CN219971246U - Quantitative feeding device of chain bucket type continuous ship unloader - Google Patents

Abstract

The utility model provides a quantitative feeding device of a chain bucket type continuous ship unloader, which comprises the following components: vibration motor, door support, striker plate and electrohydraulic push rod, vibration motor installs the lower part at the center swift current section of thick bamboo of chain bucket formula continuous ship unloader, door support installs in the continuous ship unloader's of chain bucket formula feed belt feeder frame, striker plate sliding connection is on the door support and be located the exit of center swift current section of thick bamboo, electrohydraulic push rod installs on the door support and links to each other with the striker plate for the drive striker plate reciprocates. The utility model can ensure the stable and reliable material flow.

Description

Quantitative feeding device of chain bucket type continuous ship unloader

Technical Field

The utility model relates to the technical field of ship unloading equipment, in particular to a quantitative feeding device of a chain bucket type continuous ship unloader.

Background

The chain bucket type continuous ship unloader is novel environment-friendly continuous ship unloader equipment, has the characteristics of environment friendliness and high efficiency, and is increasingly widely applied to bulk cargo stacking heads in recent years. The material is excavated through the material taking head, conveyed to the disc type feeding device through the chain and the chain bucket, and finally unloaded to the wharf belt conveyor after being transferred for many times through the central chute and the feeding belt conveyor.

In the process of receiving and discharging materials, the operation level of a driver is high or low, and the shapes of ships are different, so that the unstable phenomenon of negligence of material flow exists in the material taking process, the underload or overload operation condition of the whole wharf conveying system is caused, the stability of the conveying of materials in a rear yard is seriously influenced, and the normal use of each device is influenced. Therefore, the quantitative feeding device of the chain bucket type continuous ship unloader is urgently needed to be developed, namely unloading materials are temporarily stored in a central chute, uniform and stable material output is ensured by arranging a vibrating motor and a material blocking door, the size of the discharging quantity can be adjusted according to the wharf transportation requirement, the requirement of post-field conveying is met, the problems of unstable material flow and the like are fundamentally solved, and safe, efficient and environment-friendly operation of equipment is ensured.

Disclosure of Invention

According to the technical problem, a quantitative feeding device of a chain bucket type continuous ship unloader is provided. According to the utility model, the unloading materials are temporarily stored in the central chute, and the vibration motor and the material blocking door are arranged, so that uniform and stable material output is ensured, the size of the discharging quantity can be adjusted according to the wharf transportation requirement, the requirement of back-end conveying is met, the problems of unstable material flow and the like are fundamentally solved, and the safe, efficient and environment-friendly operation of equipment is ensured. The utility model adopts the following technical means:

a chain bucket type continuous ship unloader dosing device comprising: vibration motor, door support, striker plate and electrohydraulic push rod, vibration motor installs the lower part at the center swift current section of thick bamboo of chain bucket formula continuous ship unloader, door support installs in the continuous ship unloader's of chain bucket formula feed belt feeder frame, striker plate sliding connection is on the door support and be located the exit of center swift current section of thick bamboo, electrohydraulic push rod installs on the door support and links to each other with the striker plate for the drive striker plate reciprocates.

Further, the door bracket comprises a bracket, a guide groove and a guide plate, wherein the bracket is arranged on the feeding belt conveyor frame, and the guide groove is fixedly arranged in front of the bracket and is in sliding connection with the striker plate and is used for limiting the movement of the striker plate so as to ensure that the striker plate does not deviate from a rail when moving up and down; the deflector is arranged at the rear of the bracket and is in sliding connection with the striker plate, and is used for realizing that the striker plate moves up and down in a straight line.

Further, a first installation lug plate is welded on the upper portion of the support, and the electro-hydraulic push rod is fixed on the support through the first installation lug plate.

Further, the support is in a door-shaped structure and is fixedly arranged on the feeding belt conveyor frame through the bolt group.

Further, the guide grooves are L-shaped and are symmetrically arranged left and right.

Further, the striker plate comprises a main plate, a wear-resistant lining plate, a guide frame and a second installation lug plate, wherein the wear-resistant lining plate is fixedly installed on the main plate and is connected with the guide plate in a sliding contact manner, and the guide frame is fixedly installed at the rear of the main plate and is connected with the guide groove in a sliding manner; the second installation lug plate is welded and installed on the upper portion of the main board and is used for being connected with the electro-hydraulic push rod.

Further, the main board is in a rectangular structure.

Further, the wear-resistant lining plate is detachably connected with the main board, and the wear-resistant lining plate is detached and replaced after being worn to a certain degree.

Further, the guide frame is L-shaped and is symmetrically arranged left and right.

Further, the feeding belt conveyor is characterized by further comprising a dust cover, wherein the dust cover is arranged at the outlet of the central chute and above the feeding belt conveyor and is used for sealing the outlet from the feeding belt conveyor and above the feeding belt conveyor.

Compared with the prior art, the utility model has the following advantages:

1. the quantitative feeding device of the chain bucket type continuous ship unloader solves the problem that in the material unloading process of the chain bucket type continuous ship unloader, the phenomenon of underload or overload of a wharf conveying system is caused by uneven material taking, and stable and constant material conveying in a rear yard is ensured.

2. The quantitative feeding device of the chain bucket type continuous ship unloader ensures stable and reliable material flow and does not generate blocking phenomenon under the action of the vibrating motor.

3. According to the quantitative feeding device of the chain bucket type continuous ship unloader, through the action of the electro-hydraulic push rod, the baffle plates can be adjusted in different heights, so that control of different flow rates is achieved, and stable material flow is ensured.

4. According to the quantitative feeding device of the chain bucket type continuous ship unloader, all materials are conveyed and arranged in the sealing cylinder, the whole process is sealed, no materials are scattered, and the environmental protection performance is improved.

5. The quantitative feeding device of the chain bucket type continuous ship unloader provided by the utility model has the advantages that the whole device is assembled by all parts, and the disassembly and the assembly are convenient.

Based on the reasons, the utility model can be widely popularized in the fields of material conveying and the like.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to the drawings without inventive effort to a person skilled in the art.

Fig. 1 is a schematic structural view of a constant feeder of a bucket chain type continuous ship unloader of the present utility model.

FIG. 2 is a schematic diagram of the material flow of the dosing device of the present utility model.

Fig. 3 is a front view of the composition of the dosing device of the present utility model.

Fig. 4 is a side view of the composition of the dosing device of the present utility model.

FIG. 5 is a top view of the dosing device of the present utility model.

Fig. 6 is a front view of the door bracket of the present utility model.

Fig. 7 is a side view of the door bracket of the present utility model.

Fig. 8 is a top view of the door bracket of the present utility model.

Fig. 9 is a front view of the dam plate of the present utility model.

Fig. 10 is a side view of a dam of the present utility model.

FIG. 11 is a top view of a dam of the present utility model.

FIG. 12 is a schematic view of a low flow discharge after the dosing device of the present utility model is lowered.

FIG. 13 is a schematic view of the high throughput discharge of the dosing device of the present utility model after its ascent.

In the figure: a. a central chute; b. a door frame; c. a feeding belt conveyor; 1. a vibration motor; 2. a door bracket; 3. a striker plate; 4. an electro-hydraulic push rod; 5. a dust cover; 21. a bracket; 22. a guide groove; 23. a guide plate; 24. a first mounting ear plate; 31. a main board; 32. wear-resistant lining board; 33. a guide frame; 34. and a second mounting ear plate.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The chain bucket type continuous ship unloader is special unloading equipment for a bulk cargo wharf to continuously scoop and lift materials in a ship, and finally unload the materials to a wharf belt conveyor through whole-course airtight conveying.

In the process of receiving and discharging materials, the operation level of a driver is high or low, and the shapes of ships are different, so that the phenomenon of instability of larger or smaller material flow exists in the material taking process, the underload or overload operation condition of the whole wharf conveying system is caused, the stability of the conveying of the materials in the back yard is seriously influenced, and the normal use of each device is influenced.

For the central chute of the material transfer system, the central chute is used for continuously transferring materials from the horizontal arm support belt conveyor conveying device to the feeding belt conveyor system.

In order to solve the problems in the prior art, as shown in fig. 1-13, the utility model provides a quantitative feeding device of a chain bucket type continuous ship unloader, which relates to continuous ship unloader for ports and wharfs, in particular to a chain bucket type continuous ship unloader. A certain vibrating motor and a quantitative feeding device are arranged at the outlet of a central chute a of the chain bucket type continuous ship unloader, so that the problem of unstable material flow caused by uneven material taking is solved, the equipment use efficiency is improved, the continuous ship unloader can operate more efficiently and in an environment-friendly mode, and the automatic ship unloader is simple in structure and high in practicability. According to the utility model, the materials are continuously excavated, lifted and conveyed from the cabin to the wharf conveyor, so that the quantitative flow of the materials is realized.

The constant feeding device of the chain bucket type continuous ship unloader consists of a vibrating motor 1, a door bracket 2, a striker plate 3, an electrohydraulic push rod 4, a dust cover 5 and the like. The central chute a is of a multi-stage folding structure and is fixedly arranged on the door frame b, so that the functions of material transfer and storage are achieved. The vibrating motor 1 is arranged at the lower part of the central chute a, so that the material can be prevented from being blocked and can not flow, and the material can be kept to have certain fluidity through the action of the vibrating motor 1. The door bracket 2 is arranged on a frame of a feeding belt conveyor c of the chain bucket type continuous ship unloader, the striker plate 3 is slidably connected to the door bracket 2 and positioned at an outlet of the central chute a, and the electrohydraulic push rod 4 is arranged on the door bracket 2 and connected with the striker plate 3 and used for driving the striker plate 3 to move up and down. A dust cap 5 is mounted at the outlet of the central chute a and above the feeding belt conveyor c for sealing between the outlet and the feeding belt conveyor c and above the feeding belt conveyor c.

The door bracket 2 is composed of a bracket 21, a guide groove 22, a guide plate 23, a first mounting ear plate 24, and the like. The bracket 21 is in a door-shaped structure and is fixedly arranged on the frame of the feeding belt conveyor c through a bolt group. The guide grooves 22 are symmetrically arranged left and right and fixedly arranged in front of the bracket 21, so that the striker plate 3 cannot deviate from the rail when moving up and down. The guide plate 23 is disposed at the rear of the bracket 21 to ensure that the striker plate 3 can be linearly moved up and down without tilting. The first mounting lug plate 24 is welded and mounted on the upper part of the bracket 21 and is used for mounting the electro-hydraulic push rod 4.

The striker plate 3 is composed of a main plate 31, a wear-resistant lining plate 32, a guide frame 33, a second mounting lug plate 34 and the like. The main board 31 is in a rectangular structure and is mainly used for bearing. The wear-resistant lining plate 32 is fixedly arranged on the main plate 31, plays a role in wear resistance, can be replaced after the wear-resistant lining plate 32 is worn to a certain extent, and is connected with the guide plate 23 in a sliding contact manner. The guide frame 33 is symmetrically arranged at the left and right, is fixedly arranged at the rear of the main board 31 and is matched with the guide groove 22 for use (the L hook shape of the guide frame 33 is hooked with the L hook shape of the guide groove 22 and can be in relative sliding connection), so that the stop plate 3 cannot deviate from the rail when moving up and down. The second installation lug plate 34 is welded and installed on the upper portion of the main plate 31 and is used for being connected with the electro-hydraulic push rod 4, and the up-and-down movement of the striker plate 3 can be realized under the action of the electro-hydraulic push rod 4.

Working principle:

the chain bucket type continuous ship unloader is used for continuously excavating and lifting materials from a ship cabin, unloading the materials to a horizontal arm support belt type conveying system after multiple transfer, continuously conveying the materials through the horizontal arm support belt type conveying system, and transferring the materials through a multi-stage turning-back type central chute a.

The vibrating motor 1 is arranged at the outlet of the multi-stage turning-back type central chute a, and the material is kept to have certain fluidity through the action of the vibrating motor 1, so that the material is conveyed to the feeding belt conveyor c.

In order to control the flow of the conveyed materials, a quantitative feeding device is arranged at the interface of the feeding belt and the central chute.

When the high-flow material is needed in the back field, the electro-hydraulic push rod 4 pulls up the baffle plate 3, so that the sectional area of the outlet is increased, and the flow of the material can be increased.

When the low-flow material is needed in the back field, the electro-hydraulic push rod 4 puts down the striker plate 3, so that the sectional area of the outlet is reduced, and the flow of the material can be reduced. Meanwhile, the up-flow incoming materials are stored in the central chute a, and the materials are prevented from being adhered under the action of the vibrating motor 1.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model.

Claims (10)

1. A dosing device for a bucket chain continuous ship unloader, comprising: vibrating motor (1), door support (2), striker plate (3) and electrohydraulic push rod (4), vibrating motor (1) installs the lower part at the center swift current section of thick bamboo (a) of chain bucket formula continuous ship unloader, door support (2) are installed in the feed belt feeder (c) frame of chain bucket formula continuous ship unloader, striker plate (3) sliding connection is on door support (2) and be located the exit of center swift current section of thick bamboo (a), electrohydraulic push rod (4) are installed on door support (2) and link to each other with striker plate (3) for drive striker plate (3) reciprocates.

2. The quantitative feeding device of the chain bucket type continuous ship unloader according to claim 1, wherein the door bracket (2) comprises a bracket (21), a guide groove (22) and a guide plate (23), the bracket (21) is arranged on a frame of the feeding belt conveyor (c), the guide groove (22) is fixedly arranged in front of the bracket (21) and is in sliding connection with the striker plate (3) and used for limiting the movement of the striker plate (3) so as to ensure that the striker plate (3) does not deviate from a rail when moving up and down; the guide plate (23) is arranged at the rear of the bracket (21) and is in sliding connection with the striker plate (3) and used for realizing the straight up-and-down movement of the striker plate (3).

3. The quantitative feeding device of the bucket chain type continuous ship unloader according to claim 2, wherein a first mounting lug plate (24) is welded on the upper portion of the support (21), and the electro-hydraulic push rod (4) is fixed on the support (21) through the first mounting lug plate (24).

4. A dosing device for a bucket chain type continuous ship unloader according to claim 2 or 3, characterized in that the bracket (21) is in the form of a portal-like structure and is fixedly mounted on the frame of the feeding belt conveyor (c) by means of a set of bolts.

5. The dosing device of a bucket chain type continuous ship unloader according to claim 2, wherein the guide grooves (22) are in an "L" shape and are arranged symmetrically left and right.

6. The quantitative feeding device of the bucket chain continuous ship unloader according to claim 2, wherein the striker plate (3) comprises a main plate (31), a wear-resistant lining plate (32), a guide frame (33) and a second mounting lug plate (34), the wear-resistant lining plate (32) is fixedly arranged on the main plate (31) and is in sliding contact connection with the guide plate (23), and the guide frame (33) is fixedly arranged behind the main plate (31) and is in sliding connection with the guide groove (22); the second installation lug plate (34) is welded and installed on the upper part of the main plate (31) and is used for being connected with the electro-hydraulic push rod (4).

7. The dosing device of a bucket chain type continuous ship unloader according to claim 6, wherein the main plate (31) is in the form of a rectangular structure.

8. The quantitative feeding device of the bucket chain type continuous ship unloader according to claim 6, wherein the abrasion-resistant lining plate (32) is detachably connected with the main plate (31), and the abrasion-resistant lining plate (32) is detached and replaced after being abraded to a certain degree.

9. The dosing device of a bucket chain type continuous ship unloader according to claim 6, wherein the guide frame (33) is of an "L" shape and is arranged symmetrically left and right.

10. The dosing device of a bucket chain continuous ship unloader according to claim 6, further comprising a dust cap (5), said dust cap (5) being mounted at the outlet of the central chute (a) and above the feeding belt conveyor (c) for sealing between the outlet and the feeding belt conveyor (c) and above the feeding belt conveyor (c).