CN218809058U - Ultra-long-distance low-energy-consumption pneumatic conveying system - Google Patents

Abstract

Super remote low energy consumption pneumatic conveying system, including the booster compressor, the feed bin, the export of booster compressor and the import intercommunication of gas holder, the export intercommunication compression trachea of gas holder, the utility model discloses an at main conveying pipe and send the import intercommunication of material pipe between the material pipe, divide the material pipe anti-clogging device can add elasticity annular gasbag at the inner wall of expansion pipe, when main conveying pipe inside atmospheric pressure increases, can compress elasticity annular gasbag, when main conveying pipe inside atmospheric pressure reduces, elasticity annular gasbag can kick-back, compressed and resilience in-process at elasticity annular gasbag, the surface of elasticity annular gasbag can produce deformation, thereby let supplementary letting peel off at the raw materials on elasticity annular gasbag surface, thereby avoid the raw materials too much to pile up the port inner wall of sending the material pipe, avoid pneumatic conveying system to appear stifled pipe phenomenon easily.

Description

Ultra-long-distance low-energy-consumption pneumatic conveying system

Technical Field

The utility model relates to a conveying system, more specifically the super distance low energy consumption pneumatic conveying system that says so.

Background

Publication No.: CN204038613U discloses a super long-range carbon dioxide pneumatic conveying system, and the background art discloses: the conveying power of the pneumatic conveying system mainly depends on a fan and a double-sleeve technology, and pipes are easily blocked. In practical application main conveying pipe with divide the union coupling of material pipe to be in and divide material pipe port portion to store up the raw materials easily, because the raw materials is at the air current transportation raw materials from main conveying pipe entering branch material pipe in-process, the raw materials is commuted suddenly, the raw materials strikes the lateral wall that divides the material pipe, piles up turning askew department easily to let stifled pipe phenomenon take place more easily, air conveying system can increase the energy consumption because stifled pipe phenomenon's emergence. When the pipe blockage phenomenon occurs, in order to dredge a blocked pipeline, a pneumatic conveyor needs to be opened more frequently, and airflow cannot smoothly pass through a blocked area, so that energy consumption in the conveying process of a system can be increased, and the problem that a pneumatic conveying system is easy to block pipes is improved.

Disclosure of Invention

The utility model aims at providing an extra-long distance low energy consumption pneumatic conveying system, elasticity annular gasbag has been add at the inner wall of extension pipe, when the inside atmospheric pressure of main conveying pipe increases, can compress elasticity annular gasbag, when the inside atmospheric pressure of main conveying pipe reduces, elasticity annular gasbag can kick-back, in elasticity annular gasbag compressed and resilience in-process, the surface of elasticity annular gasbag can produce deformation, thereby let supplementary letting the raw materials attached to elasticity annular gasbag surface peel off, thereby avoid the raw materials too much to pile up the port inner wall of distributing the material pipe, avoid pneumatic conveying system to appear stifled pipe phenomenon easily, thereby reduce the energy consumption in the transportation process.

The utility model discloses a realize above-mentioned purpose, realize through following technical scheme:

super remote low energy consumption pneumatic conveyor system, including the booster compressor, the feed bin, the export of booster compressor and the import intercommunication of gas holder, the export intercommunication compression trachea of gas holder, the main conveying pipe of export intercommunication of feed bin, install several strength conveyer between compression trachea and the main conveying pipe, the import and the compression trachea intercommunication of strength conveyer, the export and the main conveying pipe intercommunication of strength conveyer, the material pipe is sent to the intercommunication several on the main conveying pipe, send the one end intercommunication feed arrangement's of material pipe feed inlet, its characterized in that: the anti-blocking device for the distributing pipe is characterized in that the anti-blocking device for the distributing pipe is arranged between the main feeding pipe and the distributing pipe and comprises an expansion pipe, one end of the expansion pipe is connected with the inside of the main feeding pipe, the other end of the expansion pipe is communicated with the distributing pipe, an auxiliary interface dredger is arranged inside the expansion pipe and comprises an elastic annular air bag, an annular cavity is formed inside the elastic annular air bag, a plurality of auxiliary rebounders are arranged inside the annular cavity and comprise a first positioning plate and a second positioning plate, the first positioning plate and the second positioning plate are respectively located on two sides of the inner wall of the elastic annular air bag, a spring and a magnetic force pusher are arranged on the first positioning plate and the second positioning plate, one end of the spring is connected with the second positioning plate, the other end of the spring is connected with the first positioning plate, the magnetic force pusher comprises an electromagnet and a magnet, the magnet is connected with one side of the first positioning plate, the electromagnet is connected with one side of the second positioning plate, and the magnetic force of the electromagnet can attract or repel the magnet.

In order to further realize the purpose of the utility model, the following technical scheme can also be adopted: magnet is neodymium iron boron strong magnet, installation elasticity qualifier between second locating plate and the first locating plate, elasticity qualifier includes elasticity rubber sleeve, and elasticity rubber sleeve's one end is connected with the second locating plate, and elasticity rubber sleeve's the other end is connected with the first locating plate, and the electro-magnet is located elasticity rubber sleeve's inside with magnet.

One side of the first positioning plate is connected with the supporting plate, and one side of the supporting plate is hinged with one side of the second positioning plate.

The shell of the bin is connected with the lifting frame, and one side, close to the bin, of the main feeding pipe is higher than the other side.

The utility model has the advantages that: the utility model discloses an add branch material pipe anti-clogging device between main conveying pipe and branch material pipe, divide material pipe anti-clogging device can add elasticity annular gasbag at the inner wall of extension pipe, when main conveying pipe inside atmospheric pressure increases, can compress elasticity annular gasbag, when main conveying pipe inside atmospheric pressure reduces, elasticity annular gasbag can kick-back, in elasticity annular gasbag compressed and resilience in-process, elasticity annular gasbag's surface can produce deformation, thereby let supplementary let adhere to the raw materials on elasticity annular gasbag surface and peel off, thereby avoid the raw materials too much to pile up the port inner wall at branch material pipe, avoid air conveying system to appear stifled pipe phenomenon easily. When the change of the air pressure in the main feeding pipe is not enough to peel off the raw materials attached to the surface of the elastic annular air bag, a person can supply alternating current to the electromagnet, so that the electromagnet attracts and repels the magnet in a reciprocating manner, the surface of the elastic annular air bag shakes, and the peeling off of the raw materials attached to the surface of the elastic annular air bag is accelerated. Therefore, the phenomenon that the interface of the main feeding pipe and the distributing material pipe is easily blocked is avoided, and the energy consumption in the conveying process is reduced.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings: fig. 1 is one of the schematic structural diagrams of the present invention;

FIG. 2 is an enlarged view of section I of FIG. 1;

FIG. 3 is an enlarged view of section II of FIG. 2;

FIG. 4 is a schematic view of the auxiliary resilient means after being pressed;

fig. 5 is a second schematic structural diagram of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings.

Example 1:

ultra-far distance low energy consumption pneumatic conveying system, as shown in fig. 1-5, including booster compressor 8, feed bin 1, the export of booster compressor 8 and the import intercommunication of gas holder 7, the export intercommunication compression trachea 3 of gas holder 7, the export intercommunication main conveying pipe 2 of feed bin 1, install several pneumatic conveyor 4 between compression trachea 3 and the main conveying pipe 2, the import and the 3 intercommunication of compression trachea of pneumatic conveyor 4, the export and the main conveying pipe 2 intercommunication of pneumatic conveyor 4, feed pipe 5 is distributed to the intercommunication several on the main conveying pipe 2, the one end intercommunication feed inlet of feed arrangement 6 of feed pipe 5 is distributed, its characterized in that: the anti-blocking device for the material distribution pipe is arranged between the main feeding pipe 2 and the material distribution pipe 5 and comprises an expansion pipe 19, one end of the expansion pipe 19 is connected with the inside of the main feeding pipe 2, the other end of the expansion pipe 19 is communicated with the material distribution pipe 5, an auxiliary interface dredger is arranged inside the expansion pipe 19 and comprises an elastic annular air bag 9, an annular cavity 11 is formed inside the elastic annular air bag 9, a plurality of auxiliary rebounders are arranged inside the annular cavity 11 and comprise a first positioning plate 10 and a second positioning plate 12, the first positioning plate 10 and the second positioning plate 12 are respectively located on two sides of the inner wall of the elastic annular air bag 9, a spring 13 and a magnetic pusher are arranged on the first positioning plate 10 and the second positioning plate 12, one end of the spring 13 is connected with the second positioning plate 12, the other end of the spring 13 is connected with the first positioning plate 10, the magnetic pusher comprises an electromagnet 14 and a magnet 15, the magnet 15 is connected with one side of the first positioning plate 10, the electromagnet 14 is connected with one side of the second positioning plate 12, and the magnetic pusher can attract or repel the electromagnet 15.

The utility model discloses an add branch material pipe anti-clogging device between main conveying pipe 2 and branch material pipe 5, divide material pipe anti-clogging device can add elasticity annular gasbag 9 at expansion pipe 19's inner wall, when the inside atmospheric pressure of main conveying pipe 2 increases, can compress elasticity annular gasbag 9, when the inside atmospheric pressure of main conveying pipe 2 reduces, elasticity annular gasbag 9 can kick-back, be compressed and resilience in-process at elasticity annular gasbag 9, the surface of elasticity annular gasbag 9 can produce deformation, thereby let the supplementary raw materials that let adhere to on elasticity annular gasbag 9 surface peel off, thereby avoid the too much piling up of raw materials to distribute the port inner wall of material pipe 5, avoid air conveying system to appear stifled pipe phenomenon easily. When the change of the air pressure in the main feeding pipe 2 is not enough to peel off the raw materials attached to the surface of the elastic annular air bag 9, a person can supply alternating current to the electromagnet 14, so that the electromagnet 14 attracts and repels the magnet 15 in a reciprocating manner, the surface of the elastic annular air bag 9 shakes, and the peeling off of the raw materials attached to the surface of the elastic annular air bag 9 is accelerated. Therefore, the phenomenon that the interface between the main feeding pipe 2 and the distributing material pipe 5 is easily blocked is avoided, and the energy consumption of the pneumatic conveyor 4 in the conveying process is reduced.

Material selection and feasibility analysis of specific implementation: the practical manufactured sample is implemented by taking the specification attached drawing as a drawing according to the proportion and the matching mode of each part in the specification attached drawing, the connection is a common connection mode such as strong adhesive connection, welding, riveting, flange connection integrated forming type connection and the like, and the thickness and the strength of a corresponding connection mode connection point can be selected without creativity according to the requirement of practical connection strength during practical manufacturing. The structure and the connection mode of booster compressor 8, feed bin 1, gas holder 7, main conveying pipe 2, pneumatic conveyor 4, branch material pipe 5, compressed air pipe 3, feed arrangement 6 etc. can adopt the structure and the connection mode of a super long-range carbon dioxide pneumatic conveying system etc. of publication number CN204038613U, and pneumatic conveyor 4 adopts the structure of a pneumatic conveyor disclosed in the utility model patent with application number 201320013741.4. One side of the elastic annular air bag 9 is communicated with an air duct which passes through the side wall of the expansion pipe 19.

Example 2:

ultra-far distance low energy consumption pneumatic conveying system, as shown in fig. 1-2, including booster compressor 8, feed bin 1, the export of booster compressor 8 and the import intercommunication of gas holder 7, the export intercommunication compression trachea 3 of gas holder 7, the export intercommunication main conveying pipe 2 of feed bin 1, install several pneumatic conveyor 4 between compression trachea 3 and the main conveying pipe 2, the import and the 3 intercommunication of compression trachea of pneumatic conveyor 4, the export and the main conveying pipe 2 intercommunication of pneumatic conveyor 4, feed pipe 5 is distributed to the intercommunication several on the main conveying pipe 2, the one end intercommunication feed inlet of feed arrangement 6 of feed pipe 5 is distributed, its characterized in that: the anti-blocking device for the material distribution pipe is arranged between the main feeding pipe 2 and the material distribution pipe 5 and comprises an expansion pipe 19, one end of the expansion pipe 19 is connected with the inside of the main feeding pipe 2, the other end of the expansion pipe 19 is communicated with the material distribution pipe 5, an auxiliary interface dredger is arranged inside the expansion pipe 19 and comprises an elastic annular air bag 9, an annular cavity 11 is formed inside the elastic annular air bag 9, a plurality of auxiliary rebounders are arranged inside the annular cavity 11 and comprise a first positioning plate 10 and a second positioning plate 12, the first positioning plate 10 and the second positioning plate 12 are respectively located on two sides of the inner wall of the elastic annular air bag 9, a spring 13 and a magnetic force pusher are arranged on the first positioning plate 10 and the second positioning plate 12, one end of the spring 13 is connected with the second positioning plate 12, the other end of the spring 13 is connected with the first positioning plate 10, the magnetic force pusher comprises an electromagnet 14 and a magnet 15, the magnet 15 is connected with one side of the first positioning plate 10, the electromagnet 14 is connected with one side of the second positioning plate 12, and the magnetic force of the electromagnet 14 can attract or repel the electromagnet 15.

Magnet 15 is neodymium iron boron strong magnet, installation elasticity qualifier between second locating plate 12 and the first locating plate 10, elasticity qualifier includes elastic rubber sleeve 17, and elastic rubber sleeve 17's one end is connected with second locating plate 12, and elastic rubber sleeve 17's the other end is connected with first locating plate 10, and electro-magnet 14 is located elastic rubber sleeve 17's inside with magnet 15.

The utility model discloses an elasticity limiter can avoid electro-magnet 14 and magnet 15 distance too far, avoids electro-magnet 14 and magnet 15 to stagger too far simultaneously to let electro-magnet 14 can utilize magnetic attraction or repelling magnet 15. When the electromagnet 14 pushes the magnet 15 away, the elastic rubber sleeve 17 can drive the electromagnet 14 and the magnet 15 to reset by using elastic force, so that the electromagnet 14 can attract the magnet 15 by using magnetic force conveniently.

Example 3:

ultra-far distance low energy consumption pneumatic conveying system, as shown in fig. 1-2, including booster compressor 8, feed bin 1, the export of booster compressor 8 and the import intercommunication of gas holder 7, the export intercommunication compression trachea 3 of gas holder 7, the export intercommunication main conveying pipe 2 of feed bin 1, install several pneumatic conveyor 4 between compression trachea 3 and the main conveying pipe 2, the import and the 3 intercommunication of compression trachea of pneumatic conveyor 4, the export and the main conveying pipe 2 intercommunication of pneumatic conveyor 4, feed pipe 5 is distributed to the intercommunication several on the main conveying pipe 2, the one end intercommunication feed inlet of feed arrangement 6 of feed pipe 5 is distributed, its characterized in that: the anti-blocking device for the material distribution pipe is arranged between the main feeding pipe 2 and the material distribution pipe 5 and comprises an expansion pipe 19, one end of the expansion pipe 19 is connected with the inside of the main feeding pipe 2, the other end of the expansion pipe 19 is communicated with the material distribution pipe 5, an auxiliary interface dredger is arranged inside the expansion pipe 19 and comprises an elastic annular air bag 9, an annular cavity 11 is formed inside the elastic annular air bag 9, a plurality of auxiliary rebounders are arranged inside the annular cavity 11 and comprise a first positioning plate 10 and a second positioning plate 12, the first positioning plate 10 and the second positioning plate 12 are respectively located on two sides of the inner wall of the elastic annular air bag 9, a spring 13 and a magnetic force pusher are arranged on the first positioning plate 10 and the second positioning plate 12, one end of the spring 13 is connected with the second positioning plate 12, the other end of the spring 13 is connected with the first positioning plate 10, the magnetic force pusher comprises an electromagnet 14 and a magnet 15, the magnet 15 is connected with one side of the first positioning plate 10, the electromagnet 14 is connected with one side of the second positioning plate 12, and the magnetic force of the electromagnet 14 can attract or repel the electromagnet 15.

One side of the first positioning plate 10 is connected with a supporting plate 16, and one side of the supporting plate 16 is hinged with one side of the second positioning plate 12.

The utility model discloses a backup pad 16 can be with the operation restriction of second locating plate 12 for the swing round with the 16 articulated shafts of backup pad to avoided electro-magnet 14 and magnet 15 to stagger far away, made things convenient for electro-magnet 14 to utilize magnetic attraction or repelling magnet 15.

The shell of the storage bin 1 is connected with a lifting frame 20, and one side of the main feeding pipe 2 close to the storage bin 1 is higher than the other side.

The utility model discloses lifting frame 20 can let feed bin 1 rise to let one side that partial main conveying pipe 2 is close to feed bin 1 be higher than the opposite side, thereby on the way in main conveying pipe 2 transportation, the raw materials can be supplementary partial region through main conveying pipe 2 under the action of gravity, thereby has reduced the energy consumption in the 2 transportation of main conveying pipe.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention.

Claims (4)

1. Super remote low energy consumption pneumatic conveyor system, including booster compressor (8), feed bin (1), the export of booster compressor (8) and the import intercommunication of gas holder (7), export intercommunication compressed air pipe (3) of gas holder (7), the export intercommunication main conveying pipe (2) of feed bin (1), install several strength conveyer (4) between compressed air pipe (3) and main conveying pipe (2), the import and compressed air pipe (3) intercommunication of strength conveyer (4), the export and the main conveying pipe (2) intercommunication of strength conveyer (4), intercommunication several feed pipe (5) are gone up in main conveying pipe (2), the feed inlet of the one end intercommunication feed arrangement (6) of feed pipe (5) is sent, its characterized in that: a material distributing pipe anti-blocking device is arranged between the main feeding pipe (2) and the material distributing pipe (5), the anti-blocking device for the material distributing pipe comprises an expansion pipe (19), one end of the expansion pipe (19) is connected with the interior of the main feeding pipe (2), the other end of the expansion pipe (19) is communicated with the material distributing pipe (5), an auxiliary interface dredging device is arranged in the expansion pipe (19), the auxiliary interface dredger comprises an elastic annular air bag (9), an annular cavity (11) is arranged in the elastic annular air bag (9), a plurality of auxiliary rebounders are arranged in the annular cavity (11), the auxiliary rebounder comprises a first positioning plate (10) and a second positioning plate (12), the first positioning plate (10) and the second positioning plate (12) are respectively positioned on two sides of the inner wall of the elastic annular air bag (9), the first positioning plate (10) and the second positioning plate (12) are provided with a spring (13) and a magnetic pusher, one end of the spring (13) is connected with the second positioning plate (12), the other end of the spring (13) is connected with the first positioning plate (10), the magnetic force pusher comprises an electromagnet (14) and a magnet (15), the magnet (15) is connected with one side of the first positioning plate (10), the electromagnet (14) is connected with one side of the second positioning plate (12), and the magnetic force of the electromagnet (14) can attract or repel the magnet (15).

2. The ultra-long range, low energy consumption pneumatic conveying system of claim 1, wherein: magnet (15) are neodymium iron boron strong magnet, and installation elasticity is injectd the ware between second locating plate (12) and first locating plate (10), elasticity is injectd the ware and is included elastic rubber sleeve pipe (17), and the one end and the second locating plate (12) of elastic rubber sleeve pipe (17) are connected, and the other end and the first locating plate (10) of elastic rubber sleeve pipe (17) are connected, and electro-magnet (14) and magnet (15) are located the inside of elastic rubber sleeve pipe (17).

3. The ultra-long-range low-energy consumption pneumatic conveying system of claim 1, wherein: one side of the first positioning plate (10) is connected with a supporting plate (16), and one side of the supporting plate (16) is hinged with one side of the second positioning plate (12).

4. The ultra-long range, low energy consumption pneumatic conveying system of claim 1, wherein: the shell of the storage bin (1) is connected with the lifting frame (20), and one side, close to the storage bin (1), of the main feeding pipe (2) is higher than the other side.

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