CN220926204U - Manual stacking auxiliary device - Google Patents

Abstract

The utility model discloses an artificial stacking auxiliary device which comprises a lifting platform and stacking platforms, wherein the lifting platform is arranged on two sides of the stacking platform, a lifting driving device is arranged below the lifting platform, a safety fence is arranged around the lifting platform, a support column is arranged below the lifting platform, a stacking bearing frame is arranged on the stacking platform, and the stacking bearing frame is a multi-layer frame. The automatic stacking device has the advantages of being simple in structure, assisting in stacking operation manually, avoiding climbing, automatically lifting, ensuring personnel operation safety and improving stacking efficiency.

Description

Manual stacking auxiliary device

Technical Field

The utility model relates to the technical field of aluminum bar processing, in particular to a manual stacking auxiliary device.

Background

After the aluminum bar is cast, sawing is carried out, and the aluminum bar is required to be transferred to a homogenizing furnace device for homogenizing heat treatment. For batch type homogenizing furnaces, aluminum bars are required to be piled into proper sizes and then are sent into the homogenizing furnaces for heat treatment, and at present, two main stream stacking types are adopted: special automatic stacking equipment for large batches and manual stacking for small batches: in the prior art, the following problems exist in the process of stacking small-batch manual codes: in the existing manual stacking operation process, tools such as a herringbone ladder are adopted for ascending stacking operation, and the following limitations are met; the coverage area of the ladder is small, the ladder is required to be moved frequently, the efficiency is low, and the working strength is increased; the ladder needs more than 2 people to operate, 1 person ascends, and the other 1 person ladder carries out safety protection, so that labor is increased; the ladder ascends a height and has a falling risk and is collided by the aluminum bar. What is needed is an auxiliary device for assisting in stacking aluminum rods to be processed manually.

Disclosure of utility model

In order to solve the technical problems, the utility model provides the manual stacking auxiliary device which is simple in structure, assists in manual stacking operation, does not need to ascend, automatically ascends and descends, ensures the operation safety of personnel and improves stacking efficiency.

The utility model discloses an artificial stacking auxiliary device which comprises a lifting platform and stacking platforms, wherein the lifting platform is arranged on two sides of the stacking platform, a lifting driving device is arranged below the lifting platform, a safety fence is arranged around the lifting platform, a support column is arranged below the lifting platform, stacking supporting frames are placed on the stacking platform, and the stacking supporting frames are multi-layer frames.

The technical scheme has the advantages of being simple in structure, assisting in stacking operation manually, avoiding ascending and automatically lifting, ensuring personnel operation safety and improving stacking efficiency.

Further, the lower surface of the lifting platform is provided with a hinged fixing seat and a sliding seat, the ground below the lifting platform is also provided with the hinged fixing seat and the sliding seat, the support columns are arranged in a crossed mode, and the end parts of the support columns are connected with the hinged fixing seat and the sliding seat.

Further, the support columns which are arranged in a crossing way are symmetrically arranged, the support columns are connected through connecting rods, and the connecting rods are connected with lifting driving devices.

The technical scheme has the advantages that when lifting is needed, the lifting driving device drives the connecting rods to move up and down, the connecting rods drive the support columns which are arranged in a crossed mode to move, the end portions of the support columns slide in the sliding seats, the positions of the two support columns are close to each other, the lifting platform is lifted, the support capacity of the platform can be improved by the support columns which are arranged in the crossed mode, and the requirements of common operation of multiple people are met.

Further, the lifting driving device is a hydraulic cylinder, the output end of the hydraulic cylinder is connected with the connecting rod, the hydraulic cylinder is provided with a mounting plate, the mounting plate is mounted on the ground, and the hydraulic cylinder is hinged with the mounting plate.

The technical scheme has the advantages that the hydraulic cylinder is used for driving, the jacking weight is large, the control is easy, the jacking is stable, and the jacking can be slowly carried out.

Further, a sliding groove is formed in the sliding seat, the support column is connected with a sliding block, and the sliding block slides in the sliding groove.

The technical scheme has the advantages that the support column slides through the sliding block, so that the friction force of the support column in the sliding process is reduced, the jacking process is smoother, and meanwhile, the damage to a driving system caused by the clamping of the support column can be prevented.

Further, the stacking receiving frame comprises a plurality of mounting frames, the mounting frames are stacked up and down, the mounting frames are provided with stop blocks, a plurality of connecting rods are arranged in the mounting frames, and the connecting rods are in a shape of a Chinese character 'kou'.

The technical scheme has the advantages that in the process of stacking the aluminum bars, the one-layer installation frame is placed after stacking the one-layer aluminum bars, stacking is continued again, the stop block can prevent the aluminum bars from moving, the strength of the installation frame can be enhanced through the arrangement of the connecting rods, meanwhile, the weight of the section of the connecting rods can be reduced under the condition of ensuring the strength, the material cost is reduced, and the installation is convenient.

Further, the side of the installation frame is provided with a fixing piece, the upper side of the fixing piece is provided with a fixing block, the fixing block is provided with a fixing groove, and the fixing piece stretches into the fixing groove to be fixed.

The technical scheme has the advantages that the fixing piece of the installation frame located above is connected with the fixing block of the installation frame below during operation, the installation frame is prevented from moving, the stability of the whole stacking bearing frame is guaranteed, and follow-up hoisting and transferring are facilitated.

Further, the lower end of the fixed block is provided with a fixed part, and two sides of the fixed part protrude outwards.

Further, the fixed block is connected with a guide rail, the guide rail is vertically arranged, a horizontal groove is formed in the bottom of the fixed block, and the horizontal groove is used for accommodating the fixing portion.

The technical scheme has the advantages that the fixing piece is placed in the fixing groove firstly during installation, then the fixing block slides downwards, the fixing part below the fixing block is clamped into the horizontal groove on the fixing block, the installation frame is fixed, and stacked aluminum bars are prevented from falling.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings used in the description of the embodiments or the prior art will be briefly described below.

FIG. 1 is a schematic diagram of a front view of an auxiliary device for stacking piles manually according to the present utility model

FIG. 2 is a schematic side view of the manual stacking auxiliary device of the present utility model

FIG. 3 is a schematic top view of the receiving frame of the stacking device of the present utility model

FIG. 4 is a schematic view of the mounting structure of the receiving frame of the code pile of the present utility model

FIG. 5 is a schematic view showing the assembly structure of the fixing member and the fixing block according to the present utility model

FIG. 6 is a schematic side view of a fastener and a fastener block according to the present utility model

Wherein reference numerals are as follows:

A lifting platform 1; a hydraulic cylinder 11; a mounting plate 12; a step 13; a drive control box 14; a stacking platform 2; a safety fence 3; a support column 4; a hinge fixing base 41; a slide seat 42; a link 43; a slider 45; a substrate 46; a stacking receiving frame 5; a mounting frame 51; a connecting rod 52; a limit bar 521; a fixing piece 53; a fixed block 54; a horizontal slot 541; a guide rail 55; a fixing groove 56; an aluminum bar 6;

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

As shown in fig. 1-6, the utility model discloses a manual stacking auxiliary device, which comprises a lifting platform 1 and a stacking platform 2, wherein the lifting platform 1 is arranged on two sides of the stacking platform 2, a lifting driving device is arranged below the lifting platform 1, a safety fence 3 is arranged around the lifting platform 1, a support column 4 is arranged below the lifting platform 1, a stacking receiving frame 5 is arranged on the stacking platform 2, the stacking receiving frame 5 is a multi-layer frame, a step 13 for people to enter and exit is arranged on the side surface of the lifting platform 1, a driving control box 14 is arranged at the same time, lifting buttons and lifting buttons of the driving control box 14 are arranged on the driving control box 14, and the lifting of the driving control box 14 is controlled by connection with the driving device.

The technical scheme has the advantages of being simple in structure, assisting in stacking operation manually, avoiding ascending and automatically lifting, ensuring personnel operation safety and improving stacking efficiency.

In some embodiments, the lifting platform 1 may adopt the following structural schemes, the lower surface of the lifting platform 1 is provided with a hinged fixed seat 41 and a sliding seat 42, the ground below the lifting platform 1 is also provided with the hinged fixed seat 41 and the sliding seat 42, the support columns 4 are arranged in a crossed manner, the end parts of the support columns 4 are connected with the hinged fixed seat 41 and the sliding seat 42, the sliding seats 42 arranged on the lifting platform 1 and the ground are symmetrically arranged, one ends of the support columns 4 are fixed on the hinged fixed seat 41, and one ends of the support columns 4 are fixed on the sliding seat 42. The support columns 4 which are arranged in a crossed mode are symmetrically arranged on two sides below the lifting platform 1, lifting stability is improved, the support columns 4 are connected through connecting rods 43, and the connecting rods 43 are connected with a lifting driving device. When needing to go up and down, lift drive arrangement drive connecting rod 52 reciprocates, and connecting rod 52 drives the support column 4 that the cross set up and removes, and the tip of support column 4 slides in sliding seat 42, and the position of two support columns 4 is close to, and lift platform 1 promotes, and the support capability of platform can be improved to the support column 4 that the cross set up, satisfies many people's joint operation demands.

In some embodiments, the lifting driving device may adopt a structural scheme, the lifting driving device is a hydraulic cylinder 11, an output end of the hydraulic cylinder 11 is hinged with the connecting rod 43, the hydraulic cylinder 11 is provided with a mounting plate 12, the mounting plate 12 is mounted on the ground, and the hydraulic cylinder 11 is hinged with the mounting plate 12.

The technical scheme has the advantages that the hydraulic cylinder 11 is used for driving, the jacking weight is large, the control is easy, the jacking is stable, and the jacking can be slowly carried out.

In some embodiments, the sliding seat 42 may adopt the following structural scheme, a sliding groove is provided on the sliding seat 42, the support column 4 is connected with a sliding block 45, the sliding block 45 slides in the sliding groove, the sliding seat 42 and the hinged fixing seat are both fixedly arranged on the base plate 46, and the base plate 46 is fixed on the lower surface and the ground of the lifting platform 1.

The technical scheme has the advantages that the support column 4 slides through the sliding block 45, the friction force of the support column 4 in the sliding process is reduced, the jacking process is smoother, meanwhile, the support column 4 can be prevented from being clamped to damage a driving system, and the substrate fixing sliding seat 42 and the hinge seat are arranged to facilitate the installation of the whole support column 4 and the lifting driving device.

In some embodiments, the sliding seat 42 may adopt the following structural scheme, the stacking receiving frame 5 includes a plurality of mounting frames 51, the mounting frames 51 are stacked up and down, the mounting frames 51 are provided with stoppers, a plurality of connecting rods 52 are provided in the mounting frames 51, the connecting rods 52 are in a square shape in cross section, and the connecting rods 52 are provided with limiting strips 521 at intervals along the length direction, wherein the limiting strips are used for limiting the position of the aluminum bar 6, preventing the aluminum bar 6 from rolling, and simultaneously separating the aluminum bar 6, so as to prevent the influence on the subsequent homogenizing effect due to the contact of the aluminum bar 6.

The technical scheme has the advantages that in the process of stacking the aluminum bars 6, the one-layer installation frame 51 is placed after stacking the one-layer aluminum bars 6, stacking is continued, the stop block is arranged to prevent the aluminum bars 6 from moving, the strength of the installation frame 51 can be enhanced by the arrangement of the connecting rod 52, meanwhile, the weight can be reduced under the condition that the strength is ensured by the arrangement of the section of the connecting rod 52, the material cost is reduced, and the installation is convenient.

In some embodiments, the fixing member 53 may adopt a structure in which a fixing member 53 is disposed on a side of the mounting frame 51, a fixing block 54 is disposed on an upper side of the fixing member 53, a fixing groove 56 is disposed on the fixing block 54, and the fixing member 53 extends into the fixing groove 56 to be fixed; the lower end of the fixed block 54 is provided with a fixed part, and two sides of the fixed part protrude outwards; the fixed block 54 is connected with a guide rail 55, the guide rail 55 is vertically arranged, a horizontal groove 541 is formed in the bottom of the fixed block 54, the horizontal groove 541 is used for accommodating the fixing portion, and the fixing groove 56 is vertically arranged. The mounting piece 53 of the upper mounting frame 51 is connected with the mounting block 54 of the lower mounting frame 51 during operation, so that the mounting frame 51 is prevented from moving, the stability of the whole stacking bearing frame 5 is ensured, and subsequent hoisting and transferring are facilitated. When in installation, the fixing piece 53 is placed in the fixing groove 56, then the fixing block 54 is slid downwards, the fixing part below the fixing block 54 is clamped into the horizontal groove 541 on the fixing block 54, the installation frame 51 is fixed, and the stacked aluminum bars 6 are prevented from falling.

During the working process, firstly, workers enter the lifting platform 1 through the steps 13, as the lifting platform 1 is surrounded with the safety fence 3, the workers can walk in the lifting platform 1 and then start stacking, as the weight of the aluminum rods 6 is large, the lifting device can assist in placing the aluminum rods 6 on the stacking receiving frame 5, after stacking is completed, the lifting driving device can be controlled, the lifting platform 1 is lifted to a proper position, then the next mounting frame 51 is placed on the stacking receiving frame 5, the fixing piece 53 arranged on the side surface of the mounting frame 51 is connected with the fixing piece 54 of the mounting frame 51 positioned on the lower side, then the fixing piece 54 is downwards slipped, the horizontal groove 541 on the fixing piece 54 is clamped with the fixing piece 53, stacking is continued, each mounting frame 51 is fixedly installed below, and lifting of the lifting platform 1 is controlled until stacking is completed. The products after stacking can be directly and integrally hoisted for subsequent processing, and the auxiliary device can also be used for carrying out the destacking operation when the products need to be destacked after processing. The multifunctional lifting device has the advantages of being simple in integral structure, supporting multi-person operation, capable of automatically lifting, free of climbing operation and capable of reducing potential safety hazards.

It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (9)

1. Manual stacking auxiliary device, a serial communication port, including lift platform (1) and stacking platform (2), lift platform (1) set up stacking platform (2) both sides, lift platform (1) below is provided with lift drive arrangement, lift platform (1) enclose and are equipped with safety fence (3), the below of lift platform (1) is provided with support column (4), stacking is placed on stacking platform (2) and is piled and accept frame (5), stacking is piled and is accepted frame (5) and be the multilayer frame.

2. The manual stacking auxiliary device according to claim 1, wherein a hinged fixing seat (41) and a sliding seat (42) are arranged on the lower surface of the lifting platform (1), the hinged fixing seat (41) and the sliding seat (42) are also arranged on the ground below the lifting platform (1), the supporting columns (4) are arranged in a crossing manner, and the end parts of the supporting columns (4) are connected with the hinged fixing seat (41) and the sliding seat (42).

3. The manual stacking auxiliary device according to claim 2, wherein the support columns (4) which are arranged in a crossing manner are symmetrically arranged, the support columns (4) are connected through connecting rods (43), and the connecting rods (43) are connected with a lifting driving device.

4. A manual stacking auxiliary device according to claim 3, characterized in that the lifting driving device is a hydraulic cylinder (11), the output end of the hydraulic cylinder (11) is connected with the connecting rod (43), the hydraulic cylinder (11) is provided with a mounting plate (12), the mounting plate (12) is mounted on the ground, and the hydraulic cylinder (11) is hinged with the mounting plate (12).

5. The manual stacking auxiliary device according to claim 2, wherein a sliding groove is formed in the sliding seat (42), the supporting column (4) is connected with a sliding block (45), and the sliding block (45) slides in the sliding groove.

6. The manual stacking auxiliary device according to claim 1, wherein the stacking receiving frame (5) comprises a plurality of mounting frames (51), the mounting frames (51) are stacked up and down, the mounting frames (51) are provided with stoppers, a plurality of connecting rods (52) are arranged in the mounting frames (51), and the connecting rods (52) are of a square cross section.

7. The manual stacking auxiliary device according to claim 6, wherein a fixing piece (53) is arranged on the side face of the mounting frame (51), a fixing block (54) is arranged on the upper side of the fixing piece (53), a fixing groove (56) is formed in the fixing block (54), and the fixing piece (53) stretches into the fixing groove (56) to be fixed.

8. The manual stacking assist device as claimed in claim 7, wherein a fixing portion is provided at a lower end of the fixing block (54), and both sides of the fixing portion protrude outward.

9. The manual stacking auxiliary device according to claim 8, wherein the fixing block (54) is connected with a guide rail (55), the guide rail (55) is vertically arranged, a horizontal groove (541) is formed in the bottom of the fixing block (54), and the horizontal groove (541) is used for accommodating the fixing portion.