RU2645050C2 - Vertical machine for receiving suspension for preventing and extinguishing fire for mining industry - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: vertical machine is proposed for obtaining a suspension for preventing and extinguishing a fire for the mining industry. The outer edge of the inner cylinder is located on the outer edge of the upper part of outer cylinder through swinging bearings and a gap between the outer wall of the inner cylinder and inner wall of the outer cylinder is provided, so that the inner cylinder can rotate relative to the outer cylinder; the impeller is located at the bottom of the inner part of the outer cylinder, bottom of the outer cylinder of concave shape, which coincided with the impeller, the impeller is connected to the belt pulley located outside the outer cylinder via the transmission shaft, and transmission shaft is placed at the bottom of the outside of the outer cylinder through the connecting saddle of shaft; side wall of the outer cylinder is supplied with the slime yield at the top and the slime output in the bottom, the vertical distance between the worm conveyor output and bottom of the outer cylinder is greater than the vertical distance between the slime yield and the bottom of outer cylinder; and slime scrapers are located at the bottom of the inner wall of the inner cylinder, and slime holes are formed in front of the slime scrapers in rotation direction. Impurities in the suspension process can be filtered without a screen filter inside the slurry machine.

EFFECT: suspension machine has the advantages of homogeneity of the suspension, low energy consumption, good sludge, a small necessary area and long service life.

6 cl, 3 dwg

Description

Technical field

The present invention relates to a suspension machine, in particular to a vertical slurrying machine for preventing and extinguishing a fire for the mining industry.

State of the art

The phenomenon of spontaneous combustion of coal dust in a coal mine is one of the causes of catastrophic fires in coal mines. One way to solve this problem is to inject the slurry into the coal mine production area in order to isolate the coal dust in the air in order to eliminate the potential threat of spontaneous combustion of coal dust. The grouting technology for preventing a fire in a coal mine involves mixing loess or fly ash, residual rock and the like with water in a certain proportion to obtain a homogeneous suspension, and then feeding it into the fire treatment area for a cementing fire prevention. The action of the suspension directly affects the reliability of preventing fires, so reliable pre-treatment to prevent fires in coal mines is sufficient and uniform mixing of water and materials. In connection with this problem, the disadvantages of existing suspension methods are as follows.

Chinese patent for utility model "Integrated suspension machine", Application No. 201020597244.X, publ. September 7, 2011, is characterized by the fact that the sprocket on the periphery of the roller is driven by an engine, for rotation, in the forward direction, loess particles and suspension rise to the top, and then they fall on the lifting unit, particle melting is accelerated by continuous extrusion and friction and then the suspension is continuously mixed. However, the type of drive limits the speed of rotation; therefore, materials and water cannot be completely mixed by the slurry machine. Chinese patent for utility model "Roller-type machine for producing a suspension for preventing and extinguishing fires in a coal mine," application No. 201220422533.5, published March 20, 2013, is characterized by the fact that it uses an inclined container design, larger impurities are filtered out from the sludge with using a volumetric sieve in the form of a circular truncated cone, which improves uniform mixing of the suspension materials in water, however, the resulting suspension structure is easily blocked when the suspension is thicker or contains olee solids impurities. The Chinese patent for an industrial design "Colloid Preparation Machine (ZLC-60)", Application No. 201130452361.7, published on July 4, 2012, is characterized by the fact that, as can be seen from the figure, the strainer fills the entire suspension container during the suspension process, such in a way that slightly improves the filtering effect; however, the strainer is easily damaged due to frequent collisions and friction of solid particles of impurities on the strainer; and at the same time, a mesh filter with a large area is used for filtering, which is difficult to clean if it is blocked. Chinese patent for utility model "Suspension machine with automatic removal of sludge", Application No. 201120469773.6, publ. July 11, 2012, characterized in that it uses a centrifugal suspension method, the preparation of a homogeneous and thin suspension is achieved by mixing water with materials using high-speed suspension blades and at the same time grinding large solid particles. However, there is a higher power consumption in this process, and the blades can be damaged by harder particles.

SUMMARY OF THE INVENTION

The present invention provides a vertical slurry machine for preventing and extinguishing fires for the mining industry, which solves the problems described in the prior art. Impurities in the suspension process can be filtered without using a strainer inside the suspension machine. The suspension machine compares favorably with uniform suspension, low power consumption, obvious effective sludge removal, small footprint and long service life.

To achieve the above objectives, a vertical suspension machine for preventing and extinguishing a production fire includes a hopper, an inner cylinder, an outer cylinder, a screw conveyor and a mixing device in which the hopper is located on the top of the inner cylinder, the inner cylinder is located in the outer cylinder, and is provided the gap between the bottom of the inner cylinder and the bottom of the outer cylinder; the outer edge of the inner cylinder is fixed to the outer edge of the upper part of the outer cylinder by swing bearings, and a gap is provided between the outer wall of the inner cylinder and the inner wall of the outer cylinder, so that the inner cylinder can rotate relative to the outer cylinder, while the filtering effect may carried out without a strainer; the mixing device contains an impeller, a transmission shaft and a belt pulley, the impeller is located on the bottom of the inner part of the outer cylinder, the bottom of the outer cylinder has a concave shape corresponding to the impeller, the impeller is connected to the belt pulley located outside the outer cylinder through the transmission shaft, the transmission shaft is located on the bottom of the outer the side of the outer cylinder through the seat of the connecting shaft, and a waterproof sealing portion is located between the transmission shaft and the outer cylinder; the side wall of the outer cylinder is provided with a sludge outlet in the upper part and a sludge outlet in the bottom, a screw conveyor is made on one side of the outer cylinder, and one end of the screw conveyor is connected to the sludge outlet using a pipeline, the vertical distance between the outlet of the screw conveyor and the bottom of the outer the cylinder is greater than the vertical distance between the outlet for the output of sludge in the bottom of the outer cylinder; and slurry scrapers are located at the bottom of the inner wall of the inner cylinder, and slurry holes are located in front of the slag scrapers in the direction of rotation.

In addition, the suspension machine also contains a pipe for supplying water, a pipe for supplying water is located in the upper part of the inner cylinder, which facilitates further mixing of materials.

In addition, a mesh filter with a loop is located on the outside of the suspension outlet; and an additional strainer performs secondary filtering, thereby solving the problem of filtering impurities that cannot be precipitated by gravity. At the same time, the mesh filter has a loop design that can be directly inserted and removed, which makes it very convenient to replace the filter mesh, as well as facilitate maintenance by personnel.

In addition, the sludge scraper is in the form of an involute. This design provides good sludge removal and a long service life.

In addition, the impeller has an internal convexity of the structure, and the convexity has the shape S. Materials and water can be uniformly mixed by high-speed rotation of such a structure, and rigid blocks and larger soil blocks are pushed to the inner wall of the inner cylinder under the action of centrifugal force, while solid blocks will be discharged using a screw conveyor, while soil blocks will be crushed by colliding with sludge scrapers at high speed and then mixed and mix again.

In addition, the suspension machine also includes a cleaning pipe with a valve, and the cleaning pipe is located at the bottom of the outer cylinder and communicates with the inner side of the outer cylinder. After the suspension is completed, during the cleaning process of the suspension machine, the purge valve is turned on so that the suspension remaining at the bottom of the impeller is easily discharged, and thus the entire suspension machine can be cleaned well.

Compared with the prior art, the suspension machine of the present invention does not require a lifting platform, and is independent of the rotational speed during the suspension process, and the problem of mixing materials and water can be solved by using a high-speed mixing apparatus. In this case, filtration is performed two times as follows: the first filtration refers to the deposition of impurity particles, and without mesh filtering is carried out using the gap between the inner and outer cylinders; and the second filtering is carried out using a mesh filter of small area, moreover, the small mesh filter has a movable plug-in pull-up design, which avoids the problems of maintenance of the mesh filter. In addition, the suspension machine is designed to collide and disperse only blocks of soil and does not destroy solid particles, thereby reducing energy consumption. In particular, by selecting a mode for combining mixing and removing sludge, the impeller rotates at high speed and mixes the suspension, impurities are close to the inner wall of the inner cylinder under the action of centrifugal force caused by high-speed mixing of the impeller, and then the inner cylinder starts to rotate the slurry scrapers at low speed , solids are continuously collected at the exit of the sludge to remove the sludge, thus resulting in a double effect, simultaneously o mixing and removing sludge; the volume of the suspension is determined by the design of the inner and outer cylinders, and the primary filtration is carried out in the gap between the inner cylinder and the outer cylinder, thus achieving the effect of meshless filtration; at the same time, the inner cylinder also buffers the suspension and sedimentation of solid particles; the slurry outlet has a mesh filter with a loop design, so that by performing secondary filtration, thus, the problem of large labor costs for personnel servicing that occurs when the mesh filter is blocked; and in addition, the vertical structure of the slurry machine provided by the invention overcomes the disadvantage that the existing slurry machine has, occupies a large production area.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 is a general view of a structure according to the present invention.

FIG. 2 is a sectional view aa in FIG. one.

FIG. 3 is an enlarged view of part B in FIG. one.

In the drawings: 1. Bunker, 2. Central control mechanism, 3. Swing bearing, 4. Suspension output, 5. Outer cylinder, 6. Inner cylinder, 7. Slurry scraper, 8. Impeller, 9. Water supply pipe, 10. Sludge outlet, 11. Screw conveyor, 12. Exhaust port, 13. Belt pulley, 14. Cleaning pipe, 15. Transmission shaft, 16. Sludge outlet and 17. Strainer.

DETAILED DESCRIPTION

The present invention is further explained below in accordance with the drawings.

As shown in FIG. 1 and 3, a vertical slurry machine for preventing and extinguishing fires for the mining industry represented by the invention comprises a hopper 1, an inner cylinder 6, an outer cylinder 5, a screw conveyor 11 and a mixing device in which the hopper 1 is located in the upper part of the inner cylinder 6 , the inner cylinder 6 is located in the outer cylinder 5, and a gap is provided between the bottom of the inner cylinder 6 and the bottom of the outer cylinder 5; the outer edge of the inner cylinder 6 is located on the outer edge in the upper part of the outer cylinder 5 by the swing bearings 3, and a gap is provided between the outer wall of the inner cylinder 6 and the inner wall of the outer cylinder 5, so that the inner cylinder 6 can rotate relative to the outer cylinder 5; so that filtering can be done without a strainer; the mixing device comprises an impeller 8, a transmission shaft 15 and a belt pulley 13, the impeller 8 is located on the bottom of the inner side of the outer cylinder 5, the bottom of the outer cylinder 5 has a concave shape and a clearance is provided that is aligned with the impeller 8, the impeller 8 is connected to the belt pulley 13 located outside the outer cylinder 5 through the transmission shaft 15, the transmission shaft 15 is mounted on the bottom of the outer side of the outer cylinder 5 with a connecting seat, and a waterproof sealing part is located between ohm transmission 15 and the outer cylinder 5; the side wall of the outer cylinder 5 is provided with a sludge exit 4 in the upper part and a sludge outlet 10 in the bottom, a screw conveyor 11 is located on one side of the outer cylinder 5, and one end of the screw conveyor 11 is connected to the sludge outlet channel 10 through a pipeline, the vertical distance between the outlet 12 of the screw conveyor 11 and the bottom of the outer cylinder 5 is greater than the vertical distance between the outlet of the sludge 4 and the bottom of the outer cylinder 5; slurry scrapers 7 are located below the inner wall of the inner cylinder 6, and slurry holes 16 are located in front of the slurry scrapers 7 in the direction of rotation.

In addition, the suspension machine also includes a water supply pipe 9, a water supply pipe 9 is located in the upper part of the inner cylinder 6; which facilitates further mixing of materials.

As an improvement of the present invention, a mesh filter 17 is introduced with a loop located on the outside of the outlet outlet of the suspension 4; a strainer 17 is added for secondary filtration and thereby solves the problem of filtering fine impurities that cannot be precipitated by gravity. At the same time, the strainer 17 has a hinge design that can be directly inserted and tensioned, which makes it very convenient to replace the strainer 17, as well as facilitating its maintenance by personnel.

As another improvement of the present invention, the distance between the outer wall of the inner cylinder 6 and the inner wall of the outer cylinder 5 can be selected in accordance with the average particle size of the impurities in the feed used in the practical suspension process. The primary effect of filtration is achieved when obtaining a suspension and without mesh filtration; and at the same time, the inner cylinder 6 also plays a buffer role, impurities cannot enter the region between the outer wall of the inner cylinder 6 and the inner wall of the outer cylinder 5, between which a distance is provided, and will sink to the bottom of the suspension machine by gravity, and the inner cylinder 6 rotates the slurry scrapers 7 in order to remove impurities to the screw conveyor 11, and then to the output from the suspension machine using the screw conveyor 11.

As an improvement of the present invention, the sludge scraper 7 is in the form of an involute. The structure has good sludge removal and long service life.

In addition, the impeller 8 has an internal structure - convex in the shape of S. Materials and water can be uniformly mixed by high-speed rotation of the structure, and solid blocks and larger soil blocks are ejected to the inner wall of the inner cylinder 6 under the action of centrifugal force, at the same time time, solid blocks are removed using a screw conveyor 11, while soil blocks will be destroyed by colliding with sludge scrapers 7 at high speed, and will mix and mix again.

In addition, the suspension machine also contains a cleaning pipe 14 with a valve, a cleaning pipe 14 is located at the bottom of the outer cylinder 5 and communicates from the inside of the outer cylinder 5. After suspension is completed, during cleaning of the machine from suspension, the valve of the cleaning pipe 14 is turned on, so so that the suspension remaining at the bottom of the impeller 8 is easily discharged, and thus the entire suspension machine can be well cleaned. The valve of the cleaning pipe 14 is turned off after cleaning, providing a seal during suspension.

When the suspension starts, the belt pulley 13 is driven by the motor to start to rotate, and the belt pulley 13 rotates the impeller 8 to start rotation by the transmission shaft 15; after the impeller 8 rotates for a certain period of time, the raw materials of the suspension are mixed in accordance with a certain proportion and introduced into the inner cylinder 6 through the hopper 1 and the water supply pipe 9 to start the suspension; at the same time, the central control mechanism 2 rotates to bring the swing bearings 3 into rotation, and thus, the inner cylinder 6 is rotated at a low speed to remove sludge. In the process of suspension, with increasing liquid level, the suspension is transported upward from the gap between the inner cylinder 6 and the outer cylinder 5; the distance between the outer wall of the inner cylinder 6 and the inner wall of the outer cylinder 5 is less than the average particle size of the impurities, so that particles of impurities within this size can pass into the part between the inner cylinder 6 and the outer cylinder 5 together with the suspension; the suspension is discharged through the outlet of the suspension, secondary filtration can be performed using the strainer 17 located at the outlet of the suspension 4, and the impurity content in the discharged suspension is reduced; and the deposited impurities enter the screw conveyor 11 through the outlet, the outlet of the sludge 10 under the action of slurry scrapers 7 and through the outlet openings of the sludge 16, and are removed using the screw conveyor 11. When starting the suspension, the feeder must be started after the bottom is filled with water in order to prevent mixing of the dry material to extend the life of the suspension machine, and the error in the ratio of water to material can be neglected due to the larger amount of suspension.

Claims (6)

1. A vertical machine for producing a suspension for preventing and extinguishing fires for the mining industry, characterized in that it includes a hopper (1), an inner cylinder (6), an outer cylinder (5), a screw conveyor (11) and a mixing device, in which hopper (1) is made in the upper part of the inner cylinder (6), the inner cylinder (6) is located in the outer cylinder (5), and a gap is provided between the bottom of the inner cylinder (6) and the bottom of the outer cylinder (5); the outer edge of the inner cylinder (6) is located on the outer edge in the upper part of the outer cylinder (5) with swing bearings (3), and a gap is provided between the outer wall of the inner cylinder (6) and the inner wall of the outer cylinder (5) so that the inner cylinder (6) can rotate relative to the outer cylinder (5); the mixing device comprises an impeller (8), a transmission shaft (15) and a belt pulley (13), the impeller (8) is located on the bottom of the inner side of the outer cylinder (5), the bottom of the outer cylinder (5) has a concave shape and has a gap for fitting the impeller (8), the impeller (8) is connected to the belt pulley (13) located outside the outer cylinder (5) through the transmission shaft (15), the transmission shaft (15) is fixed to the bottom from the outside of the outer cylinder through the shaft connecting seat, and is waterproof the sealing part is located between transmission shaft (15) and outer cylinder (5); the side wall of the outer cylinder (5) is provided with a sludge outlet (4) in the upper part and a sludge outlet (10) in the bottom, a screw conveyor (11) is located on one side of the outer cylinder (5), and one end of the screw conveyor (11) is connected to sludge outlet channel (10) by pipeline, the vertical distance between the outlet (12) of the screw conveyor (11) and the lower part of the outer cylinder (5) is greater than the vertical distance between the sludge outlet (4) and the bottom of the outer cylinder (5); slurry scrapers (7) are located at the bottom of the inner wall of the inner cylinder (6), and slurry outlet openings (16) are located in front of the slurry scrapers (7) in the direction of rotation. 2. A vertical machine for producing a suspension for preventing and extinguishing fires in the mining industry according to claim 1, characterized in that it further comprises a water supply pipe (9), a water supply pipe (9) located in the upper part of the inner cylinder. 3. A vertical machine for producing a suspension for preventing and extinguishing fires for the mining industry according to claim 1, characterized in that the strainer (17) with a loop is placed on the outside of the sludge outlet (4). 4. A vertical machine for producing a suspension for preventing and extinguishing fires for the mining industry according to claim 1, characterized in that each slurry scraper (7) is in the form of an involute. 5. A vertical machine for producing a suspension for preventing and extinguishing fires for the mining industry according to claim 1, characterized in that the impeller (8) has an internal convex structure and this convexity has the shape S. 6. A vertical machine for producing a suspension for preventing and extinguishing fires for the mining industry according to claim 1, characterized in that it further comprises a cleaning pipe (14) with a water valve, the cleaning pipe (14) located at the bottom of the outer cylinder (5) and communicates with the inside of the outer cylinder (5).

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