CN210884124U - Shunting warehousing mechanism of carbon clinker conveying device - Google Patents

Abstract

The utility model relates to a carbon clinker's transport technical field specifically is a carbon clinker conveyor's reposition of redundant personnel mechanism of going into storehouse for do not have the reposition of redundant personnel mechanism among the solution prior art and come the carbon clinker on the reposition of redundant personnel conveyer belt, thereby lead to the problem high to carbon clinker cost of transportation. The utility model discloses a support frame, install strutting arrangement on the support frame, strutting arrangement's upper end is connected with vertical telescopic machanism, vertical telescopic machanism's lower extreme is connected with the feeding case, it has the feed inlet that corresponds with the conveyer belt to open on the feeding case, install transition mechanism in the feeding incasement, transition mechanism can carry the plain grog of charcoal in the boiled material storehouse. The utility model discloses in the plain grog of charcoal on the well conveyer belt got into the feed box, then in rethread transition mechanism carried the plain grog of charcoal to the boiled feed storehouse of correspondence, can shunt the plain grog of charcoal on the conveyer belt like this to can reduce the cost of carrying plain grog of charcoal.

Description

Shunting warehousing mechanism of carbon clinker conveying device

Technical Field

The utility model relates to a carbon clinker's transport technical field, more specifically relates to a carbon clinker conveyor's reposition of redundant personnel mechanism of going into storehouse.

Background

The carbon is obtained by deep processing of high-purity high-quality anthracite to change some properties of the coal, and the main products are graphite electrodes and the like. Carbon products are classified into graphite electrodes, carbon blocks, graphite anodes, carbon electrodes, pastes, electrical carbons, and the like according to the product use. Commonly known as carbon bricks or electric furnace blocks, are mainly used in the metallurgical industry: non-ferrous metal and colorless metal smelting, and calcium carbide and phosphorus chemical industry enterprises. The carbon block can be divided into blast furnace carbon block, aluminum carbon block, electric furnace block, etc. according to the application, and the carbon product can be divided into carbon product, graphite product, carbon fiber and graphite fiber, etc. according to the different raw materials and production processes, and can be divided into graphite product, carbon fiber, special graphite product, etc. The carbon clinker crushing and conveying process comprises the following steps: the calcined clinker is lifted to 18 m height by a lifter and enters a clinker bin, then enters a medium crushing device from the bin for crushing, and the crushed material is lifted to a screening device by the medium crushing lifter for screening.

In the prior art, when carbon clinker is conveyed to clinker bins with different heights, one clinker bin needs one set of conveyor belt to convey the carbon clinker to the clinker bins, and when the clinker is conveyed to a plurality of clinker bins with different heights, a plurality of sets of conveyor belts need to be installed to convey the carbon clinker to the plurality of clinker bins, so that the conveying cost of the carbon clinker is increased by using the plurality of sets of conveyor belts.

In summary, there is a need for a conveying device capable of conveying carbon clinker to a plurality of clinker bins with different heights by using a set of conveying belt, and a shunting mechanism capable of shunting carbon clinker on the conveying belt to each clinker bin is inevitably needed on the conveying device to achieve the purpose. However, in the prior art, a diversion mechanism for diverting carbon clinker is not specially arranged, so that a diversion mechanism capable of diverting carbon clinker on a conveyor belt is urgently needed.

SUMMERY OF THE UTILITY MODEL

Based on above problem, the utility model provides a charcoal grog conveyor's reposition of redundant personnel mechanism of going into storehouse for do not have the reposition of redundant personnel mechanism among the solution prior art to shunt the charcoal grog on the conveyer belt, thereby lead to the problem high to charcoal grog conveying cost. The utility model discloses a top at the conveyer belt is equipped with the feeding case, installs transition mechanism in the feeding case, and transition mechanism can carry the charcoal grog in the mellow wine storehouse, and the charcoal grog on the conveyer belt gets into the feeding incasement, then in rethread transition mechanism carries the mellow wine storehouse with the charcoal grog, can shunt the charcoal grog on the conveyer belt to the corresponding mellow wine storehouse in like this to can reduce the cost of carrying the charcoal grog.

The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme:

the utility model provides a charcoal chamotte conveyor's reposition of redundant personnel warehousing mechanism, includes the support frame, install strutting arrangement on the support frame, strutting arrangement's upper end is connected with the vertical telescopic machanism that is located vertical direction, vertical telescopic machanism's lower extreme is connected with the feeding case that is located the conveyer belt top, it has the feed inlet that corresponds with the conveyer belt to open on the feeding case, the transition mechanism is installed to the feeding incasement, transition mechanism can carry charcoal chamotte in the ripe storehouse.

As a preferred mode, the transition mechanism comprises a transition box installed on the support frame, a downward-inclined transition chute is connected in the transition box and the feeding box, the transition chute and the transition box are hinged together through a hinge mechanism, and a feeding chute is connected in the transition box and the cooked material bin.

The working principle is as follows: when the carbon clinker on the conveying belt needs to be shunted to the corresponding clinker bins, the feeding box is driven to move towards the conveying belt through the vertical telescopic mechanism until the carbon clinker on the conveying belt enters the feeding box through the feeding hole, the carbon clinker entering the feeding box slides down to the transition box through the transition chute, then enters the clinker bins through the feeding chute, the transition chute is hinged with the transition box, when the vertical telescopic cylinder drives the feeding box and the transition chute to move downwards, the transition chute can move relative to the transition box, and therefore the feeding box and the transition chute cannot be influenced to move downwards. Therefore, the carbon clinker on the conveyor belt can be shunted to the corresponding clinker bins, so that the cost for conveying the carbon clinker can be reduced.

It is worth noting that: firstly, the carbon clinker on the conveyor belt is moved, so that the carbon clinker can enter the feeding box through the feeding hole; secondly, the structural form of the support frame can be various forms, and the support frame is also provided in the prior art, so the specific structure of the support frame is not described in detail herein.

As an optimal mode, still install the feed nozzle on the feed box, the feed nozzle downward sloping and with feed box internal connection, the feed inlet is opened on the feed nozzle, the blown down tank has still been opened to the lower extreme of feed box, the upper end of transition chute is connected in the transition chute.

Preferably, the hinge mechanism comprises a rotating shaft mounted at the upper part of the transition box, the lower part of the transition chute is mounted on the rotating shaft, and the transition chute can rotate along with the rotating shaft.

As a preferable mode, the supporting device comprises an inverted U-shaped bracket installed on the supporting frame, the upper part of the inverted U-shaped bracket is connected with a supporting plate, and the vertical telescopic mechanism is installed on the bottom surface of the supporting plate.

As a preferred mode, the vertical telescopic mechanism comprises a vertical telescopic cylinder arranged on the bottom surface of the supporting plate, a connecting plate is arranged on a piston of the vertical telescopic cylinder, and the feeding box is arranged on the bottom surface of the connecting plate.

As a preferable mode, the number of the feeding boxes is two, and the two feeding boxes are respectively installed on two sides of the bottom surface of the connecting plate.

The utility model has the advantages as follows:

(1) the utility model discloses a top at the conveyer belt is equipped with the feeding case, installs transition mechanism in the feeding case, and transition mechanism can carry the charcoal grog in the mellow wine storehouse, and the charcoal grog on the conveyer belt gets into the feeding incasement, then in rethread transition mechanism carries the mellow wine storehouse with the charcoal grog, can shunt the charcoal grog on the conveyer belt to the corresponding mellow wine storehouse in like this to can reduce the cost of carrying the charcoal grog.

(2) The utility model discloses still install the feed mouth on the well feed box, the feed mouth downward sloping and with feed box internal connection, the feed inlet is opened on the feed mouth, the blown down tank has still been opened to the lower extreme of feed box, the upper end of transition chute is connected in the transition chute. The feeding nozzle is inclined downwards, so that carbon clinker on the conveyor belt can more easily enter the feeding box from the feeding nozzle and then enter the transition chute from the feeding box.

(3) The utility model discloses well articulated mechanism is including installing the pivot on transition case upper portion, and the lower part of transition chute is installed in the pivot, and the transition chute can be rotatory along with the pivot. When the feeding case moves down or during the rebound, drive the transition chute rotatory along the pivot, the transition chute is just flexible connection with the transition case is direct like this to can not influence the direction removal of feeding case to the conveyer belt.

(4) The utility model discloses the quantity of well feeding case is two, and two feeding cases are installed respectively in the both sides of connecting plate bottom surface. Therefore, the carbon clinker is conveyed into the clinker bin through the two feeding boxes, and the conveying efficiency of the carbon clinker can be improved.

Drawings

FIG. 1 is a schematic view of the front structure of the present invention;

FIG. 2 is a schematic front sectional view of the present invention;

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 1 according to the present invention;

FIG. 4 is a schematic view of the front sectional structure of the feeding box and the transition box connected by the transition chute;

FIG. 5 is a schematic view of a side sectional structure of the feeding box of the present invention;

fig. 6 is a schematic view of the hinge mechanism and the transition chute of the present invention installed in the transition box from the top;

FIG. 7 is a schematic cross-sectional view taken along line B-B of FIG. 6 according to the present invention;

reference numerals: the device comprises a support frame 1, a cooked material bin 2, a feeding chute 3, a transition box 4, a transition chute 5, a feeding box 6, a discharging chute 61, a feeding nozzle 62, a feeding hole 621, a reverse U-shaped support 7, a support plate 8, a vertical telescopic cylinder 9, a connecting plate 10 and a rotating shaft 11.

Detailed Description

For a better understanding of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and the following embodiments.

Example 1:

as shown in fig. 1-7, a shunting and warehousing mechanism of a carbon clinker conveying device comprises a support frame 1, wherein a support device is installed on the support frame 1, the upper end of the support device is connected with a vertical telescopic mechanism located in the vertical direction, the lower end of the vertical telescopic mechanism is connected with a feeding box 6 located above a conveyor belt, a feeding hole 621 corresponding to the conveyor belt is formed in the feeding box 6, a transition mechanism is installed in the feeding box 6, and the transition mechanism can convey carbon clinker into a clinker bin 2.

As a preferred mode, the transition mechanism comprises a transition box 4 installed on the support frame 1, a downward-inclined transition chute 5 is connected in the transition box 4 and the feeding box 6, the transition chute 5 and the transition box 4 are hinged together through a hinge mechanism, and a feeding chute 3 is connected in the transition box 4 and the clinker bin 2.

The working principle is as follows: when carbon clinker on the conveyor belt needs to be shunted to the corresponding clinker bins 2, the feeding box 6 is driven to move towards the conveyor belt through the vertical telescopic mechanism until the carbon clinker on the conveyor belt enters the feeding box 6 through the feeding hole 621, the carbon clinker entering the feeding box 6 slides downwards to the transition box 4 through the transition chute 5, then enters the clinker bins 2 through the feeding chute 3, the transition chute 5 is hinged with the transition box 4, when the vertical telescopic cylinder 9 drives the feeding box 6 and the transition chute 5 to move downwards, relative motion is generated between the transition chute 5 and the transition box 4, and therefore the feeding box 6 and the transition chute 5 cannot be influenced to move downwards. Therefore, the carbon clinker on the conveyor belt can be shunted to the corresponding clinker bins 2, so that the cost for conveying the carbon clinker can be reduced.

It is worth noting that: firstly, as the carbon clinker on the conveyor belt is moved, the carbon clinker enters the feeding box 6 through the feeding hole 621; secondly, the structural form of the support frame 1 can be various forms, and the support frame 1 is also provided in the prior art, so the specific structure of the support frame 1 is not described in detail herein.

Example 2:

as shown in fig. 1-7, this embodiment provides a preferred mechanism for the hinge mechanism and the feed box based on the above embodiments. Namely, the feeding box 6 is further provided with a feeding nozzle 62, the feeding nozzle 62 is inclined downwards and is connected with the inside of the feeding box 6, the feeding hole 621 is formed in the feeding nozzle 62, the lower end of the feeding box 6 is further provided with a discharging groove 61, and the upper end of the transition chute 5 is connected into the transition chute 5. The feed nozzle 62 is inclined downwards so that the carbon clinker on the conveyor belt can more easily pass from the feed nozzle 62 into the feed box 6 and from the feed box 6 into the transition chute 5.

Preferably, the hinge mechanism comprises a rotating shaft 11 installed at the upper part of the transition box 4, the lower part of the transition chute 5 is installed on the rotating shaft 11, and the transition chute 5 can rotate along with the rotating shaft 11. When the feeding box 6 moves downwards or upwards, the transition chute 5 is driven to rotate along the rotating shaft 11, so that the transition chute 5 is directly in flexible connection with the transition box 4, and the movement of the feeding box 6 to the conveying belt is not influenced.

The rest is the same as example 1, and therefore, will not be described herein.

Example 3:

as shown in fig. 1 to 7, the present embodiment provides a preferable mechanism of the supporting device and the vertical telescopic mechanism on the basis of the above embodiments. The supporting device comprises an inverted U-shaped support 7 arranged on the supporting frame 1, a supporting plate 8 is connected to the upper portion of the inverted U-shaped support 7, and the vertical telescopic mechanism is arranged on the bottom surface of the supporting plate 8. The use of an inverted U-shaped bracket 7 allows the conveyor to be spanned above, so that the feed box 6 is located above the conveyor.

Preferably, the vertical telescopic mechanism comprises a vertical telescopic cylinder 9 arranged on the bottom surface of the supporting plate 8, a connecting plate 10 is arranged on a piston of the vertical telescopic cylinder 9, and the feeding box 6 is arranged on the bottom surface of the connecting plate 10. When the piston rod of the vertical telescopic cylinder 9 extends downwards, the connecting plate 10 is driven to move downwards, so that the feeding box 6 is driven to move downwards.

Preferably, the number of the feeding boxes 6 is two, and the two feeding boxes 6 are respectively arranged on two sides of the bottom surface of the connecting plate 10. Therefore, carbon clinker is conveyed into the clinker bin 2 through the two feeding boxes 6, and the conveying efficiency of the carbon clinker can be improved.

The rest is the same as example 1, and therefore, will not be described herein.

The embodiment of the present invention is the above. The specific parameters in the above embodiments and examples are only for the purpose of clearly showing the verification process of the present invention, and are not used to limit the protection scope of the present invention, which is still subject to the claims, and all the equivalent structural changes made by using the contents of the specification and drawings of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a carbon clinker conveyor's reposition of redundant personnel mechanism of going into storehouse, includes support frame (1), its characterized in that: install strutting arrangement on support frame (1), strutting arrangement's upper end is connected with the vertical telescopic machanism that is located vertical direction, vertical telescopic machanism's lower extreme is connected with feeding case (6) that are located the conveyer belt top, it has feed inlet (621) that correspond with the conveyer belt to open on feeding case (6), install transition mechanism in feeding case (6), transition mechanism can carry charcoal chamotte in ripe feed bin (2).

2. The split flow warehousing mechanism of the carbon clinker conveying device as claimed in claim 1, characterized in that: transition mechanism is including installing transition case (4) on support frame (1), transition chute (5) of downward sloping are connected with feeding case (6) in transition case (4), transition chute (5) are together articulated through hinge mechanism with transition case (4), be connected with feed chute (3) in transition case (4) and cooked material storehouse (2).

3. The split flow warehousing mechanism of the carbon clinker conveying device as claimed in claim 2, characterized in that: still install feed nozzle (62) on feed box (6), feed nozzle (62) downward sloping and with feed box (6) internal connection, feed inlet (621) are opened on feed nozzle (62), discharge chute (61) have still been opened to the lower extreme of feed box (6), the upper end of transition chute (5) is connected in transition chute (5).

4. The split flow warehousing mechanism of the carbon clinker conveying device as claimed in claim 2, characterized in that: the hinge mechanism comprises a rotating shaft (11) arranged on the upper part of the transition box (4), the lower part of the transition chute (5) is arranged on the rotating shaft (11), and the transition chute (5) can rotate along with the rotating shaft (11).

5. The split flow warehousing mechanism of the carbon clinker conveying device as claimed in claim 1, characterized in that: the supporting device comprises an inverted U-shaped support (7) arranged on the supporting frame (1), a supporting plate (8) is connected to the upper portion of the inverted U-shaped support (7), and the vertical telescopic mechanism is arranged on the bottom surface of the supporting plate (8).

6. The split flow warehousing mechanism of the carbon clinker conveying device as claimed in claim 5, characterized in that: the vertical telescopic mechanism comprises a vertical telescopic cylinder (9) arranged on the bottom surface of the supporting plate (8), a connecting plate (10) is arranged on a piston of the vertical telescopic cylinder (9), and the bottom surface of the connecting plate (10) is arranged on the feeding box (6).

7. The split flow warehousing mechanism of the carbon clinker conveying device as claimed in claim 6, characterized in that: the number of the feeding boxes (6) is two, and the two feeding boxes (6) are respectively arranged on two sides of the bottom surface of the connecting plate (10).

Images