CN216917629U - Stone conveying device - Google Patents

Abstract

The utility model relates to a stone conveying device, wherein a base is provided with a feeding end, a discharging end and a conveying channel extending from the feeding end to the discharging end, a power output end of a discharging mechanism is provided with a driving belt extending in the same direction as the conveying channel and arranged side by side, a material pushing plate connected to the driving belt is enabled to continuously move from the feeding end to the discharging end of the base through the circular rotation of the driving belt extending in the same direction as the conveying channel in the discharging mechanism in the conveying direction, meanwhile, as the material pushing plate extends into the conveying channel laterally, stones positioned in the conveying channel can be conveyed from the feeding end to the discharging end under the pushing of the material pushing plate, the power source in the whole conveying process is the material pushing plate, the stones are not easy to throw out when being started and stopped under the pushing of the material pushing plate, and the conveying is very stable.

Description

Stone conveying device

Technical Field

The utility model relates to the field of stone conveying, in particular to a stone conveying device.

Background

The stone material is widely used in engineering as a building material. Need use building stones conveying equipment to carry out building stones and carry usually in building stones use course of working, but the building stones conveying equipment who uses at present is the conveyer belt, because inertia and the irregularity of building stones, the building stones rolls down, spatters, influences conveying efficiency, and ejection of compact direction is fixed, needs equipment moving as a whole to transfer to, and the in-service use limitation is great.

Therefore, some enterprises adopt special conveying devices to avoid the defects caused by conveying stones, for example, the Chinese patent application with the patent number of CN202110072451.6 discloses a falling-proof stone conveying device and a working process, in the falling-proof stone conveying device, the supporting force on stones is enhanced through the matching of steps and side plates, so that the risk that the stones are subjected to gravity and slide in the upward conveying process is reduced; also have the transport form that adopts the baffle, chinese utility model patent for example with patent number CN202022067603.7 just discloses "a prevent feed mechanism that building stones dropped", has seted up first U type recess on the top of building stones transport case to there is U type baffle in the inside of first U type recess through round pin axle swing joint, be equipped with U type baffle and can make the effect of keeping off the fender to the building stones that topples over when the unloading, thereby avoided the building stones to empty the condition that makes building stones fly out and break out and appear.

Although the above patents all protect against falling and splashing of the stones during transportation, the effect is not ideal due to the limitations of the transportation method itself.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of the prior art and provides a stone conveying device which can effectively prevent stones from moving while realizing stone conveying.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a stone conveyor comprising:

the base is provided with a feeding end and a discharging end and is also provided with a conveying channel extending from the feeding end to the discharging end;

the power output end of the discharging mechanism is provided with a driving belt which extends in the same direction as the conveying channel and is arranged side by side, the driving belt can rotate circularly in the conveying direction of stones in the conveying channel, the driving belt is provided with material pushing plates which extend laterally and can extend into the conveying channel, at least two material pushing plates are arranged at intervals along the length direction of the driving piece, an interval for accommodating stones is formed between every two adjacent material pushing plates, and the material pushing plates can drive the stones in the interval to synchronously move to the discharging end from the feeding end of the conveying channel under the rotating action of the driving belt.

In order to ensure the transmission of the driving belt, it is preferable that the base is provided with a first driving wheel at a position adjacent to the feeding end and a second driving wheel at a position adjacent to the discharging end, the driving belt is sequentially wound on the first driving wheel and the second driving wheel, and a driver for driving the first driving wheel, the second driving wheel and the driving belt to synchronously rotate is connected to at least one of the first driving wheel and the second driving wheel.

The driving belt can adopt different specific structures, and preferably, the first driving wheel and the second driving wheel are both chain wheels, and the corresponding driving belt is a chain.

In order to ensure that the material pushing plates can push stones with different specifications at the same time, the stone conveying mechanism preferably further comprises a bottom plate, the base is arranged in the middle of the bottom plate and extends vertically, at least one conveying channel is arranged on each of two sides of the base, and the material pushing plates are arranged on each side corresponding to the driving belt.

In order to strengthen the pushing plates, particularly, along the conveying direction of the stone, each pushing plate is of an arc-shaped structure which is bent towards the discharging end from top to bottom.

Preferably, the drive belt comprises an upstream section and a downstream section arranged one above the other, the downstream section moving in the direction of feed of the conveyor path and the upstream section moving in the opposite direction to the downstream section.

Compared with the prior art, the utility model has the advantages that: among this building stones conveyor, through the driving band that extends with transfer passage syntropy among the discharge mechanism on the ascending circulation of direction of delivery, make the scraping wings that connect on the driving band constantly remove to the discharge end from the feed end of base, simultaneously, because the scraping wings side direction extends into transfer passage, the building stones that are located transfer passage just can promote down from the feed end to the discharge end transport under the removal of scraping wings, whole transportation process's power source is the scraping wings, under the promotion of scraping wings, the building stones no longer have the inertia of throwing away easily when opening and stop, carry very stably.

Drawings

Fig. 1 is a schematic view of the whole construction of a stone conveying mechanism according to an embodiment of the utility model;

FIG. 2 is a top view of FIG. 1;

fig. 3 is a side view of fig. 1.

Detailed Description

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

As shown in fig. 1 to 3, a preferred embodiment of the present invention. In this embodiment, the rock material transporting apparatus includes a base 1 and a discharging mechanism 2. The base 1 has a feeding end 1a and a discharging end 1b, the base 1 further has a conveying channel 10 extending from the feeding end 1a to the discharging end 1b, the power output end of the discharging mechanism 2 has a driving belt 21 extending in the same direction as the conveying channel 10 and arranged side by side, the driving belt 21 can rotate circularly in the conveying direction of the stone material in the conveying channel 10, the circular transmission here refers to a rotating form similar to a conventional conveyor belt, namely a feeding loop is formed, the driving belt 21 comprises an upstream section 211 and a downstream section 212 which are arranged up and down, the moving direction of the downstream section 212 is consistent with the feeding direction of the conveying channel 10, and the moving direction of the upstream section 211 is opposite to the moving direction of the downstream section 212. Thus, when the materials are conveyed to the target position through the downstream section, the materials can be returned to the initial position through the upstream section, and the circulation is carried out.

In this embodiment, the discharging mechanism 2 has at least two material pushing plates 22 extending laterally and capable of extending into the conveying channel 10, the material pushing plates 22 are arranged at intervals 20 along the length direction of the driving member, an interval 20 for accommodating stones is formed between two adjacent material pushing plates 22, and under the rotation action of the driving belt 21, the material pushing plates 22 can drive the stones in the interval 20 to synchronously move from the feeding end 1a to the discharging end 1b of the conveying channel 10. The driving type of the driving belt 21 can be various, the base 1 in this embodiment is provided with a first driving wheel 23 at a position adjacent to the feeding end 1a and a second driving wheel 24 at a position adjacent to the discharging end 1b, the driving belt 21 is sequentially wound around the first driving wheel 23 and the second driving wheel 24, and at least one of the first driving wheel 23 and the second driving wheel 24 is connected with a driver 25 for driving the first driving wheel 23, the second driving wheel 24 and the driving belt 21 to rotate synchronously. Specifically, the first transmission wheel 23 and the second transmission wheel 24 are both sprockets, and the corresponding drive belt 21 is a chain.

In addition, the stone conveying mechanism further comprises a bottom plate 3, the base 1 is arranged in the middle of the bottom plate 3 and extends vertically, at least one conveying channel 10 is arranged on each of two sides of the base 1, and a material pushing plate 22 is arranged on each side corresponding to the driving belt 21. In order to ensure the pushing strength, each of the material pushing plates 22 has an arc-shaped structure bent from top to bottom toward the discharging end 1b along the conveying direction of the rock material.

Also, directional terms, such as "front," "rear," "upper," "lower," "left," "right," "side," "top," "bottom," and the like, may be used in the description and claims to describe various example structural portions and elements of the utility model, but are used herein for convenience of description only and are determined based on the example orientations shown in the figures. Because the disclosed embodiments of the present invention may be oriented in different directions, the directional terms are used for descriptive purposes and are not to be construed as limiting, e.g., "upper" and "lower" are not necessarily limited to directions opposite to or coincident with the direction of gravity.

Claims (6)

1. A rock material conveyor comprising:

a base (1) having a feed end (1a) and a discharge end (1b), the base (1) further having a conveyor channel (10) extending from the feed end (1a) to the discharge end (1 b);

it is characterized by also comprising:

the power output end of the discharging mechanism (2) is provided with a driving belt (21) which extends in the same direction as the conveying channel (10) and is arranged side by side, the driving belt (21) can rotate circularly in the conveying direction of stones in the conveying channel (10), the driving belt is provided with material pushing plates (22) which extend laterally and can extend into the conveying channel (10), at least two material pushing plates (22) are arranged at intervals (20) along the length direction of the driving piece, an interval (20) for accommodating stones is formed between every two adjacent material pushing plates (22), and under the rotating action of the driving belt (21), the material pushing plates (22) can drive the stones in the intervals (20) to synchronously move from the feeding end (1a) to the discharging end (1b) of the conveying channel (10).

2. The stone conveyor as claimed in claim 1, wherein: the base (1) is provided with first drive wheel (23) in the position of neighbouring feed end (1a), is provided with second drive wheel (24) in the position of neighbouring discharge end (1b), driving band (21) are around establishing in proper order on first drive wheel (23) and second drive wheel (24), just be connected with on at least one of first drive wheel (23) and second drive wheel (24) and be used for driving first drive wheel (23), second drive wheel (24) and drive band (21) synchronous pivoted driver (25).

3. The stone conveyor as claimed in claim 2, wherein: the first transmission wheel (23) and the second transmission wheel (24) are chain wheels, and chains correspond to the driving belts (21).

4. The stone conveyor as claimed in claim 3, wherein: the device is characterized by further comprising a bottom plate (3), the base (1) is arranged in the middle of the bottom plate (3) and extends vertically, at least one conveying channel (10) is arranged on each of two sides of the base (1), and a material pushing plate (22) is arranged on each side corresponding to the driving belt (21).

5. The stone conveyor as claimed in claim 4, wherein: along the conveying direction of the stone, each material pushing plate (22) is of an arc-shaped structure which is bent towards the discharging end (1b) from top to bottom.

6. The stone conveyor as claimed in claim 5, wherein: the drive belt (21) comprises an upstream section (211) and a downstream section (212) which are arranged one above the other, the downstream section (212) moving in the same direction as the feeding direction of the conveying channel (10), and the upstream section (211) moving in the opposite direction to the downstream section (212).

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