CN110527557B - Reaction tower feed mechanism - Google Patents

Abstract

The invention relates to the field of energy manufacturing equipment, in particular to a reaction tower feeding mechanism which comprises a machine body and a reaction tower arranged on the right side of the machine body, wherein a feeding hopper is fixedly connected above the machine body, an operation cavity is arranged in the machine body, the feeding hopper is communicated with the operation cavity through a crushing hole, a middle hole is arranged above the operation cavity, the lower wall of the operation cavity is fixedly connected with a rear plate and a front plate, a reaction cavity is arranged in the reaction tower, a middle cavity is arranged above the left side of the reaction cavity, a sliding cavity is arranged above the reaction cavity, and a lower hole is arranged on the lower wall of the sliding cavity and communicated with the reaction cavity. A feedback device is added in the reaction tower, and when the quantity of coal reaches a certain quantity, the feed inlet can be automatically reduced, so that more coal is prevented from entering the reaction tower.

Description

Reaction tower feed mechanism

Technical Field

The invention relates to the field of energy manufacturing equipment, in particular to a reaction tower feeding mechanism.

Background

The water gas is a gas formed by water vapor passing through hot coke, coal needs to be conveyed into a reaction tower for reaction in the water gas manufacturing process, general conveying equipment cannot reach the reaction tower due to the fact that the reaction tower is very high, the coal needs to be conveyed into the reaction tower by a special conveying device, a human body cannot enter a detection due to the fact that the reaction tower is high in temperature and contains toxic gas, and when the coal in the reaction tower reaches a certain amount, an early warning device is needed to control the flow of the coal, so that the problem is improved by intentionally designing a reaction tower feeding mechanism.

Disclosure of Invention

The invention aims to provide a reaction tower feeding mechanism which can overcome the defects in the prior art, so that the practicability of equipment is improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a reaction tower feeding mechanism, which comprises a machine body and a reaction tower arranged on the right side of the machine body, wherein a feeding hopper is fixedly connected above the machine body, an operation cavity is arranged in the machine body, the feeding hopper is communicated with the operation cavity through a crushing hole, a middle hole is arranged above the operation cavity, the lower wall of the operation cavity is fixedly connected with a rear plate and a front plate, a reaction cavity is arranged in the reaction tower, a middle cavity is arranged above the left side of the reaction cavity, a sliding cavity is arranged above the reaction cavity, a lower hole is arranged on the lower wall of the sliding cavity and communicated with the reaction cavity, a sliding hopper is connected in the sliding cavity in a sliding manner, an inner hole is arranged in the sliding hopper, a feeding hole for feeding is arranged above the sliding cavity, an upper cavity is communicated above the feeding hole, the rear plate and the front plate extend into the upper cavity through the middle hole, a conveying belt for conveying, a feeding belt for conveying is arranged between the rear plate and the front plate, a left motor is fixedly connected in the operation cavity, and an upper motor is fixedly connected in the upper cavity.

Furthermore, the left motor is in power connection with an upper cross shaft, the upper cross shaft is fixedly connected with an upper chain wheel, the upper cross shaft extends into the crushing hole and is fixedly connected with a crushing rod, the upper cross shaft extends to the right side of the operation cavity and is fixedly connected with a first bevel gear, the first bevel gear is meshed with a second bevel gear, the second bevel gear is fixedly connected with an upper shaft which is rotatably connected with the inner wall of the operation cavity, the upper shaft is fixedly connected with a first chain wheel, the first chain wheel is in transmission connection with a rear chain, and the rear chain is in transmission connection with a second chain wheel.

Further, the second chain wheel is fixedly connected with a lower transverse shaft which is rotatably connected with the inner wall of the operation cavity, the lower transverse shaft penetrates through the rear plate and the front plate, and a lower belt wheel is fixedly connected between the rear plate and the front plate.

Furthermore, the lower belt wheel is connected with a feeding belt in a transmission manner, the feeding belt is connected with an upper belt wheel in a transmission manner, the upper belt wheel is fixedly connected with an upper transmission shaft which is rotatably connected with the inner wall of the rear plate and the inner wall of the front plate, the upper transmission shaft extends to the rear of the rear plate and is fixedly connected with an outer chain wheel, the outer chain wheel is connected with an upper chain in a transmission manner, the upper chain is connected with a main chain wheel in a transmission manner, the main chain wheel is fixedly connected with an inner cross shaft which is in power connection with the upper belt wheel, and the feeding belt is fixedly connected.

Furthermore, the inner cross shaft is fixedly connected with an upper bevel gear, the upper bevel gear is meshed with a lower bevel gear, and the lower bevel gear is fixedly connected with a feeding rod which is rotatably connected with the lower wall of the upper cavity and extends into the sliding cavity.

Further, it is connected with left chain to go up chain wheel transmission, left side chain transmission is connected with the lower sprocket, lower sprocket fixedly connected with the left minor axis that operation chamber left side wall rotated the connection, left minor axis right-hand member fixedly connected with front bevel gear, front bevel gear meshing has back bevel gear, back bevel gear fixedly connected with the left cross axle that operation intracavity wall rotated the connection, left cross axle fixedly connected with the left band pulley that conveyer belt transmission is connected, conveyer belt transmission is connected with the right band pulley, right band pulley fixedly connected with the right cross axle that operation intracavity wall rotated the connection.

Furthermore, a sliding cover is connected in the crushing hole in a sliding mode, a sliding hole is formed in the right side of the crushing hole, the sliding cover extends into the sliding hole and is fixedly connected with a curved rod, the curved rod is fixedly connected with an inner spring fixedly connected with the left end of the sliding hole, and the curved rod extends to the right side of the operation cavity and is fixedly connected with a sliding plate slidably connected with the inner wall of the operation cavity.

Furthermore, the inner wall of the operation cavity is rotatably connected with a first cross shaft, a second cross shaft and a third cross shaft, the first cross shaft is fixedly connected with a first guide wheel, the second cross shaft is fixedly connected with a second guide wheel, the third cross shaft is fixedly connected with a third guide wheel, the left end of the sliding plate is fixedly connected with a rope, the rope bypasses the first guide wheel and the second guide wheel, and the rope bypasses the third guide wheel and penetrates through a right hole formed above the operation cavity.

Furthermore, a left spring and a right spring are fixedly connected to the lower portion of the sliding hopper, a feeler lever extending into the middle cavity is fixedly connected to the lower portion of the sliding hopper, a left hole is formed in the left end of the middle cavity, an inner short shaft is rotatably connected into the left hole and fixedly connected with a rotating plate, a lower spring fixedly connected with the lower wall of the middle cavity is fixedly connected to the right lower end of the rotating plate, and the left end of the rotating plate is fixedly connected with the rope.

The invention has the beneficial effects that: according to the reaction tower feeding mechanism provided by the invention, irregular coal blocks are firstly crushed, the crushed coal is more beneficial to reaction, the conveying capacity of the conveying belt is effectively increased through the up-and-down transmission motor, so that the coal is conveyed into the reaction tower, the feedback device is additionally arranged in the reaction tower, and when the quantity of the coal reaches a certain quantity, the feeding hole is automatically reduced, so that more coal is prevented from entering the reaction tower.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of the overall structure of a feeding mechanism of a reaction tower of the present invention.

Fig. 2 is a schematic structural view of a section a-a in fig. 1.

Fig. 3 is a schematic structural view of a section B-B in fig. 1.

Fig. 4 is a schematic structural view of a section C-C in fig. 1.

Fig. 5 is an enlarged schematic view of D in fig. 1.

Fig. 6 is an enlarged schematic view of E in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to fig. 1-6, the reaction tower feeding mechanism includes a machine body 10 and a reaction tower 36 disposed on the right side of the machine body 10, a feeding hopper 20 is fixedly connected to the upper side of the machine body 10, an operation chamber 11 is disposed in the machine body 10, the feeding hopper 20 is communicated with the operation chamber 11 through a crushing hole 22, a middle hole 32 is disposed above the operation chamber 11, a rear plate 26 and a front plate 63 are fixedly connected to the lower wall of the operation chamber 11, a reaction chamber 35 is disposed in the reaction tower 36, a middle chamber 38 is disposed above the left side of the reaction chamber 35, a sliding chamber 43 is disposed above the reaction chamber 35, a lower hole 42 disposed on the lower wall of the sliding chamber 43 is communicated with the reaction chamber 35, a sliding hopper 47 is slidably connected in the sliding chamber 43, an inner hole 48 is disposed in the sliding hopper 47, a feeding port 57 for feeding is disposed above the sliding chamber 43, an upper chamber 54 is communicated above the feeding port 57, the rear plate 26 and the front plate 63 extend into the upper chamber 54 through the middle hole 32, a conveyor belt 21 for conveying coal is arranged below the crushing hole 22, a feeding belt 29 for conveying is arranged between the rear plate 26 and the front plate 63, a left motor 17 is fixedly connected into the operation chamber 11, and an upper motor 67 is fixedly connected into the upper chamber 54.

Advantageously, the left motor 17 is powered by an upper cross shaft 19, the upper cross shaft 19 is fixedly connected with an upper chain wheel 18, the upper cross shaft 19 extends into the crushing hole 22 and is fixedly connected with a crushing rod 70, the upper cross shaft 19 extends to the right side of the operation cavity 11 and is fixedly connected with a first bevel gear 64, the first bevel gear 64 is engaged with a second bevel gear 65, the second bevel gear 65 is fixedly connected with an upper shaft 60 which is rotatably connected with the inner wall of the operation cavity 11, the upper shaft 60 is fixedly connected with a first chain wheel 61, the first chain wheel 61 is in driving connection with a rear chain 31, and the rear chain 31 is in driving connection with a second chain wheel 62.

Advantageously, the second sprocket 62 is fixedly connected with a lower transverse shaft 28 rotatably connected with the inner wall of the operating chamber 11, the lower transverse shaft 28 passing through the rear plate 26 and the front plate 63 and fixedly connected with a lower pulley 27 between the rear plate 26 and the front plate 63.

Advantageously, the lower pulley 27 is in driving connection with a feeding belt 29, the feeding belt 29 is in driving connection with an upper pulley 56, the upper pulley 56 is fixedly connected with an upper transmission shaft 55 rotatably connected with the inner walls of the rear plate 26 and the front plate 63, the upper transmission shaft 55 extends to the rear of the rear plate 26 and is fixedly connected with an outer sprocket 69, the outer sprocket 69 is in driving connection with an upper chain 53, the upper chain 53 is in driving connection with a main sprocket 68, the main sprocket 68 is fixedly connected with an inner transverse shaft 52 in power connection with the upper motor 67, and the feeding belt 29 is fixedly connected with a fixing plate 30.

Advantageously, an upper bevel gear 51 is fixedly connected to the inner transverse shaft 52, the upper bevel gear 51 is engaged with a lower bevel gear 50, and the lower bevel gear 50 is fixedly connected with a feeding rod 49 which is rotatably connected to the lower wall of the upper chamber 54 and extends into the sliding chamber 43.

Advantageously, the upper chain wheel 18 is in driving connection with a left chain 16, the left chain 16 is in driving connection with a lower chain wheel 13, the lower chain wheel 13 is fixedly connected with a left short shaft 12 which is in rotating connection with the left wall of the operation chamber 11, the right end of the left short shaft 12 is fixedly connected with a front bevel gear 59, the front bevel gear 59 is meshed with a rear bevel gear 58, the rear bevel gear 58 is fixedly connected with a left transverse shaft 14 which is in rotating connection with the inner wall of the operation chamber 11, the left transverse shaft 14 is fixedly connected with a left belt wheel 15 which is in driving connection with the conveyor belt 21, the conveyor belt 21 is in driving connection with a right belt wheel 23, and the right belt wheel 23 is fixedly connected with a right transverse shaft 24 which is.

Advantageously, a sliding cover 71 is slidably connected in the crushing hole 22, a sliding hole 72 is arranged at the right side of the crushing hole 22, the sliding cover 71 extends into the sliding hole 72 and is fixedly connected with a curved rod 66, the curved rod 66 is fixedly connected with an inner spring 73 fixedly connected with the left end of the sliding hole 72, and the curved rod 66 extends to the right side of the operation cavity 11 and is fixedly connected with a sliding plate 74 slidably connected with the inner wall of the operation cavity 11.

Advantageously, a first transverse shaft 75, a second transverse shaft 77 and a third transverse shaft 80 are rotatably connected to the inner wall of the operation cavity 11, a first guide wheel 76 is fixedly connected to the first transverse shaft 75, a second guide wheel 78 is fixedly connected to the second transverse shaft 77, a third guide wheel 79 is fixedly connected to the third transverse shaft 80, a rope 34 is fixedly connected to the left end of the sliding plate 74, the rope 34 bypasses the first guide wheel 76 and the second guide wheel 78, and the rope 34 bypasses the third guide wheel 79 and penetrates through a right hole 33 arranged above the operation cavity 11.

Advantageously, a left spring 45 and a right spring 44 are fixedly connected below the sliding hopper 47, a feeler lever 46 extending into the middle cavity 38 is fixedly connected below the sliding hopper 47, a left hole 40 is formed in the left end of the middle cavity 38, an inner short shaft 41 is rotatably connected in the left hole 40, a rotating plate 39 is fixedly connected to the inner short shaft 41, a lower spring 37 fixedly connected with the lower wall of the middle cavity 38 is fixedly connected to the right lower end of the rotating plate 39, and the left end of the rotating plate 39 is fixedly connected with the rope 34.

The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.

Sequence of mechanical actions of the whole device:

1. during operation put into hopper 20, start left side motor 17 with go up motor 67, drive go up 19 rotations of cross axle, drive simultaneously smash stick 70 and rotate and smash coal, the coal after smashing drops on conveyer belt 21.

2. At the same time, the upper chain wheel 18 is driven to rotate, so that the lower chain wheel 13 is driven to rotate, the left short shaft 12 is driven to rotate, the front bevel gear 59 is driven to rotate, the rear bevel gear 58 is driven to rotate, the left transverse shaft 14 is driven to rotate, the conveyor belt 21 is driven to move, and the coal is driven to move rightwards and fall onto the feed belt 29.

3. At the same time, the first bevel gear 64 is driven to rotate, so that the second bevel gear 65 is driven to rotate, thereby driving the upper shaft 60 to rotate, thereby driving the first chain wheel 61 to rotate, thereby driving the rear chain 31 to rotate, thereby rotating the second sprocket 62 and thus the lower cross shaft 28 and thus the lower pulley 27, and simultaneously the upper motor 67 rotates the inner cross shaft 52, thereby rotating the main sprocket 68, and thus the upper chain 53, and thus the outer sprocket 69, thereby rotating the upper transfer shaft 55 and thereby rotating the upper pulley 56, rotating the upper pulley 56 and the lower pulley 27 and thereby moving the feed belt 29, thereby driving the coal to move upwards, and the coal falls into the sliding hopper 47 through the feeding port 57.

4. Meanwhile, the inner transverse shaft 52 drives the upper bevel gear 51 to rotate, so as to drive the lower bevel gear 50 to rotate, so as to drive the feeding rod 49 to rotate, and the feeding rod 49 rotates, so as to drive coal to enter the reaction chamber 35 through the lower hole 42.

5. When the coal in the sliding hopper 47 is gradually increased, the sliding hopper 47 starts to move downwards so as to drive the feeler lever 46 to move downwards, and when the feeler lever 46 is in contact with the rotating plate 39, the rotating plate 39 drives the rope 34 to move upwards so as to drive the sliding plate 74 to move leftwards, so as to drive the curved rod 66 to move leftwards, so as to drive the sliding cover 71 to move leftwards, so that the sliding cover 71 prevents the coal in the feeding hopper 20 from entering the crushing hole 22.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (9)

1. The utility model provides a reaction tower feed mechanism, includes the reaction tower that fuselage and fuselage right side set up, its characterized in that:

a feeding hopper is fixedly connected above the machine body, an operation cavity is arranged in the machine body, the feeding hopper is communicated with the operation cavity through a crushing hole, a middle hole is formed above the operation cavity, a rear plate and a front plate are fixedly connected to the lower wall of the operation cavity, a reaction cavity is arranged in the reaction tower, a middle cavity is formed in the upper left of the reaction cavity, a sliding cavity is formed above the reaction cavity, and a lower hole is formed in the lower wall of the sliding cavity and communicated with the reaction cavity;

a sliding hopper is connected in the sliding cavity in a sliding manner, an inner hole is formed in the sliding hopper, a feeding hole for feeding is formed in the upper left side of the sliding cavity, an upper cavity is communicated with the upper portion of the feeding hole, the rear plate and the front plate extend into the upper cavity through the middle hole, and a conveying belt for conveying coal is arranged below the crushing hole;

a feeding belt for conveying is arranged between the rear plate and the front plate, a left motor is fixedly connected in the operation cavity, and an upper motor is fixedly connected in the upper cavity.

2. A reaction tower feed mechanism as in claim 1, wherein: the left motor is in power connection with an upper cross shaft, the upper cross shaft is fixedly connected with an upper chain wheel, the upper cross shaft extends into the crushing hole and is fixedly connected with a crushing rod, the upper cross shaft extends to the right side of the operation cavity and is fixedly connected with a first bevel gear, the first bevel gear is meshed with a second bevel gear, the second bevel gear is fixedly connected with an upper shaft which is rotatably connected with the inner wall of the operation cavity, the upper shaft is fixedly connected with a first chain wheel, the first chain wheel is in transmission connection with a rear chain, and the rear chain is in transmission connection with a second chain wheel.

3. A reaction tower feed mechanism as in claim 2, wherein: the second chain wheel is fixedly connected with a lower transverse shaft which is rotatably connected with the inner wall of the operation cavity, the lower transverse shaft penetrates through the rear plate and the front plate, and a lower belt wheel is fixedly connected between the rear plate and the front plate.

4. A reaction tower feed mechanism as in claim 3, wherein: the lower belt wheel is connected with a feeding belt in a transmission mode, the feeding belt is connected with an upper belt wheel in a transmission mode, the upper belt wheel is fixedly connected with an upper transmission shaft which is rotatably connected with the inner wall of the rear plate and the inner wall of the front plate, the upper transmission shaft extends to the rear of the rear plate and is fixedly connected with an outer chain wheel, the outer chain wheel is connected with an upper chain in a transmission mode, the upper chain is connected with a main chain wheel in a transmission mode, the main chain wheel is fixedly connected with an inner cross shaft which is in power connection with the upper belt wheel, and the feeding belt is.

5. A reaction tower feed mechanism as in claim 4, wherein: the inner cross shaft is fixedly connected with an upper bevel gear, the upper bevel gear is meshed with a lower bevel gear, and the lower bevel gear is fixedly connected with a feeding rod which is rotatably connected with the lower wall of the upper cavity and extends into the sliding cavity.

6. A reaction tower feed mechanism as in claim 2, wherein: cochain wheel transmission is connected with left chain, left side chain transmission is connected with the lower sprocket, lower sprocket fixedly connected with the left minor axis that operation chamber left side wall rotated the connection, left side minor axis right-hand member fixedly connected with front bevel gear, front bevel gear meshing has back bevel gear, back bevel gear fixedly connected with operation intracavity inner wall rotates the left cross axle of connecting, left side cross axle fixedly connected with the left band pulley that conveyer belt transmission is connected, conveyer belt transmission is connected with right band pulley, right band pulley fixedly connected with operation intracavity inner wall rotates the right cross axle of connecting.

7. A reaction tower feed mechanism as in claim 1, wherein: the crushing hole is internally and slidably connected with a sliding cover, the right side of the crushing hole is provided with a sliding hole, the sliding cover extends into the sliding hole and is fixedly connected with a curved bar, the curved bar is fixedly connected with an inner spring fixedly connected with the left end of the sliding hole, and the curved bar extends to the right side of the operation cavity and is fixedly connected with a sliding plate slidably connected with the inner wall of the operation cavity.

8. A reaction tower feed mechanism as in claim 7, wherein: the inner wall of the operation cavity is rotatably connected with a first cross shaft, a second cross shaft and a third cross shaft, the first cross shaft is fixedly connected with a first guide wheel, the second cross shaft is fixedly connected with a second guide wheel, the third cross shaft is fixedly connected with a third guide wheel, the left end of the sliding plate is fixedly connected with a rope, the rope bypasses the first guide wheel and the second guide wheel, and the rope bypasses the third guide wheel and penetrates through a right hole formed above the operation cavity.

9. A reaction tower feed mechanism as in claim 8, wherein: the rope-type elevator is characterized in that a left spring and a right spring are fixedly connected to the lower portion of the sliding hopper, a feeler lever extending into the middle cavity is fixedly connected to the lower portion of the sliding hopper, a left hole is formed in the left end of the middle cavity, an inner short shaft is rotatably connected to the inner left hole, a rotating plate is fixedly connected to the inner short shaft, the lower right end of the rotating plate is fixedly connected with a lower spring fixedly connected with the lower wall of the middle cavity, and the left end of the rotating plate is fixedly connected with the rope.

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