CN217708768U - Loading platform for stacker - Google Patents

Abstract

The utility model discloses a cargo carrying platform for stacker, which comprises side plates, baffle frames and a bottom plate, wherein the left side and the right side of the bottom plate are provided with two side plates, two hanging wheels are symmetrically arranged in the side plates, the front side and the rear side of the bottom plate are provided with two baffle frames, four groups of guide wheels are arranged at four corners of each side plate, the guide wheels are matched with and slidably connected with a stand column of the stacker frame, the top surface of the bottom plate is connected with two fork assemblies which are arranged in parallel, and the extending direction of the fork assemblies is bidirectional; when the lifting wheel is installed and used, the lifting wheel is hoisted on a lifting steel wire rope of a stacker, and the lifting operation is completed through the driving of the lifting steel wire rope. The utility model has compact layout, no manual operation intervention is needed in the lifting of the cargo carrying platform and the working process of the fork assembly, the automation degree is high, and the stacking efficiency is high; the design of leading wheel makes the location accurate, has guaranteed elevating movement's stability, and work safe and reliable.

Description

Loading platform for stacking machine

Technical Field

The utility model relates to a stacker accessory technical field especially relates to a stacker is with carrying cargo bed.

Background

Warehousing is a process of storing goods by using a certain tool through a certain method, such as finished product warehousing in various manufacturing industries, raw material warehousing, centralized turnover warehousing in express delivery and logistics industries and the like. At the moment, the storage space is low in utilization rate of the warehouse space due to special tools. At present, most of storage conditions are that an industrial forklift is used for placing on the ground or low-level goods shelves are used for layered placement. Some large enterprises apply high-level forklifts and high-level shelves, improve the utilization rate of warehouse space, but face high equipment cost, software cost and maintenance cost. According to the used tools, the used mode and method, the operation environment, the required manpower and material resources are different, the obtained warehousing results are different, and the warehousing efficiency is greatly different.

Therefore, in order to improve the convenience of storing articles, how to develop a loading platform for a stacker to realize stable lifting operation of the articles and loading, lifting, unloading, descending and resetting operations of the articles becomes a technical problem to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a stacker is with carrying cargo bed to the realization treats the material loading of stack article, rises, unloads, descends the operation that resets, and automatic operation, convenient operation is swift.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model relates to a loading platform for stacker, including curb plate, fender frame and bottom plate, the left and right sides of bottom plate is provided with two the curb plate, symmetrical arrangement has two hanging wheels in the curb plate, both sides are provided with two fender frames around the bottom plate, the four corners of curb plate is provided with four groups of leading wheels, the leading wheel cooperatees with the stand of stacker frame and slides and connect together, be connected with two fork subassemblies of parallel arrangement on the top surface of bottom plate, the extending direction of fork subassembly is two-way; when the lifting wheel is installed and used, the lifting wheel is hoisted on a lifting steel wire rope of a stacker, and the lifting operation is completed through the driving of the lifting steel wire rope.

Furthermore, a plurality of photoelectric detection switches are arranged on the outer side surface of the vertical rod of the blocking frame, and reinforcing ribs are arranged at the corner joints of the vertical rod and the horizontal rod of the blocking frame.

Further, every group the leading wheel includes a first leading wheel and a second leading wheel, four the second leading wheel is connected on the curb plate and the connecting axle of second leading wheel is arranged with the curb plate is perpendicular, four first leading wheel is connected on the curb plate and the connecting axle and the curb plate parallel arrangement of first leading wheel, the second leading wheel with the side pastes tight fit around the stand, first leading wheel and two the relative face of stand pastes the tight fit.

Furthermore, the fork assembly comprises a base, a telescopic driving motor, a middle fork and a main fork, wherein two ends of the base are connected to the bottom plate through bolts, and the telescopic driving motor is installed at the bottom of the base through a motor support; the fork suit is in the outside of well fork, well fork slidable installs on the base, be connected with the rack in the recess of well fork, telescopic drive motor's output has the gear through the coupling joint, the gear with the rack meshes mutually, the fork with be provided with the chain that transmission used between the well fork, the both ends of well fork respectively are equipped with a chain sheave, the one end of chain is fixed on the base, and the other end is walked around chain sheave after-fixing is in on the fork, two on the fork in one the connection opposite direction of chain.

Furthermore, a first guide mechanism is arranged on the vertical matching surface of the middle fork and the main fork, and a second guide mechanism is arranged on the vertical matching surface of the middle fork and the base.

Further, first guiding mechanism and second guiding mechanism include guide block and guide chute, guide chute sets up on the vertical face in center U type groove and the vertical face in the outside of well fork, first guiding mechanism's guide block is installed on the vertical face in center U type groove of main fork, second guiding mechanism's guide block is installed on the vertical face of base.

Compared with the prior art, the utility model discloses a beneficial technological effect:

the utility model has compact layout, no manual operation intervention is needed in the lifting of the cargo carrying platform and the working process of the fork assembly, the automation degree is high, and the stacking efficiency is high; the design of leading wheel makes the location accurate, has guaranteed elevating movement's stability, and work safe and reliable.

The utility model discloses the design of fork subassembly realizes two-way flexible function through complicated rack and pinion and chain sprocket system to realize two-way access goods, this process realizes accurate location, automatic operation, labour saving and time saving through flexible driving motor as driving system, through switch board realization signal transmission and control.

Drawings

The present invention will be further explained with reference to the accompanying drawings.

FIG. 1 is a perspective view of a loading platform for a stacker of the present invention;

fig. 2 is a front view of a cargo carrying platform for the stacker of the present invention;

FIG. 3 is a top view of a cargo bed for the stacker of the present invention;

FIG. 4 is a schematic view of the usage state of the present invention;

FIG. 5 is a schematic structural view of the fork assembly of the present invention;

description of reference numerals: 1. a side plate; 101. safety tongs; 2. a blocking frame; 3. a base plate; 4. a hoisting wheel; 5. a first guide wheel; 6. a second guide wheel; 7. a fork assembly; 8. a photoelectric detection switch; 9. a lower cross beam; 10. A column;

701. a base; 702. a gear; 703. a rack; 704. a telescopic driving motor; 705. a motor bracket; 706. A coupling; 707. a chain; 708. a chain sheave; 709. a middle fork; 710. a main fork.

Detailed Description

As shown in fig. 1-5, a cargo carrying platform for a stacker comprises side plates 1, blocking frames 2 and a bottom plate 3, wherein two side plates 1 are arranged on the left side and the right side of the bottom plate 3, two hanging wheels 4 are symmetrically arranged in the side plates 1, two blocking frames 2 are arranged on the front side and the rear side of the bottom plate 3, four groups of guide wheels are arranged at four corners of each side plate 1, the guide wheels are matched with and slidably connected with a stand column 10 of the stacker frame, two fork assemblies 7 arranged in parallel are connected to the top surface of the bottom plate 3, and the extension directions of the fork assemblies 7 are bidirectional; when the lifting wheel is installed and used, the lifting wheel 4 is lifted on a lifting steel wire rope of a stacker and is driven by the lifting steel wire rope to complete lifting operation.

A plurality of photoelectric detection switches 8 are arranged on the outer side surface of the vertical rod of the blocking frame 2, and reinforcing ribs are arranged at the corner joints of the vertical rod and the horizontal rod of the blocking frame 2. The photoelectric detection switches are used for blocking or reflecting the light beams by the detected objects and are connected with the circuit through a synchronous loop, so that the existence of the objects is detected, whether goods exist on the fork assembly 7 can be detected in real time through the arrangement of the photoelectric detection switches, and signals are fed back to a control system of the device.

Every group the leading wheel includes a first leading wheel 5 and a second leading wheel 6, four second leading wheel 6 is connected 1 is gone up and the connecting axle of second leading wheel 6 is arranged with curb plate 1 is perpendicular, four first leading wheel 5 is connected 1 is gone up and the connecting axle of first leading wheel 5 and curb plate 1 parallel arrangement to the curb plate, second leading wheel 6 with the side pastes tight fit around the stand 10, first leading wheel 5 and two the relative face of stand 10 pastes tight fit. The design of leading wheel makes the location accurate, and the lift operation operates steadily.

As shown in fig. 5, the fork assembly 7 includes a base 701, a telescopic driving motor 704, a middle fork 709 and a main fork 710, wherein both ends of the base 701 are fixed on the bottom plate 3 by bolts, and the telescopic driving motor 704 is mounted at the bottom of the base 701 by a motor bracket 705; the main fork 710 is sleeved outside the middle fork 709, the middle fork 709 is slidably mounted on the base 701, a rack 703 is connected in a groove of the middle fork 709, an output end of the telescopic driving motor 704 is connected with a gear 702 through a coupler 706, the gear 702 is meshed with the rack 703, a chain 707 for transmission is arranged between the main fork 710 and the middle fork 709, two chain sheaves 708 are respectively arranged at two ends of the middle fork 709, one end of the chain 707 is fixed on the base 701, the other end of the chain 707 is fixed on the main fork 710 after bypassing the chain sheaves 708, and the connection directions of the two chains 707 on one middle fork are opposite.

When the telescopic type cargo carrying platform works, the base 701 is fixed, the telescopic driving motor 704 is started, and the middle fork 709 is driven to horizontally move through transmission of the meshed gear 702 and the meshed rack 703 and extends out of the cargo carrying platform; when the middle fork 709 and the base 701 are displaced relatively, the chain sheave 708 is also displaced relative to the base 701; when the middle fork 709 and the base 701 are displaced, the chain 707 is fixed at one end of the base 701 and is fixed, the chain sheave 708 on the middle fork 709 pushes against the chain 707 to move, and at the moment, the other end of the chain 707 drags the main fork 710 to move; because the directions of the two chains are opposite, one chain drives the main fork to extend out when the middle fork extends out, and the other chain drives the main fork to return to the original position when the middle fork returns back.

Specifically, a first guide mechanism is arranged on a vertical matching surface of the middle fork 709 and the main fork 710, and a second guide mechanism is arranged on a vertical matching surface of the middle fork 709 and the base 701.

First guiding mechanism and second guiding mechanism include guide block and guide chute, guide chute sets up on the vertical face in center U type groove and the vertical face in outside of well fork 709, first guiding mechanism's guide block is installed on the vertical face in center U type groove of main fork 710, second guiding mechanism's guide block is installed on the vertical face of base 701. The arrangement of the first guide mechanism and the second guide mechanism effectively ensures the stability of the extending operation of the middle fork 709 and the main fork 710.

In addition, a safety gear 101 is installed on the outer side of one side plate 1, the safety gear 101 is connected with a machine-room-less speed limiter through a connecting rod and a safety steel wire rope, a braking port of the safety gear 101 is matched with the surface of a band-type brake guide rail and is matched with other balance wheels and the like to form a safety speed limiting mechanism, and the safety speed limiting mechanism plays a role in safety protection when the cargo carrying platform for the stacker is used.

The action process of the utility model is as follows:

firstly, mounting the goods carrying platform for the stacker on a lower cross beam at the bottom of the whole frame of the stacker, hoisting a hoisting wheel on a lifting steel wire rope of the stacker, and placing articles to be sorted on the hoisting wheel; then, the lifting driving motor is started to drive the double-rope lifting drum to rotate so as to wind and roll the lifting steel wire rope, the cargo carrying platform and the articles are driven to move upwards through the hanging wheel 4, and the lifting driving motor stops working when the specified height is reached; then the middle fork 709 and the main fork 710 of the fork assembly 7 extend to work to convey articles to the shelf, and after the articles are placed in place, the middle fork 709 and the main fork 710 return to reset; and finally, the lifting driving motor drives the double-rope lifting drum to rotate reversely, and the lifting steel wire rope is loosened, so that the empty cargo carrying platform is lowered to the initial position. At this point, a complete article stacking operation is completed.

The above-mentioned embodiments are only described in the preferred embodiments of the present invention, but not limited to the scope of the present invention, and various modifications and improvements made by the technical solutions of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the design spirit of the present invention.

Claims (6)

1. The utility model provides a stacker is with carrying cargo bed which characterized in that: the stacking machine comprises side plates (1), baffle frames (2) and a bottom plate (3), wherein the two side plates (1) are arranged on the left side and the right side of the bottom plate (3), two hanging wheels (4) are symmetrically arranged in the side plates (1), the two baffle frames (2) are arranged on the front side and the rear side of the bottom plate (3), four groups of guide wheels are arranged at four corners of each side plate (1), the guide wheels are matched with and slidably connected with a stand column (10) of a stacking machine frame, two fork assemblies (7) which are arranged in parallel are connected to the top surface of the bottom plate (3), and the extension directions of the fork assemblies (7) are two-way; when the lifting wheel is installed and used, the lifting wheel (4) is lifted on a lifting steel wire rope of a stacker and is driven by the lifting steel wire rope to complete lifting operation.

2. The load platform for a stacker according to claim 1, wherein: a plurality of photoelectric detection switches (8) are arranged on the outer side surface of the vertical rod of the blocking frame (2), and reinforcing ribs are arranged at the corner joints of the vertical rod and the horizontal rod of the blocking frame (2).

3. The loader table of claim 1, wherein: every group the leading wheel includes a first leading wheel (5) and a second leading wheel (6), four second leading wheel (6) are connected curb plate (1) is gone up and the connecting axle of second leading wheel (6) is arranged with curb plate (1) is perpendicular, four first leading wheel (5) are connected curb plate (1) is gone up and the connecting axle and curb plate (1) parallel arrangement of first leading wheel (5), second leading wheel (6) with the side pastes tight cooperation around stand (10), first leading wheel (5) and two the opposite face of stand (10) pastes tight cooperation.

4. The loader table of claim 1, wherein: the pallet fork assembly (7) comprises a base (701), a telescopic driving motor (704), a middle fork (709) and a main fork (710), two ends of the base (701) are connected to the bottom plate (3) through bolts, and the telescopic driving motor (704) is installed at the bottom of the base (701) through a motor support (705); the main fork (710) is sleeved outside the middle fork (709), the middle fork (709) is slidably mounted on the base (701), a rack (703) is connected in a groove of the middle fork (709), an output end of the telescopic driving motor (704) is connected with a gear (702) through a coupler (706), the gear (702) is meshed with the rack (703), a chain (707) for transmission is arranged between the main fork (710) and the middle fork (709), two chain sheaves (708) are respectively arranged at two ends of the middle fork (709), one end of the chain (707) is fixed on the base (701), the other end of the chain (707) bypasses the chain sheaves (708) and then is fixed on the main fork (710), and the connection directions of the two chains (707) on one middle fork are opposite.

5. The loader table of claim 4, wherein: a first guide mechanism is arranged on the vertical matching surface of the middle fork (709) and the main fork (710), and a second guide mechanism is arranged on the vertical matching surface of the middle fork (709) and the base (701).

6. The load platform for a stacker according to claim 5, wherein: first guiding mechanism and second guiding mechanism include guide block and guide chute, guide chute sets up on the vertical face in center U type groove and the vertical face in outside of well fork (709), first guiding mechanism's guide block is installed on the vertical face in center U type groove of main fork (710), second guiding mechanism's guide block is installed on the vertical face of base (701).

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