CN214454928U - Aluminum carbon anode sample grabbing tool - Google Patents

Abstract

The utility model discloses a carbon anode sample grabbing tool for aluminum, which is arranged on a grabbing platform and comprises a base, a first hydraulic cylinder, a slide rail, a sliding sleeve connecting seat, a second hydraulic cylinder and a gripper assembly, wherein the base is arranged on the grabbing platform, the first hydraulic cylinder and the slide rail are both arranged on the base, the sliding sleeve is connected on the slide rail in a vertical sliding manner, and the sliding sleeve is fixed with the sliding sleeve connecting seat; one end of the sliding sleeve connecting seat is fixedly connected with the telescopic end of the first hydraulic cylinder and drives the sliding sleeve connecting seat to move up and down; the second hydraulic cylinder is arranged at the other end of the sliding sleeve connecting seat, and the gripper assembly is fixedly arranged at the end part of the telescopic end of the second hydraulic cylinder; the gripper assembly comprises two gripper plates and a movable plate, wherein the two gripper plates are oppositely arranged and are respectively and rotatably connected to two sides of the bottom of the second hydraulic cylinder, which correspond to the piston rod; the movable plates are two, one end of each movable plate is hinged with the end of the piston rod, and the other end of each movable plate is hinged with the corresponding grabbing plate in the opposite direction one by one.

Description

Aluminum carbon anode sample grabbing tool

Technical Field

The utility model relates to a snatch the frock, concretely relates to frock is squeezed with carbon anode sample to aluminium.

Background

The comparatively common mode of traditional carbon anode for aluminium sample has two kinds, one kind is hand-held type sampler, one kind is frame electric sampler, but no matter which kind of mode, all needs manual operation, and degree of automation is low, and the sample effect is relatively poor.

Therefore, how to provide a carbon anode sample grabbing tool for aluminum with high sampling efficiency is a problem that needs to be solved urgently by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a frock is snatched with carbon anode sample to aluminium reduces workman's intensity of labour, and it is effectual to take a sample.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a carbon anode sample grabbing tool for aluminum is installed on a horizontally arranged rotary grabbing platform and comprises a base, a first hydraulic cylinder, a sliding rail, a sliding sleeve connecting seat, a second hydraulic cylinder and a gripper assembly, wherein the base is installed on the grabbing platform; the first hydraulic cylinder and the slide rail are both vertically arranged on the base; the sliding sleeve is connected to the sliding rail in a sliding manner; the sliding sleeve is fixed with the sliding sleeve connecting seat; one end of the sliding sleeve connecting seat is fixedly connected with the telescopic end of the first hydraulic cylinder; the second hydraulic cylinder is fixed at the other end of the sliding sleeve connecting seat through a connecting beam, and the telescopic end of the second hydraulic cylinder is vertically arranged downwards;

the gripping components comprise two gripping plates and a movable plate, and the two gripping plates are arranged oppositely and are respectively and rotatably connected to two sides of the bottom of the second hydraulic cylinder, which correspond to the piston rod; the movable plates are two, one end of each movable plate is hinged to the end of the piston rod, and the other ends of the movable plates are hinged to the corresponding grabbing plates in the opposite direction one by one.

The utility model has the advantages that: the height position of the second hydraulic cylinder can be controlled through the first hydraulic cylinder, so that the gripper assembly at the telescopic end part of the second hydraulic cylinder is controlled, the gripping plate and the movable plate in the gripper assembly are matched to realize gripping and loosening of the gripping plate under the action of the telescopic end of the second hydraulic cylinder, samples are conveniently gripped, manual operation is not needed, the labor intensity of workers is reduced, and the gripping efficiency is improved.

Preferably, the first hydraulic cylinder and the second hydraulic cylinder are both connected with an electromagnetic valve, and the electromagnetic valve is controlled to be started by an electromagnetic valve controller.

Preferably, all be equipped with the lantern ring on the lateral wall in opposite directions of grabhook, the piston rod tip of second pneumatic cylinder is equipped with the connecting piece, be equipped with two lewis holes on the connecting piece, the both ends of fly leaf all are equipped with the through-hole and correspond respectively and pass through a round pin axle hang hole and lantern ring and piston rod tip and grabhook are articulated.

Preferably, the length of the movable plate along the extension direction of the piston rod is smaller than the length of the grabbing plate along the extension direction of the piston rod.

Preferably, the two relatively parallel sides of the sliding rail are provided with sliding grooves along the length direction thereof, the sliding sleeve is provided with sliding blocks corresponding to the sliding grooves, and the sliding blocks are correspondingly connected in the sliding grooves in a sliding manner.

Preferably, the cross section of the chute perpendicular to the length direction is V-shaped.

Preferably, the telescopic length of the first hydraulic cylinder is smaller than the length of the slide rail.

Preferably, the sliding sleeve is connected with the sliding sleeve connecting seat through a bolt.

Preferably, the sliding sleeve connecting seat is provided with a sliding hole, and the sliding sleeve and the guide rail are positioned in the sliding hole.

Drawings

FIG. 1 is a front view of a carbon anode sample grabbing tool for aluminum of the present invention;

FIG. 2 is a side view of the carbon anode sample grabbing tool for aluminum of the present invention;

FIG. 3 is a top view of the carbon anode sample grabbing tool for aluminum of the present invention;

FIG. 4 is a schematic view of a connecting piece of a carbon anode sample grabbing tool for aluminum of the present invention;

FIG. 5 is a schematic view of a movable plate of the carbon anode sample grabbing tool for aluminum of the present invention;

figure 6 is the utility model relates to a carbon anode sample for aluminium snatchs frock nipper schematic diagram.

The device comprises a base 1, a first hydraulic cylinder 2, a sliding rail 3, a sliding sleeve 4, a sliding sleeve connecting seat 5, a second hydraulic cylinder 6, a gripper assembly 7, a gripper plate 71, a movable plate 72, a connecting piece 8, a connecting beam 9, a sliding groove 10, a lantern ring 11, a hanging hole 12, a through hole 13 and a pin shaft 14.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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 work belong to the protection scope of the present invention.

Referring to fig. 1 to 6 of the present invention, according to an embodiment of the present invention, a carbon anode sample grabbing tool for aluminum is installed on a horizontally arranged rotary grabbing platform, and includes a base 1, a first hydraulic cylinder 2, a slide rail 3, a slide sleeve 4, a slide sleeve connecting seat 5, a second hydraulic cylinder 6 and a gripper assembly 7, wherein the base 1 is installed on the grabbing platform; the first hydraulic cylinder 2 and the slide rail 3 are both vertically arranged on the base 1; the sliding sleeve 4 is connected on the sliding rail 3 in a sliding way; the sliding sleeve 4 is fixed with the sliding sleeve connecting seat 5; one end of the sliding sleeve connecting seat 5 is fixedly connected with the telescopic end of the first hydraulic cylinder 2; the second hydraulic cylinder 6 is fixed at the other end of the sliding sleeve connecting seat 5 through a connecting beam 9, and the telescopic end of the second hydraulic cylinder 6 is vertically arranged downwards;

the gripping assembly 7 comprises two gripping plates 71 and two movable plates 72, wherein the two gripping plates 71 are oppositely arranged and are respectively and rotatably connected to two sides of the bottom of the second hydraulic cylinder 6, which correspond to the piston rod; the two movable plates 72 are hinged with the end of the piston rod at one end respectively, and hinged with the opposite sides of the corresponding grabbing plates 71 at the other end respectively.

In some embodiments, the first hydraulic cylinder 2 and the second hydraulic cylinder 6 are connected to a solenoid valve, and the actuation of the solenoid valve is controlled by a solenoid valve controller.

In other embodiments, the opposite side walls of the grasping plate 71 are both provided with a sleeve ring 11, the end part of the piston rod of the second hydraulic cylinder 6 is provided with a connecting piece 8, the connecting piece 8 is provided with two lifting holes 12, both ends of the movable plate 72 are provided with through holes 13 and are respectively hinged with the end part of the piston rod and the grasping plate 71 by penetrating through the lifting holes and the sleeve ring through a pin shaft 14, the two specific movable plates and the two grasping plates are in one-to-one corresponding rotating connection, and under the action of the telescopic end of the second hydraulic cylinder, the two grasping plates which are oppositely arranged are grasped and opened and closed, so that the function of grasping a sample is realized.

In other embodiments, the two opposite parallel sides of the sliding rail 3 are provided with sliding grooves 10 along the length direction thereof, the sliding sleeve is provided with sliding blocks corresponding to the sliding grooves, and the sliding blocks are correspondingly slidably connected in the sliding grooves 10.

In other embodiments, the chute 10 is V-shaped in cross-section along its vertical length.

In other embodiments, the telescopic length of the first hydraulic cylinder 2 is smaller than the length of the slide rail 3, so as to ensure that the slide sleeve slides on the slide rail.

Specifically, the sliding sleeve 4 is fixedly connected with the sliding sleeve connecting seat 5 through a bolt.

More specifically, the sliding sleeve connecting seat is provided with a sliding hole, and the sliding sleeve and the guide rail are positioned in the sliding hole.

The specific operation process comprises the following steps:

the utility model discloses during the sample, rotate and snatch the platform, be located the sample top of treating with the tongs subassembly, start first pneumatic cylinder, the flexible end of first pneumatic cylinder drives the sliding sleeve connecting seat and goes up and down along slide rail length direction, when the bottom contact charcoal positive pole of grabbing the board, reachs and grabs the position, is flexible by the flexible end of second pneumatic cylinder control, makes the board of grabbing reach the sampling rod border, starts the decline of first pneumatic cylinder once more, makes the sampling rod get into and grabs within the board. At this moment, the second hydraulic cylinder is tightened up, the grabbing plate which is driven by the movable plate shrinks to tightly grasp the sampling rod, the first hydraulic cylinder rises, the sample is grabbed successfully, and the platform is grabbed in a rotating mode to take samples.

For the device and the using method disclosed by the embodiment, the description is simple because the device and the using method correspond to the method disclosed by the embodiment, and the relevant points can be referred to the description of the method part.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A carbon anode sample grabbing tool for aluminum is installed on a rotating grabbing platform which is horizontally arranged, and is characterized by comprising a base (1), a first hydraulic cylinder (2), a sliding rail (3), a sliding sleeve (4), a sliding sleeve connecting seat (5), a second hydraulic cylinder (6) and a grabbing hand assembly (7), wherein the base (1) is installed on the grabbing platform; the first hydraulic cylinder (2) and the sliding rail (3) are both vertically arranged on the base (1); the sliding sleeve (4) is connected to the sliding rail (3) in a sliding manner; the sliding sleeve (4) is fixed with the sliding sleeve connecting seat (5); one end of the sliding sleeve connecting seat (5) is fixedly connected with the telescopic end of the first hydraulic cylinder (2); the second hydraulic cylinder (6) is fixed at the other end of the sliding sleeve connecting seat (5) through a connecting beam (9), and the telescopic end of the second hydraulic cylinder (6) is vertically arranged downwards;

the gripper assembly (7) comprises two gripper plates (71) and two movable plates (72), wherein the two gripper plates (71) are arranged oppositely and are respectively and rotatably connected to two sides of the bottom of the second hydraulic cylinder (6) corresponding to the piston rod; the two movable plates (72) are hinged to the end of the piston rod, and one end of each movable plate is hinged to the end of the piston rod, while the other ends of the movable plates are hinged to the opposite sides of the corresponding grabbing plates (71) one by one.

2. The aluminum carbon anode sample grabbing tool according to claim 1, wherein the first hydraulic cylinder (2) and the second hydraulic cylinder (6) are both connected with electromagnetic valves, and the electromagnetic valves are controlled to be started through an electromagnetic valve controller.

3. The aluminum carbon anode sample grabbing tool according to claim 1, wherein a sleeve ring (11) is arranged on a side wall of the grabbing plate (71), a connecting piece (8) is arranged at the end part of a piston rod of the second hydraulic cylinder (6), two lifting holes (12) are formed in the connecting piece (8), through holes (13) are formed in two ends of the movable plate (72), and the movable plate and the grabbing plate are hinged to the end part of the piston rod and the grabbing plate (71) through a pin shaft (14) penetrating through the lifting holes and the sleeve ring respectively.

4. The carbon anode sample grabbing tool for aluminum according to claim 3, wherein the length dimension of the movable plate (72) along the extension and contraction direction of the piston rod is smaller than the length dimension of the grabbing plate (71) along the extension and contraction direction of the piston rod.

5. The carbon anode sample grabbing tool for aluminum according to claim 1, wherein sliding grooves (10) are formed in two opposite parallel sides of the sliding rail (3) along the length direction of the sliding rail, sliding blocks are arranged on the sliding sleeves corresponding to the sliding grooves, and the sliding blocks are correspondingly connected in the sliding grooves (10) in a sliding mode.

6. The carbon anode sample grabbing tool for aluminum according to claim 5, wherein the cross section of the sliding chute (10) perpendicular to the length direction is V-shaped.

7. The aluminum carbon anode sample grabbing tool according to claim 1, wherein the telescopic length of the first hydraulic cylinder (2) is smaller than the length of the sliding rail (3).

8. The aluminum carbon anode sample grabbing tool according to claim 1, wherein the sliding sleeve (4) is connected with the sliding sleeve connecting seat (5) through a bolt.

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