CN210854230U - Conveying device for carbon clinker - Google Patents

Abstract

The utility model relates to a carbon grog's transport technical field specifically is a carbon grog's conveyor for carry carbon grog problem with high costs in solving among the prior art to the not grog storehouse of co-altitude. The utility model discloses a support frame, and the cooked food storehouse, the drive roll is installed to the one end of support frame, and the driven voller is installed to the other end, be connected with the conveyer belt that is located the cooked food storehouse top and is the U-shaped between drive roll and driven voller, the drive roll is connected with power unit, install on the support frame with a plurality of vertical telescopic machanisms of cooked food storehouse one-to-one, it is a plurality of all install reposition of redundant personnel mechanism on the vertical telescopic machanism. The utility model discloses a with a plurality of reposition of redundant personnel mechanisms of chamotte storehouse one-to-one with the charcoal grog on the conveyer belt shunt to the chamotte storehouse of correspondence, so one set of conveyer belt just can convey the charcoal grog in a plurality of chamotte storehouses to can reduce the cost of delivery to the charcoal grog.

Description

Conveying device for carbon clinker

Technical Field

The utility model relates to a carbon clinker's transport technical field, more specifically relate to a carbon clinker's conveyor.

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 processing depth, and according to the difference of raw materials and production process, the carbon product 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. Therefore, there is a need for a conveyor that can transport carbon clinker to a plurality of different height clinker bins using a single conveyor belt.

SUMMERY OF THE UTILITY MODEL

Based on above problem, the utility model provides a carbon clinker's conveyor for when solving among the prior art to carrying carbon clinker in the cooked food storehouse of co-altitude not, every cooked food storehouse need one set of conveyer belt of collocation, thereby increased cost of transportation's problem. The utility model discloses a one set of conveying that is located a plurality of boiled feed bin tops brings the conveying charcoal grog to in a plurality of reposition of redundant personnel mechanisms with boiled feed bin one-to-ones shunted the charcoal grog on with the conveyer belt to the boiled feed bin that corresponds, so one set of conveyer belt just can convey the charcoal grog in a plurality of boiled feed bins, thereby can reduce the cost of delivery to the charcoal grog.

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

the utility model provides a conveyor of plain grog of charcoal, includes the support frame, be equipped with a plurality of ripe storehouse that highly increase in proper order from left to right in the support frame, the drive roll is installed to the one end of support frame, and the driven voller is installed to the other end, be connected with the conveyer belt that is located ripe storehouse top and is the U-shaped between drive roll and driven voller, the drive roll is connected with power unit, install on the support frame with a plurality of vertical telescopic machanism of ripe storehouse one-to-one, it is a plurality of all install on the vertical telescopic machanism and can carry the reposition of redundant personnel mechanism in the corresponding ripe.

The working principle is as follows: when the carbon clinker is required to be conveyed to a plurality of clinker bins simultaneously, the power mechanism can be started firstly, the power mechanism drives the driving roller to rotate, the driving roller rotates and then drives the conveying belt and the driven roller to rotate, then the carbon clinker is placed on the conveying belt, the conveying belt conveys the carbon clinker to the clinker bins, when the carbon clinker reaches the corresponding positions of the clinker bins, the flow dividing mechanism is moved to the conveying belt through the vertical telescopic mechanism, when the flow dividing mechanism is in contact with the conveying belt or the conveying belt, the carbon clinker on the conveying belt can be in the flow dividing mechanism, and the carbon clinker entering the flow dividing mechanism is conveyed to the clinker bins through the flow dividing mechanism. The shunting mechanism corresponding to each clinker bin can convey the carbon clinker on the conveyor belt to the corresponding clinker bin through the operation mode, so that one set of conveyor belt can convey the carbon clinker to a plurality of clinker bins, and the conveying cost of the carbon clinker can be reduced.

It is worth noting that: firstly, the U-shaped conveyor belt is used for reducing carbon clinker from flowing out of two sides of the conveyor belt, the installation of the conveyor belt and how to drive the conveyor belt and the like can be realized by the prior art, and the collection of the carbon clinker at the tail end of the conveyor belt can be easily realized by the prior art, so that the details are not repeated; 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 a preferred mode, vertical telescopic machanism is including erectting the support of falling the U-shaped on support frame both sides limit, the upper end of falling the U-shaped support is connected with the backup pad parallel with the conveyer belt, vertical telescopic cylinder is installed to the bottom surface of backup pad, be connected with the connecting plate on the vertical telescopic cylinder, reposition of redundant personnel mechanism installs the bottom surface at the connecting plate, and reposition of redundant personnel mechanism is located the top of conveyer belt.

As a preferred mode, the shunting mechanism comprises a feeding box arranged on the bottom surface of the connecting plate, a feeding port corresponding to the conveying belt is formed in the feeding box, a transition mechanism is arranged in the feeding box, and the transition mechanism can convey carbon clinker into the clinker bin.

As a preferred mode, the two sides of the bottom surface of the connecting plate are both provided with feeding boxes, and the two feeding boxes are connected with the two sides in the cooked material bin through transition mechanisms.

As a preferable 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 is hinged with the transition box, and a feeding chute is connected in the transition box and the clinker bin.

As a preferable mode, a tail end cooking bin is further installed below the tail end of the conveying belt, a hollow vertical material collecting barrel is further installed on the tail end cooking bin, and the upper end of the vertical material collecting barrel is located right below the tail end of the conveying belt.

As a preferable mode, the power mechanism includes a rotating motor installed on the support frame, and the rotating motor is connected with the driving roller through a rotating shaft.

The utility model has the advantages as follows:

(1) the utility model discloses a one set of conveying that is located a plurality of boiled feed bin tops brings the conveying charcoal grog to in a plurality of reposition of redundant personnel mechanisms with boiled feed bin one-to-ones shunted the charcoal grog on with the conveyer belt to the boiled feed bin that corresponds, so one set of conveyer belt just can convey the charcoal grog in a plurality of boiled feed bins, thereby can reduce the cost of delivery to the charcoal grog.

(2) The utility model discloses well conveyer belt is the U-shaped, can reduce the plain grog of carbon and spill from the both sides of conveyer belt.

(3) The utility model discloses well reposition of redundant personnel mechanism is including installing the feeding case in the connecting plate bottom surface, and it has the feed inlet that corresponds with the conveyer belt to open on the feeding case, installs transition mechanism in the feeding case, and transition mechanism can carry the ripe storehouse with carbon grog in. When the vertical telescopic cylinder drives the feeding box to move towards the direction of the conveying belt until carbon clinker on the conveying belt enters the feeding box through the feeding hole, the carbon clinker on the conveying belt moves, so that the carbon clinker can enter the feeding box through the feeding hole.

(4) The utility model discloses well transition mechanism is including installing the transition case on the support frame, and the transition chute that has the downward sloping is connected with the feeding incasement in the transition case, and the transition chute is together articulated with the transition case, and the transition incasement is connected with the feeding chute with the mellow wine storehouse in-connection. Carbon clinker entering the feeding box can slide down to the transition box through the transition chute, then enters the clinker bin through the feeding chute, and the transition chute is hinged with the transition box, so that when the vertical telescopic cylinder drives the feeding box and the transition chute to move downwards, relative movement is generated between the transition chute and the transition box, and the feeding box and the transition chute cannot be influenced to move downwards.

Drawings

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

FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the top view of the present invention with the conveyor belt and the vertical telescoping mechanism removed;

FIG. 4 is a schematic view of the front structure of the vertical telescopic mechanism and the shunting mechanism of the present invention;

FIG. 5 is a schematic cross-sectional view taken along line B-B of FIG. 4 according to the present invention;

FIG. 6 is a schematic side sectional view of the feeding box of the present invention;

FIG. 7 is a schematic view of the front sectional structure of the feeding box and the transition box connected by the transition chute;

reference numerals: the device comprises a support frame 1, a conveyor belt 2, a flow dividing mechanism 3, a feeding chute 31, a transition box 32, a transition chute 33, a feeding box 34, a feeding hole 341, a telescopic mechanism 4, an inverted U-shaped support 41, a support plate 42, a vertical telescopic cylinder 43, a connecting plate 44, a driving roller 5, a cooking bin 6, a driven roller 7, a material collecting barrel 8, a cooking bin at the tail end 9, a rotating shaft 10 and a rotating motor 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 carbon clinker conveying device comprises a support frame 1, a plurality of clinker bins 6 are arranged in the support frame 1, the heights of the clinker bins 6 are sequentially increased from left to right, a driving roller 5 is arranged at one end of the support frame 1, a driven roller 7 is arranged at the other end of the support frame 1, a U-shaped conveying belt 2 positioned above the clinker bins 6 is connected between the driving roller 5 and the driven roller 7, the driving roller 5 is connected with a power mechanism, a plurality of vertical telescopic mechanisms 4 which are in one-to-one correspondence with the clinker bins 6 are arranged on the support frame 1, and a flow dividing mechanism 3 which can convey the carbon clinker into the corresponding clinker bins 6 is arranged on each vertical.

The working principle is as follows: when carbon clinker needs to be conveyed into a plurality of clinker bins 6 simultaneously, the power mechanism can be started firstly, the power mechanism drives the driving roller 5 to rotate, the driving roller 5 rotates and then drives the conveying belt 2 and the driven roller 7 to rotate, then the carbon clinker is placed on the conveying belt 2, the conveying belt 2 conveys the carbon clinker to the clinker bins 6, when the carbon clinker reaches the corresponding position of the clinker bins 6, the flow dividing mechanism 3 moves to the conveying belt 2 through the vertical telescopic mechanism 4, when the flow dividing mechanism 3 is in contact with the conveying belt 2 or the conveying belt 2, the carbon clinker on the conveying belt 2 can be conveyed into the flow dividing mechanism 3, and the carbon clinker entering the flow dividing mechanism 3 is conveyed into the clinker bins 6 through the flow dividing mechanism 3. The diversion mechanism 3 corresponding to each clinker bin 6 can convey the carbon clinker on the conveyor belt 2 to the corresponding clinker bin 6 through the operation mode, so that one set of conveyor belt 2 can convey the carbon clinker to a plurality of clinker bins 6, and the conveying cost of the carbon clinker can be reduced.

It is worth noting that: firstly, the conveyor belt 2 is U-shaped to reduce the carbon clinker from flowing out of the two sides of the conveyor belt 2, and the installation of the conveyor belt 2 and how to drive the conveyor belt 2 and the like can be realized by the prior art, and how to collect the carbon clinker at the tail end of the conveyor belt 2 can be easily realized by the prior art, so that the details are not described herein; 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, on the basis of the above embodiments, the present embodiment provides a preferred mechanism of the vertical telescopic mechanism and the diversion mechanism, that is, the vertical telescopic mechanism 4 includes an inverted U-shaped bracket 41 erected on two side edges of the supporting frame 1, the upper end of the inverted U-shaped bracket 41 is connected with a supporting plate 42 parallel to the conveyor belt 2, the bottom surface of the supporting plate 42 is provided with a vertical telescopic cylinder 43, the vertical telescopic cylinder 43 is connected with a connecting plate 44, the diversion mechanism 3 is installed on the bottom surface of the connecting plate 44, and the diversion mechanism 3 is located above the conveyor belt 2, the vertical telescopic cylinder 43 moves towards the conveyor belt 2 to drive the connecting plate 44 and the diversion mechanism 3 to move towards the conveyor belt 2 until the carbon clinker enters the diversion mechanism 3, the vertical telescopic cylinder 43 is conventional and can be easily purchased in the market, the model thereof can be selected from SC100 × 200, and the device for controlling the expansion and contraction of the vertical telescopic cylinder 43 is also conventional and can be easily purchased in the market, and thus the circuit arrangement, the specific structure and the like of the vertical telescopic cylinder 43 can be easily purchased.

Preferably, the diversion mechanism 3 comprises a feeding box 34 installed on the bottom surface of the connecting plate 44, the feeding box 34 is provided with a feeding hole 341 corresponding to the conveyor belt 2, and a transition mechanism is installed in the feeding box 34 and can convey the carbon clinker into the clinker bin 6. When the vertical telescopic cylinder 43 drives the feeding box 34 to move towards the direction of the conveyor belt 2 until the carbon clinker on the conveyor belt 2 enters the feeding box 34 through the feeding hole 341, the carbon clinker on the conveyor belt 2 moves, so that the carbon clinker enters the feeding box 34 through the feeding hole 341.

Preferably, the feeding boxes 34 are installed on both sides of the bottom surface of the connecting plate 44, and both the feeding boxes 34 are connected with both sides in the clinker silo 6 through a transition mechanism. Therefore, the carbon clinker can enter the two feeding boxes 34 at the same time and then enter the clinker bin 6 from the two feeding boxes 34 through the transition mechanism, so that the efficiency of the carbon clinker entering the clinker bin 6 is improved.

Preferably, the transition mechanism comprises a transition box 32 arranged on the support frame 1, a downward inclined transition chute 33 is connected in the transition box 32 and the feeding box 34, the transition chute 33 is hinged with the transition box 32, and a feeding chute 31 is connected in the transition box 32 and the clinker bin 6. Carbon clinker entering the feeding box 34 slides down to the transition box 32 through the transition chute 33 and then enters the clinker bin 6 through the feeding chute 31, and the transition chute 33 is hinged with the transition box 32, so that when the feeding box 34 and the transition chute 33 are driven to move downwards by the vertical telescopic cylinder 43, the transition chute 33 and the transition box 32 move relatively, and the downward movement of the feeding box 34 and the transition chute 33 is not influenced. It is noted here that how the transition chute 33 is hinged to the transition box 32 is possible by means of the prior art.

Preferably, a tail end clinker bin 9 is further installed below the tail end of the conveyor belt 2, a hollow vertical material collecting barrel 8 is further installed on the tail end clinker bin 9, and the upper end of the vertical material collecting barrel 8 is located right below the tail end of the conveyor belt 2. The carbon clinker arriving at the end of the conveyor belt 2 is passed through the collecting bin 8 into the end clinker bin 9, which is only one way of collecting the carbon clinker at the end of the conveyor belt 2, but also other ways in which the collection of the end carbon clinker is possible through the prior art.

Preferably, the power mechanism comprises a rotating motor 11 mounted on the support frame 1, and the rotating motor 11 is connected with the driving roller 5 through a rotating shaft 10. The rotating motor 11 drives the rotating shaft 10 to rotate, the rotating shaft 10 drives the driving roller 5 to rotate, and the driving roller 5 drives the conveying belt 2 and the driven roller 7 to rotate. The rotating electrical machine 11 is conventional and can be easily purchased in the market, the model thereof can be selected from YT57B2R0510, and the device for controlling the rotating electrical machine 11 is also conventional and can be easily purchased in the market, so the circuit arrangement, the specific structure and the like of the rotating electrical machine 11 are not described herein again.

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. A carbon clinker conveying device is characterized in that: including support frame (1), be equipped with a plurality of ripe storehouse (6) that highly increase in proper order from left to right in support frame (1), drive roll (5) are installed to the one end of support frame (1), and driven voller (7) are installed to the other end, be connected with between drive roll (5) and driven voller (7) and be located ripe storehouse (6) top and be conveyer belt (2) of U-shaped, drive roll (5) are connected with power unit, install on support frame (1) a plurality of vertical telescopic machanism (4) with ripe storehouse (6) one-to-one, it is a plurality of all install on vertical telescopic machanism (4) and can carry the reposition of redundant personnel mechanism (3) that correspond ripe storehouse (6) with plain grog of charcoal.

2. A carbon clinker conveyor as claimed in claim 1 wherein: vertical telescopic machanism (4) are including erectting the support frame (1) both sides limit of falling U-shaped (41), the upper end of falling U-shaped support (41) is connected with backup pad (42) parallel with conveyer belt (2), vertical telescopic cylinder (43) are installed to the bottom surface of backup pad (42), be connected with connecting plate (44) on vertical telescopic cylinder (43), the bottom surface at connecting plate (44) is installed in reposition of redundant personnel mechanism (3), and reposition of redundant personnel mechanism (3) are located the top of conveyer belt (2).

3. A carbon clinker conveyor as claimed in claim 2 wherein: reposition of redundant personnel mechanism (3) are including installing feeding case (34) in connecting plate (44) bottom surface, it has feed inlet (341) that correspond with conveyer belt (2) to open on feeding case (34), install transition mechanism in feeding case (34), transition mechanism can carry charcoal clinker in the ripe storehouse (6).

4. A carbon clinker conveyor as claimed in claim 3 wherein: and the two sides of the bottom surface of the connecting plate (44) are provided with feeding boxes (34), and the two feeding boxes (34) are connected with the two sides in the cooked material bin (6) through transition mechanisms.

5. A carbon clinker conveyor device as claimed in claim 4, wherein: transition mechanism is including installing transition case (32) on support frame (1), transition chute (33) of downward sloping is connected with feeding case (34) in transition case (32), transition chute (33) are together articulated with transition case (32), be connected with feeding chute (31) in transition case (32) and ripe storehouse (6).

6. A carbon clinker conveyor as claimed in claim 1 wherein: terminal ripe storehouse (9) are still installed to the terminal below of conveyer belt (2), still install hollow vertical receipts feed cylinder (8) on terminal ripe storehouse (9), the upper end of vertical receipts feed cylinder (8) is located conveyer belt (2) end under.

7. A carbon clinker conveyor as claimed in claim 1 wherein: the power mechanism comprises a rotating motor (11) arranged on the support frame (1), and the rotating motor (11) is connected with the driving roller (5) through a rotating shaft (10).

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