydraulic oil pipe joint;

the automatic discharging conveying line (4) is used for automatic conveying and discharging of a hydraulic oil pipe joint, and the first machine tool (2) and the second machine tool (3) are located between the automatic feeding conveying line (1) and the automatic discharging conveying line (4);

promote and snatch mechanism (5), promote and snatch mechanism (5) and locate the front side of automatic feeding transfer chain (1) and automatic material transfer chain (4), promote and snatch mechanism (5) and include the horizontal translation subassembly and locate first pay-off subassembly, upset pay-off subassembly and second pay-off subassembly on the horizontal translation subassembly, first pay-off subassembly is used for pressing from both sides the product pay-off of getting on automatic feeding transfer chain (1) to first (201), and the upset pay-off subassembly is used for pressing from both sides the product of getting on first (201) and with the product upset back pay-off to second lathe (3), and second pay-off subassembly is used for pressing from both sides the product pay-off of getting on second (301) to automatic material transfer chain (4) of going out.

2. The automatic production line of hydraulic oil pipe joints according to claim 1, characterized in that: horizontal translation subassembly includes U type support frame (501), fixed locate U type support frame (501) top and the transmission is connected with horizontal U-shaped groove (503) of horizontal lead screw (502), three groups of removal seat (504) and fixed servo gear motor (505) of locating on horizontal U-shaped groove (503) and being connected with the input transmission of horizontal lead screw (502) through screw-nut and horizontal lead screw (502) transmission connection, first pay-off subassembly, upset pay-off subassembly and second pay-off subassembly are located respectively on three groups of removal seat (504), and three groups of removal seat (504) equidistance setting.

3. The automatic production line of hydraulic oil pipe joints according to claim 2, characterized in that: the first feeding assembly and the second feeding assembly respectively comprise an upright block (506) fixedly arranged on the movable base (504), a horizontal pushing cylinder (507) fixedly arranged on the front side surface of the upright block (506), an installation block (508) fixedly connected with the end part of a piston rod of the horizontal pushing cylinder (507), a lifting cylinder (509) fixedly arranged at the bottom of the installation block (508), an installation panel (510) fixedly arranged at the end part of the piston rod of the lifting cylinder (509), and an electric chuck (511) fixedly arranged at the bottom of the installation panel (510) and used for clamping and fixing a hydraulic oil pipe joint.

4. The automatic production line of hydraulic oil pipe joints according to claim 3, characterized in that: the vertical blocks (506) on the first feeding assembly and the second feeding assembly are respectively and fixedly arranged at the tops of the two movable seats (504) on the left side and the right side.

5. The automatic production line of hydraulic oil pipe joints according to claim 2, characterized in that: the overturning feeding assembly comprises a second vertical block (512) fixedly arranged on the moving seat (504), a second horizontal pushing cylinder (513) fixedly arranged on the front side surface of the second vertical block (512), a second mounting block (514) fixedly connected with the end part of a piston rod of the second horizontal pushing cylinder (513), a second lifting cylinder (515) fixedly arranged at the bottom of the second mounting block (514), a second mounting panel (516) fixedly arranged at the end part of the piston rod of the second lifting cylinder (515), two mounting vertical plates (517) symmetrically and fixedly arranged at the bottom of the second mounting panel (516) from front to back, a second electric chuck (519) rotatably arranged between the two mounting vertical plates (517) through a rotating shaft (518), and a rotary motor (520) fixedly arranged on one of the mounting vertical plates (517) and in transmission connection with the input end of the rotating shaft (518).

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