CN212953212U - Portable spiral of track machine of clearing away warehouse - Google Patents

Abstract

The utility model provides a crawler mobile type spiral storehouse cleaning machine, which comprises a crawler chassis, wherein a crawler and a driving mechanism are arranged on the crawler chassis, a frame is arranged on the crawler chassis, a charging barrel is arranged in the middle of the frame and used for storing materials, a bucket is arranged at the front part of the crawler chassis, after the bucket is attached to the ground, the material on the ground can be shoveled into the bucket under the condition that the crawler chassis moves, a disc type material taking device is arranged in the bucket, and a material taking spiral is butt jointed on the disc type material taking device; the material taking screw is butted with a front horizontal screw, and the upper part of the bucket is also provided with a dust remover. The utility model discloses set up dual clear storehouse function, be located the anterior scraper bowl of position respectively and be located the negative pressure dust extraction and the dish brush at rear portion, the scraper bowl is to the thick bed of material clearing storehouse, and negative pressure dust extraction and dish brush are to thinner bed of material, and its movable suction head that moves about on a large scale can the omnidirectional absorb the material. Meanwhile, the dust of the whole cleaning operation does not escape, and the effects of environmental protection, health, high efficiency and thorough cleaning are achieved.

Description

Portable spiral of track machine of clearing away warehouse

Technical Field

The invention relates to a clearing machine, in particular to a clearing machine for unloading and clearing large bulk ship materials.

Background

The conventional bulk ship unloading material clearing operation is completed by mainly adopting a pushing and raking machine, a loading machine and the like.

The traditional spiral bin cleaner, such as chinese patent ZL02284447.3, the spiral moving bin cleaner in this technical solution has a fixed-point moving capability and is equipped with a spiral material taking port. However, the operation of the warehouse cleaning machine still has the following problems, such as: 1. in the process of pushing, raking and gathering the rest bulk materials, the dust is very large, and the environment for cleaning the bin is severe. 2. Long time for warehouse cleaning operation and low efficiency. 3. The leftover materials at the bottom of the cabin are too much after the cabin is cleaned, and the cabin is not cleaned completely.

Therefore, along with the mandatory requirements of port and wharf on environmental protection, energy conservation and consumption reduction, the development of a cleaning machine with less dust emission, high efficiency and good effect is imperative.

Disclosure of Invention

In order to solve the problems, the invention provides a crawler belt moving type spiral bin cleaner which is provided with a bucket and a spiral material taking device at the front end and a negative pressure dust collection and cleaning device at the rear end.

Therefore, the invention adopts the following technical scheme:

the bin cleaner comprises a crawler chassis, wherein a crawler and a driving mechanism are arranged on the crawler chassis, so that the moving capability of the crawler chassis is provided.

The crawler belt type conveyor is characterized in that a rack is arranged on the crawler belt chassis, a charging barrel is arranged in the middle of the rack and used for storing materials, and the materials in the charging barrel are conveyed in other conveying modes, such as a vertical screw conveyor.

The front part of the crawler chassis is provided with a bucket, after the bucket is attached to the ground, materials on the ground can be shoveled into the bucket under the condition that the crawler chassis moves, and the bucket is mainly used for a region with a thick material layer.

Meanwhile, a disc-type material taking device is arranged in the bucket, a material taking screw is butted on the disc-type material taking device, and materials entering the bucket are timely conveyed to the material taking screw above the disc-type material taking device;

in this disclosure, get material spiral butt joint and have preceding horizontal screw, preceding horizontal screw carries the material to the feed cylinder, and preceding horizontal screw in time carries the material of getting material auger delivery to the feed cylinder, accomplishes quick, the high efficiency operation of cleaning the warehouse.

In this disclosure, scraper bowl upper portion still is provided with the dust remover, absorbs the raise dust that produces in the scraper bowl, the dust return pipe of dust remover can be direct with preceding horizontal screw connection, and the absorptive raise dust material can be directly by preceding horizontal screw transport to the feed cylinder in. The dust remover is a dust remover commonly used in the prior art.

On the basis of adopting the technical scheme, the invention can also adopt the following further scheme:

in the device, the rear part of the rack is provided with a rear rack, and the rear rack is provided with a negative pressure dust suction device, a movable suction head connected with the negative pressure dust suction device and a disc brush;

specifically, the negative pressure dust suction device comprises a vacuum pump and a negative pressure distributor connected with the vacuum pump, the movable suction head is connected with a first negative pressure hose leading to the negative pressure distributor, and the disc brush is connected with a second negative pressure hose leading to the negative pressure distributor;

in the present disclosure, the movable joint is driven by a joint arm connected to the rear frame, and the disc brush is driven by a swing mechanism. Furthermore, a connecting arm connected with the disc brush is arranged at the rear end of the crawler chassis, the connecting arm is connected with the swinging mechanism, and the swinging mechanism controls the connecting arm to swing left and right so as to control the left and right cleaning operation of the disc brush;

in this disclosure, the frame front portion is provided with the scraper bowl lifting arm, the scraper bowl passes through the lifting arm and realizes reciprocating, the lifting arm is connected with the prerequisite and rises the hydro-cylinder, the prerequisite rises the hydro-cylinder setting at the front end of frame. When the bin cleaner needs to move, a bucket lifting arm is needed to lift the bucket.

In the present disclosure, the number of the disc feeders is one or two, preferably two, and the bucket shovels the material into the bucket and conveys the material to the material taking screw through the disc feeders.

In the disclosure, the connecting arm is connected with a rear lifting oil cylinder, and the rear lifting oil cylinder lifts the disc brush away from or close to the ground. Likewise, when the bin cleaner needs to be moved, the pan brush also needs to be lifted off the ground.

In this disclosure, be connected with star type ash discharger under the negative pressure tripper, star type ash discharger is connected with back horizontal spiral down, back horizontal spiral connects the feed cylinder, and star type ash discharger dumps the material in the feed cylinder to back horizontal spiral after, carries the material to the feed cylinder by back horizontal spiral.

In the disclosure, a joint arm rotary table connected with a joint arm is arranged on the rack, the joint arm is arranged on the joint arm rotary table, the rotary table can realize at least 180-degree rotation and is used for rotating the joint arm and the movable suction head to a place needing to be cleaned, and then at least dead-angle-free cleaning behind the bin cleaner is realized through the movement of the joint arm.

Meanwhile, the articulated arm is a three-section articulated arm, and an articulated arm oil cylinder is connected to the articulated arm to control the articulated arm to move.

In this disclosure, the back frame top is provided with the cable drum, the last winding of cable drum has the cable, the cable is for clearing the storehouse machine power supply, for clearing the equipment in the storehouse machine power supply.

Due to the adoption of the technical scheme, the double bin cleaning function is provided, namely the bucket positioned at the front part, the negative pressure dust suction device positioned at the rear part and the disc brush, the bucket can clean the bin of a thick material layer, and the negative pressure dust suction device and the disc brush can suck materials in an all-around manner by the movable suction head which moves in a large range aiming at a thin material layer. Meanwhile, the dust of the whole cleaning operation does not escape, and the effects of environmental protection, health, high efficiency and thorough cleaning are achieved.

Drawings

Fig. 1 is a front view of a screw bin cleaner shown in embodiment 2 of the present invention.

Fig. 2 is a top view of the spiral bin cleaner shown in embodiment 2 of the present invention.

Detailed Description

The invention is further elucidated with reference to the drawing.

However, the following description is of several embodiments of the invention, and is intended to provide a basic understanding of the invention and to not identify key or critical elements of the invention or to delineate the scope of the invention.

Example 1:

as shown in fig. 1, the crawler belt moving type spiral bin cleaner comprises a crawler chassis 1 with moving capability, a material barrel 7 arranged on the crawler chassis 1, a bucket 2 arranged in front of the crawler chassis and a disc type material taking device 3 arranged in the bucket 2, wherein a ship unloader material taking spiral 30 is connected in the material barrel 7 and used for conveying materials in the material barrel to other transfer bins or a loading ship body. The ship unloader material taking screw 30 is not a part of the invention which needs to be protected, and is not a technical feature of the invention.

The disc type material taking device 3 is connected with a vertical material taking screw 4, the vertical material taking screw 4 is connected with a front horizontal screw 5 leading into a material barrel 7, materials are conveyed to the material taking screw 4 through the disc type material taking device 3 after entering the bucket 2, the material taking screw 4 vertically lifts and conveys the materials to the front horizontal screw 5, and then the materials enter the material barrel, so that the first bin cleaning function of the invention is completed, and the function is suitable for thicker material layers. The mode of discharging under the material can reduce the escaping of material dust to the maximum extent.

In this embodiment, the disc feeders 3 are symmetrically arranged in the bucket 2 and are mounted by a frame arranged on the crawler chassis 1. The bucket moves up and down through a bucket lifting arm arranged on the front portion of the rack, the bucket lifting arm is connected with a front lifting oil cylinder to provide driving force, and the front lifting oil cylinder is also arranged on the front portion of the rack.

Further, two disc feeders 3 are preferable, and 1 or more than 2 disc feeders can be provided, depending on the size of the bucket and the size of the site requiring emptying.

In this embodiment, a dust collector 6 is disposed above the bucket, and absorbs dust generated in the bucket 2, and then enters the front horizontal screw 5 through the dust return pipe, and is conveyed into the charging barrel 7.

In this embodiment, the bucket 2 is further connected with a bucket lifting arm 25, the bucket lifting arm is arranged at the front end of the crawler chassis and connected with the bucket 2, the bucket lifting arm 25 is connected with a front lifting oil cylinder 21, the front lifting oil cylinder 21 is connected with the charging barrel 7, and when the warehouse cleaning machine needs to walk under a non-warehouse cleaning state, the front lifting oil cylinder 21 lifts the bucket lifting arm 25, so that the bucket 2 is lifted off the ground, and the warehouse cleaning machine can walk.

Example 2:

as shown in fig. 1 and 2, on the basis of embodiment 1, the warehouse cleaning machine provided by this embodiment further includes a negative pressure dust suction and cleaning device at the rear end of the crawler chassis. The negative pressure dust suction sucks dispersed materials in an all-around mode through the movable suction head 12, the sweeping device sucks the thin material layer scattered on the bottom surface through the negative pressure suction head 12 after sweeping the thin material layer, two modes of bin cleaning modes are formed, and the bin cleaning mode is matched with the bucket bin cleaning mode provided by the embodiment 1, so that all-around, dead-angle-free and efficient bin cleaning operation is achieved.

Specifically, in this embodiment, the negative pressure dust suction device includes a vacuum pump 20 and a negative pressure distributor 10 connected to the vacuum pump 20, and the vacuum pump is a roots vacuum pump.

The negative pressure distributor 10 is connected through a vacuum pump port 9 of a vacuum pump 20, the negative pressure distributor 10 is connected with two hoses, namely a first negative pressure hose 14 and a second negative pressure hose 24, wherein the first negative pressure hose 14 is connected with the movable suction head 12, and the second negative pressure hose 24 is connected with the cleaning device. The sweeping means is a disc brush 18 located at the bottom of the rear end of the track chassis.

In the embodiment, the front end of the first negative pressure hose is connected with the movable suction head, the driving mode of the movable suction head is a three-joint articulated arm 11, the articulated arm 11 is connected to an articulated arm rotary table 15, the articulated arm rotary table 15 is connected to a rear rack 26 arranged at the rear part of the crawler chassis, the three-joint articulated arm 11 is driven by three articulated arm oil cylinders 13, and the articulated arm rotary table 15 provides driving for the rotation of the articulated arm, so that the omnibearing warehouse cleaning operation behind the crawler chassis is realized.

One end of the second negative pressure hose 24 is connected with the disc brush 18, and the other end is connected with the negative pressure distributor 10, so that material dust generated when the disc brush 18 cleans is sucked by the second negative pressure hose 24. In addition, the disc brush can swing left and right under the action of the swing mechanism 19, and thin material layers in areas where the buckets are shoveled or not shoveled are thoroughly cleaned.

The negative pressure distributor 10 is arranged on a rear frame 26 of the crawler chassis, the bottom end of the negative pressure distributor 10 is provided with a star-shaped ash discharger 16, a rear horizontal spiral 17 is connected below the star-shaped ash discharger 16, the rear horizontal spiral 17 is connected with the charging barrel 10, and materials falling from the star-shaped ash discharger 16 are conveyed into the charging barrel 10.

In this embodiment, a connecting seat of the rear lifting cylinder 22 is arranged above the rear end of the crawler chassis, the disc brush is fixed by a connecting arm 27 connected with the connecting seat, and the rear lifting cylinder 22 is arranged on the connecting arm 27 and used for controlling the up-and-down movement of the disc brush. When the warehouse cleaning machine needs to walk in a non-warehouse cleaning state, the rear lifting oil cylinder 22 lifts the connecting arm 27, so that the disc brush is lifted off the ground, and the warehouse cleaning machine can move.

In both embodiments, all the devices are powered by a cable that is wound around a cable drum 8 that is mounted on the rear housing or connected to the cartridge.

In the two embodiments, the bin cleaner provided by the invention provides two material bin cleaning modes: 1. the scraper bowl that the front portion of track chassis set up can be taken up thicker bed of material, takes the disc type to get the glassware, gets material spiral and preceding horizontal spiral quick with material propelling movement to the feed cylinder in.

2. The rear part of the crawler chassis is provided with a negative pressure dust suction device and a cleaning device, and the residual thinner material layer can be further conveyed into the charging barrel. The device is divided into two paths, one is a movable suction head which can move in all directions, the other is a disc brush which can swing left and right and is close to the bottom surface, and the two paths are connected with a negative pressure hose to suck materials and flying dust.

Therefore, the dust pollution can be greatly reduced in the integral bin cleaning process, the bin cleaning effect in two modes is excellent, the all-dimensional operation without dead angles can be realized, the excess material is basically avoided, and the requirements of clean environment, energy conservation, consumption reduction and harmlessness to people for unloading bulk materials from the current port or wharf can be effectively met.

Spatially relative terms such as "below …," "above …," "below," "above," "below," and the like are used for ease of description and to explain the positioning of one element relative to a second element. These terms are intended to encompass different orientations of the corresponding device in addition to different orientations than those depicted in the figures. Further, terms such as "first" and "second," etc., are also used to describe various elements, regions, sections, etc. and are also not intended to be limiting. Like terms refer to like elements throughout the description.

As used herein, the terms "having," "including," "containing," and "exhibiting," and the like are open-ended terms that indicate the presence of stated elements or features, but do not exclude additional elements or features.

With the above range of variations and applications in mind, it should be understood that the present invention is not limited by the foregoing description, nor is it limited by the accompanying drawings. Rather, the invention is limited only by the claims and their legal equivalents.

Claims (8)

1. The crawler belt moving type spiral bin cleaner comprises a crawler belt chassis and is characterized in that a rack is arranged on the crawler belt chassis, a material barrel is arranged in the middle of the rack, a bucket is arranged at the front part of the crawler belt chassis, a disc type material taking device is arranged in the bucket, a material taking spiral is butted on the disc type material taking device, a front horizontal spiral is butted on the material taking spiral, and the front horizontal spiral conveys materials to the material barrel;

and a dust remover is also arranged at the upper part of the bucket.

2. The crawler-type mobile spiral bin cleaner as claimed in claim 1, wherein a rear frame is arranged at the rear part of the frame, and a negative pressure dust suction device, a movable suction head connected with the negative pressure dust suction device and a disc brush are arranged on the rear frame;

the negative pressure dust suction device comprises a vacuum pump and a negative pressure distributor connected with the vacuum pump, the movable suction head is connected with a first negative pressure hose leading to the negative pressure distributor, and the disc brush is connected with a second negative pressure hose leading to the negative pressure distributor;

the movable suction head is driven by a joint arm connected with the rear frame, and the disc brush is driven by a swing mechanism.

3. The crawler-type spiral grain cleaner as claimed in claim 1, wherein a bucket lifting arm is provided at the front of the frame, the bucket moving up and down by the lifting arm, the lifting arm is connected with a front lift cylinder, and the front lift cylinder is provided at the front end of the frame.

4. The crawler-type spiral emptying machine as claimed in claim 1, wherein the number of the disc type material extractors is one or two, and the bucket shovels the materials into the bucket and conveys the materials to the material taking spiral through the disc type material extractors.

5. The crawler-type spiral bin cleaner as claimed in claim 2, wherein a connecting arm connected to the disc brush is provided at a rear end of the crawler chassis, the connecting arm is connected to the swing mechanism, and the swing mechanism controls the connecting arm to swing left and right to control the left and right cleaning operation of the disc brush;

the connecting arm is connected with a rear lifting oil cylinder, and the rear lifting oil cylinder lifts the disc brush away from or close to the ground.

6. The crawler-type spiral bin cleaner as claimed in claim 2, wherein a star-shaped ash discharger is connected below the negative pressure distributor, a rear horizontal spiral is connected below the star-shaped ash discharger, and the rear horizontal spiral is connected with the material barrel to convey the material to the material barrel.

7. The crawler-type spiral grain cleaner as claimed in claim 2, wherein the frame is provided with a joint arm revolving platform connected with a joint arm, the joint arm is a three-section joint arm, and the joint arm is connected with a joint arm oil cylinder for controlling the joint arm to move;

the first negative pressure hose is connected to the three-section type articulated arm.

8. The crawler-type spiral bin cleaner of claim 2, wherein a cable drum is arranged above the rear frame, a cable is wound on the cable drum, and the cable supplies power to the bin cleaner.

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