CN219581646U - Double-station vertical sponge titanium lump removing equipment - Google Patents

Abstract

The utility model discloses double-station vertical titanium sponge lump removing equipment which comprises a fixed frame, a movable frame, an ejection unit, an ejection position positioning unit and a transportation unit, wherein the movable frame is arranged on the fixed frame, the ejection unit is fixed on the movable frame and the fixed frame, the ejection positioning unit is fixed on the fixed frame, and the transportation rail is fixed on the fixed frame; the transportation unit comprises a first transportation unit and a second transportation unit, the first transportation unit and the second transportation unit are respectively arranged on two sides of the fixed frame, and the first transportation unit and the second transportation unit can move along the transportation track. The utility model has the beneficial effects that the tank body conveying units are positioned at two sides of the ejection unit, so that the reaction tanks with different specifications can be conveyed, and the two reaction tanks with different specifications are operated on common ejection equipment, so that the titanium weight is ejected, and the effects of high yield and low investment are achieved.

Description

Double-station vertical sponge titanium lump removing equipment

Technical Field

The utility model relates to the technical field of sponge titanium lump removal equipment, in particular to double-station vertical sponge titanium lump removal equipment.

Background

The titanium sponge lump is usually placed in a special reactor, and the titanium lump needs to be removed after the reaction is completed. At present, two modes of manual release and equipment release are commonly used, and the manual release has the defects of high labor intensity, high danger, low efficiency and the like. The equipment is usually a single-station horizontal type stripping machine and a single-station vertical type stripping machine, one titanium lump stripping device can only operate one specification of titanium lump, and a workshop is usually provided with several specifications of titanium lump.

Disclosure of Invention

The utility model aims to solve the problem that a single-station horizontal type stripping machine and a single-station vertical type stripping machine can only operate aiming at a single-specification titanium lump, and designs double-station vertical type titanium sponge lump stripping equipment. Including fixed frame, mobile frame, ejecting unit, ejecting position positioning unit, transportation unit and transportation track, fixed frame is provided with the mobile frame, mobile frame with be fixed with ejecting unit in the fixed frame, be fixed with ejecting position positioning unit in the fixed frame, be fixed with transportation track in the fixed frame, transportation unit includes first transportation unit and second transportation unit, fixed frame both sides are equipped with first transportation unit and second transportation unit respectively, first transportation unit with the second transportation unit all can be followed transportation track removes.

Further, the fixed frame comprises a fixed upper beam, a fixed lower beam, a fixed connection upright post and a tank body positioning plate, wherein the fixed connection upright post is fixedly connected between the fixed upper beam and the fixed lower beam, the tank body positioning plate is fixed at the lower part of the fixed upper beam, and the fixed lower beam is connected with the transportation rail;

the fixed connection upright post is of a prestress assembly columnar structure.

Further, the movable rack comprises a movable upper beam, a movable lower beam and a movable connecting upright post, wherein the movable upper beam and the movable lower beam are respectively arranged on two sides of the fixed lower beam, the movable connecting upright post is fixed between the movable upper beam and the movable lower beam, and the movable connecting upright post penetrates through the fixed lower beam and can move on the fixed lower beam;

the movable connecting upright post is of a prestress assembly columnar structure.

Further, the ejection unit comprises an ejection hydraulic cylinder piston rod, an ejection hydraulic cylinder body and an ejection rod, wherein the ejection hydraulic cylinder body is fixed on the fixed lower beam, the ejection hydraulic cylinder piston rod is fixed on the movable upper beam, one end of the ejection rod is fixed on the movable lower beam, and the ejection rod penetrates through the fixed lower beam and can move on the fixed lower beam.

Further, the ejection position positioning unit comprises four ejection position locking hydraulic cylinders arranged on the periphery of the ejection rod, the ejection position locking hydraulic cylinders are used for fixing the positions of the first tank body and the second tank body, and the cylinder body ends of the ejection position locking hydraulic cylinders are fixed on the fixed lower beam.

Further, first transportation unit includes first anti-tipping support, first centering support and first transportation body, first transportation body can be followed transportation track removes, first transportation body is fixed with first anti-tipping support, first transportation body is fixed with first centering support, first centering support is fixed with in the inside of anti-tipping support, ejecting hole has been seted up to first centering support bottom, the ejector rod with ejecting hole looks adaptation, first centering support bottom still seted up with ejecting position locking pneumatic cylinder looks adaptation's locating hole.

Further, the second transportation unit includes second anti-tipping support, second centering support and second transportation body, the second transportation body can be followed transportation track removes, the second transportation body is fixed with the second anti-tipping support, the second transportation body is fixed with the second centering support, the inside second centering support that is fixed with of second anti-tipping support, ejecting hole has been seted up to second centering support bottom, the ejector rod with ejecting hole looks adaptation, second centering support bottom still seted up with ejecting position locking pneumatic cylinder looks adaptation's locating hole.

Further, a tank body positioning assembly is arranged on the first transportation unit and/or the second transportation unit.

The double-station vertical sponge titanium lump removal device manufactured by the technical scheme of the utility model has the beneficial effects that: the movable rack is arranged on the fixed rack, an ejection hydraulic cylinder is arranged between the movable rack and the fixed rack, the movable rack is driven to move on the fixed rack, so that an ejection structure is formed, an ejection rod is arranged on the movable rack, and the bottom of the titanium sponge lump is directly ejected. Meanwhile, the reaction tank is loaded into the fixed frame through the tank body conveying equipment, and the ejection position locking hydraulic cylinder is arranged in the fixed frame, so that the tank body is reliably positioned, and efficient ejection operation is ensured;

the tank body transporting units are positioned at two sides of the ejection unit and are used for transporting reaction tanks with different specifications, the two reaction tanks with different specifications are operated on common ejection equipment, so that the ejection of the titanium weight is realized, and the effects of high yield and low investment are achieved.

Drawings

FIG. 1 is a front view of a dual-station vertical titanium sponge lump removal apparatus according to the present utility model;

FIG. 2 is a perspective view showing the combined state of the fixed frame, the movable frame, the ejector unit and the ejector positioning unit according to the present utility model;

FIG. 3 is a front view showing the combined state of the fixed frame, the movable frame, the ejector unit and the ejector positioning unit according to the present utility model;

FIG. 4 is a side view showing the assembled state of the fixed frame, the movable frame, the ejector unit and the ejector positioning unit according to the present utility model;

FIG. 5 is a side view of a dual-station vertical titanium sponge lump removal apparatus of the present utility model;

FIG. 6 is a top view of the tank positioning assembly of the present utility model;

FIG. 7 is a side view of a tank positioning assembly according to the present utility model;

in the figure, 1, a fixed frame; 11. fixing an upper beam; 12. fixing the lower beam; 13. fixedly connecting the upright posts; 14. a tank locating plate; 2. a moving frame; 21. moving the upper beam; 22. moving the lower beam; 23. moving the connecting upright post; 3. an ejection unit; 31. ejecting a cylinder piston rod of the hydraulic cylinder; 32. ejecting the cylinder body of the hydraulic cylinder; 33. an ejector rod; 4. an ejection position positioning unit; 5. a transport unit; 51. a first transport unit; 511. a first anti-tipping bracket; 512. a first centering support; 513. a first transport body; 52. a second transport unit; 521. a second anti-tipping bracket; 522. a second centering bracket; 523. a second transport body; 6. a transport rail; 7. a first tank body; 8. a second tank body; 9. a tank positioning assembly; 91. a first limiting plate; 92. a second limiting plate; 93. a third limiting plate; 94. a fourth limiting plate; 95. a first guide rail; 96. a second guide rail; 97. a third guide rail; 98. a fourth guide rail; 99. a first slider; 910. a second slider; 911. a third slider; 912. a fourth slider;

Detailed Description

The utility model is specifically described below with reference to the accompanying drawings, and the double-station vertical titanium sponge lump removal device, as shown in fig. 1-5, comprises a fixed frame 1, a movable frame 2, an ejection unit 3, an ejection position positioning unit 4, a transport unit 5 and a transport rail 6.

The fixed frame 1 is provided with a movable frame 2, the movable frame 2 and the fixed frame 1 are fixedly provided with an ejection unit 3, the fixed frame 1 is fixedly provided with an ejection positioning unit, and the fixed frame 1 is fixedly provided with a transportation rail 6; the transporting unit 5 comprises a first transporting unit 51 and a second transporting unit 52, the first transporting unit 51 and the second transporting unit 52 are respectively arranged on two sides of the fixed frame 1, and the first transporting unit 51 and the second transporting unit 52 can move along the transporting track 6. The first transportation unit 51 and the second transportation unit 52 send two tank bodies 7 or two tank bodies 8 with titanium sponge lump along the fixed frame 1 to the ejection position in the fixed frame 1, and the titanium sponge lump on two sides can intermittently carry out ejection operation, so that the working efficiency is improved. The fixed frame 1 plays a fixed role, and the ejection unit 3 drives the movable frame 2 to move along the fixed frame 1, and simultaneously drives the ejection unit 3 to eject the titanium sponge lump from the tank body.

The fixed frame 1 comprises a fixed upper beam 11, a fixed lower beam 12, a fixed connection upright 13 and a tank body positioning plate 14, wherein the fixed upper beam 11 is fixedly connected with the fixed lower beam 12, the tank body positioning plate 14 is fixed at the bottom of the fixed upper beam 11, and the fixed lower beam 12 is fixedly connected with the transportation track 6. An ejection station is formed between the fixed upper beam 11 and the fixed lower beam 12, and a tank body positioning plate 14 is used for positioning the titanium sponge lump tank body reaching the ejection station.

The movable frame 2 comprises a movable upper beam 21, a movable lower beam 22 and movable connecting upright posts 23, wherein the movable upper beam 21 and the movable lower beam 22 are respectively arranged on two sides of the fixed lower beam 12, the movable connecting upright posts 23 are fixed between the movable upper beam 21 and the movable lower beam 22, and the movable connecting upright posts 23 penetrate through the fixed lower beam 12 and can move along the fixed lower beam 12. A guide sleeve is arranged between the movable connecting upright post 23 and the fixed lower beam 12, the movable connecting upright post 23 can move along the fixed lower beam 12, the guide sleeve plays a guiding role for the movement of the movable connecting upright post 23, and friction between the fixed lower beam 12 and the movable connecting upright post 23 is reduced.

The ejection unit 3 comprises an ejection hydraulic cylinder piston rod 31, an ejection hydraulic cylinder body 32 and an ejection rod 33, wherein the ejection hydraulic cylinder body 32 is fixed on the fixed lower beam 12, the ejection hydraulic cylinder piston rod 31 is fixed on the movable upper beam 21, one end of the ejection rod 33 is fixed on the movable lower beam 22, and the ejection rod 33 penetrates through the fixed lower beam 12 and can move along the fixed lower beam 12. When the ejection hydraulic cylinder is started, the movable upper beam 21 is driven to move upwards, when the movable upper beam 21 moves, the movable connecting upright post 23 drives the movable lower beam 22 to move upwards simultaneously, as the movable lower beam 22 is fixed with the ejection rod 33, the ejection rod 33 moves upwards along with the movable lower beam 22, the ejection rod 32 contacts with the bottom of the tank body, the bottom of the tank body is provided with a hole through which the ejection rod 33 can pass, meanwhile, the ejection rod 33 is preferably arranged at the central part of the fixed lower beam 12, meanwhile, the ejection rod 33 can eject along the central position of the bottom of the tank body, and all parts are stressed uniformly during ejection, so that the sponge titanium lump is more easily separated.

The first transportation unit 51 includes first anti-tipping bracket 511, first centering bracket 512 and first transportation body 513, first transportation body 513 can follow transportation track 6 removes, first transportation body 513 is fixed with first anti-tipping bracket 511, first transportation body 513 is fixed with first centering bracket 512, the inside first centering bracket 512 that is fixed with of first anti-tipping bracket 511, the ejecting hole has been seted up to first centering bracket 512 bottom, ejection rod 33 with ejecting hole looks adaptation, first centering bracket 512 bottom still seted up with ejecting position locking pneumatic cylinder looks adaptation's locating hole. The second transporting unit 52 includes a second anti-tipping bracket 521, a second centering bracket 522 and a second transporting body 523, the second transporting body 523 can move along the transporting rail 6, the second transporting body 523 is fixed with the second anti-tipping bracket 521, the second transporting body 523 is fixed with the second centering bracket 522, the second centering bracket 522 is fixed inside the second anti-tipping bracket 521, an ejection hole is formed in the bottom of the second centering bracket 522, the ejection rod 33 is matched with the ejection hole, and a positioning hole matched with the ejection position locking hydraulic cylinder is also formed in the bottom of the second centering bracket 522.

The first anti-tipping bracket 511 and the second anti-tipping bracket 521 are used for accommodating the tank body, the first centering bracket 512 and the second centering bracket 522 are used for fixing the tank body, the first conveying body 513 and the second conveying body 523 are used for conveying the first anti-tipping bracket 511 and the second anti-tipping bracket 521 to the ejection station, the first conveying body 513 and the second conveying body 523 can be selected as a movable trolley with rollers, and the first conveying unit 51 and the second conveying unit 52 are respectively positioned at two sides of the fixed frame 1, so that intermittent sequential feeding can be realized. After the first conveying unit 51 conveys the first can body 7 to the ejection position to realize ejection operation, in the process of working of the first conveying unit 51, the second conveying unit 52 can convey the second can body 8 to the vicinity of the ejection position to wait, after the titanium sponge lump conveyed by the first conveying unit 51 is ejected, the second conveying unit 52 can rapidly react to convey the second can body 8 to the ejection position, response is rapid, working efficiency is high, and meanwhile, the mounting heights of the first centering support 512 and the second centering support 522 in the first conveying unit 51 and the second conveying unit 52 can be set to be different, so that the equipment can realize ejection operation on can bodies with different height specifications.

The ejection positioning unit comprises four ejection position locking hydraulic cylinders arranged on the periphery of the ejection rod 33, the ejection position positioning hydraulic cylinders are used for fixing the position of the first tank body 7 or the second tank body 8, and the cylinder body ends of the ejection position positioning hydraulic cylinders are fixed on the fixed lower beam 12. After one of the can bodies is transferred to the ejection position, the expansion rod of the ejection position locking hydraulic cylinder extends out to be in contact with the first centering support 512 or the second centering support 522 and is extruded, so that the can bodies are positioned to avoid tilting when the can bodies are ejected.

Embodiment two:

unlike the first embodiment, the present embodiment is applicable to tanks with different diameter specifications, and as shown in fig. 6 and 7, the first transporting unit 51 and/or the second transporting unit 52 transports reaction tanks with different diameters. The first transporting unit 51 and/or the second transporting unit 52 further comprise a tank positioning assembly 9, the tank positioning assembly 9 comprises a first limiting plate 91, a second limiting plate 92, a third limiting plate 93, a fourth limiting plate 94, a first guide rail 95, a second guide rail 96, a third guide rail 97, a fourth guide rail 98, a first slide block 99, a second slide block 910, a third slide block 911 and a fourth slide block 912, a first guide rail 95, a second guide rail 96, a third guide rail 97 and a fourth guide rail 98 are arranged at the bottom of the first anti-tipping bracket 511 and/or the second anti-tipping bracket 521, the first guide rail 95 and the second guide rail 96 are parallel to each other, the third guide rail 97 and the fourth guide rail 98 are parallel to each other, the first guide rail 95 and the third guide rail 97 are perpendicular to each other, the first slide block 99 and the first guide rail 95 are slidably arranged, the second guide rail 910 and the third slide block 97 and the third guide rail 98 are slidably arranged, the fourth guide rail 911 and the fourth guide rail 98 are fixedly arranged, the first guide rail 95 and the fourth guide rail 93 are fixedly arranged. Be provided with first guide rail 95, second guide rail 96, third guide rail 97 and fourth guide rail 98, first limiting plate 91 sets up with second limiting plate 92 relatively and can follow first guide rail 95 and second guide rail 96 respectively and remove, third limiting plate 93 sets up with fourth limiting plate 94 relatively and can follow third guide rail 97 and fourth guide rail 98 respectively and remove, first limiting plate 91, second limiting plate 92, third limiting plate 93 and fourth limiting plate 94 can enclose the city rectangle, with jar body, fix a position the jar body at four directions, adjust the position on every limiting plate guide rail, can realize fixing a position the jar body of different diameters, accessible bolt fastening prevents that the slider from removing between every slider and the guide rail.

The sensor assembly is arranged in the fixed frame 1 to detect the action strokes of the ejection position locking hydraulic cylinder and the ejection hydraulic cylinder, so that the positioning precision can be greatly improved, and the ejection efficiency is improved.

The above technical solution only represents the preferred technical solution of the present utility model, and some changes that may be made by those skilled in the art to some parts of the technical solution represent the principles of the present utility model, and the technical solution falls within the scope of the present utility model.

Claims (8)

1. The utility model provides a vertical titanium sponge of duplex position sticks together and deviate from equipment, its characterized in that includes fixed frame (1), removes frame (2), ejecting unit (3), ejecting position positioning unit (4), transportation unit (5) and transportation track (6), fixed frame (1) are provided with and remove frame (2), remove frame (2) with be fixed with ejecting unit (3) on fixed frame (1), be fixed with ejecting position positioning unit (4) on fixed frame (1), be fixed with transportation track (6) on fixed frame (1), transportation unit (5) include first transportation unit (51) and second transportation unit (52), fixed frame (1) both sides are equipped with first transportation unit (51) and second transportation unit (52) respectively, first transportation unit (51) with second transportation unit (52) all can follow transportation track (6).

2. The double-station vertical titanium sponge lump removal device according to claim 1, wherein the fixed frame (1) comprises a fixed upper beam (11), a fixed lower beam (12), a fixed connection upright post (13) and a tank positioning plate (14), the fixed upper beam (11) and the fixed lower beam (12) are fixedly connected with the fixed connection upright post (13), the tank positioning plate (14) is fixed at the lower part of the fixed upper beam (11), and the fixed lower beam (12) is connected with the transportation track (6);

the fixed connection upright post (13) is of a prestress assembly columnar structure.

3. The double-station vertical titanium sponge lump removal device according to claim 2, wherein the mobile frame (2) comprises a mobile upper beam (21), a mobile lower beam (22) and a mobile connecting upright (23), the mobile upper beam (21) and the mobile lower beam (22) are respectively arranged on two sides of the fixed lower beam (12), the mobile connecting upright (23) is fixed between the mobile upper beam (21) and the mobile lower beam (22), and the mobile connecting upright (23) passes through the fixed lower beam (12) and can move on the fixed lower beam (12);

the movable connecting upright post (23) is of a prestress assembly columnar structure.

4. The double-station vertical titanium sponge lump removal apparatus as claimed in claim 3, wherein the ejection unit (3) comprises an ejection cylinder piston rod (31), an ejection cylinder body (32) and an ejection rod (33), the ejection cylinder body (32) is fixed on the fixed lower beam (12), the ejection cylinder piston rod (31) is fixed on the movable upper beam (21), one end of the ejection rod (33) is fixed on the movable lower beam (22), and the ejection rod (33) passes through the fixed lower beam (12) and is movable on the fixed lower beam (12).

5. The double-station vertical titanium sponge lump removal apparatus as claimed in claim 4, wherein the ejection-position positioning unit (4) comprises four ejection-position locking hydraulic cylinders arranged on the peripheral side of the ejection rod (33), the ejection-position locking hydraulic cylinders are used for fixing the positions of a first tank body (7) and a second tank body (8), and the cylinder body ends of the ejection-position locking hydraulic cylinders are fixed on the fixed lower beam (12).

6. The double-station vertical titanium sponge lump removal device according to claim 5, wherein the first transport unit (51) comprises a first anti-tipping support (511), a first centering support (512) and a first transport body (513), the first transport body (513) can move along the transport track (6), the first transport body (513) is fixed with the first anti-tipping support (511), the first transport body (513) is fixed with the first centering support (512), the first centering support (512) is fixed inside the first anti-tipping support (511), an ejection hole is formed in the bottom of the first centering support (512), and the ejection rod (33) is matched with the ejection hole, and a positioning hole matched with the ejection position locking hydraulic cylinder is formed in the bottom of the first centering support (512).

7. The double-station vertical sponge titanium lump removal apparatus as claimed in claim 6, wherein the second transportation unit (52) comprises a second anti-tipping bracket (521), a second centering bracket (522) and a second transportation body (523), the second transportation body (523) can move along the transportation track (6), the second transportation body (523) is fixed with the second anti-tipping bracket (521), the second transportation body (523) is fixed with the second centering bracket (522), the second anti-tipping bracket (521) is internally fixed with the second centering bracket (522), an ejection hole is formed in the bottom of the second centering bracket (522), the ejection rod (33) is matched with the ejection hole, and a positioning hole matched with the ejection position locking hydraulic cylinder is formed in the bottom of the second centering bracket (522).

8. The double-station vertical titanium sponge lump extraction apparatus as claimed in claim 7 wherein a tank positioning assembly is provided on the first transport unit (51) and/or the second transport unit (52).