CN115182454A

CN115182454A - Totally closed building structure in rack membrane structure coal yard

Info

Publication number: CN115182454A
Application number: CN202210643107.2A
Authority: CN
Inventors: 时斌; 王海彬; 王越; 李杨; 王刚
Original assignee: Dalian Power Plant of Huaneng International Power Co Ltd
Current assignee: Dalian Power Plant of Huaneng International Power Co Ltd
Priority date: 2022-06-09
Filing date: 2022-06-09
Publication date: 2022-10-14
Anticipated expiration: 2042-06-09
Also published as: CN115182454B

Abstract

The invention discloses a net rack membrane structure coal yard totally-enclosed building structure, which relates to the field of building engineering and comprises a foundation, a net rack, a cable membrane and a concrete pier stud, wherein a recovery assembly is arranged on the foundation and comprises a shell, a first rotating shaft and a second rotating shaft are arranged in the shell, the first rotating shaft is connected with a support and filter cloth, the second rotating shaft is connected with a knocking rod, and an elastic sheet is connected in the knocking rod. According to the invention, through the arrangement of the recovery assembly, the output ends of the first motors respectively drive the first rotating shaft and the second rotating shaft to rotate after being started, the first rotating shaft drives the plurality of filter cloths to rotate after rotating, the coal dust in the air flow is collected after the plurality of filter cloths rotate, meanwhile, the coal dust can be reduced from entering the cabinet body, the second rotating shaft drives the plurality of rapping bars to rotate opposite to the filter cloths after rotating, and the plurality of rapping bars contact with the filter cloths after rotating to rap the coal dust on the filter cloths, so that the coal dust in a coal yard can be conveniently recovered and reused, the resource waste can be reduced, and the dust pollution in the coal yard can be inhibited.

Description

Totally closed building structure in rack membrane structure coal yard

Technical Field

The invention relates to the field of constructional engineering, in particular to a totally-enclosed building structure of a net rack membrane structure coal yard.

Background

In order to prevent dust emission from polluting the environment due to the pulverized coal on the coal during storage of a large amount of coal, the coal is generally stacked in a sealed coal yard for storage.

The existing coal yard mainly has two kinds of building modes, the first kind is air film building and steel frame membrane building, the air film needs to continuously input air into the coal yard through a plurality of air-blowers to drive the air film to expand, though the electric quantity that the egg consumes is more when building the speed is faster, the air film structure building life is shorter simultaneously, therefore mainly be used for building interim coal yard, and steel frame membrane structure building passes through steel frame construction as supporting mechanism, later fix the membrane on the rack through the cable tape, long service life shock resistance is good, therefore the rack membrane structure application is more.

The totally enclosed structure of current net rack membrane structure coal yard is more at the inside buggy of during operation, consequently, the raise dust pollution is comparatively serious, the less staff of buggy granule is difficult to clear up, and the buggy still can burn as fuel, the buggy resource is difficult to retrieve and recycles extravagantly more, and the totally enclosed structure of current net rack membrane structure coal yard leakproofness is better, but external moisture gets into along with coal easily when inputing coal in the coal yard, the leakproofness of net rack membrane structure is good then leads to the moisture in the coal yard to be difficult to discharge, thereby lead to coal to wet the change to glue easily, block up swift current material pipe easily when coal is sent out.

Disclosure of Invention

Based on the technical problems, the invention aims to provide a totally-enclosed building structure of a grid-film structure coal yard, which aims to solve the technical problems that pulverized coal is inconvenient to recycle and coal is easy to damp and become sticky.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a totally closed building structure in rack membrane structure coal yard, includes ground, rack, cable membrane and concrete pier stud, be provided with on the ground and retrieve the subassembly, it includes the shell to retrieve the subassembly, be provided with first pivot and second pivot in the shell, be connected with support and filter cloth in the first pivot, be connected with the rapping bar in the second pivot, the rapping bar in-connection has the shell fragment, be connected with bellows and compensator on the shell, install the discharge valve on bellows and the compensator, be connected with the closing plate on the discharge valve, be provided with the dehumidification subassembly on the ground, the dehumidification subassembly includes the cabinet body, the internal connection of cabinet has the shower nozzle, the internal connection of cabinet has first filter screen, be connected with the clearance frame on the first filter screen, the internal connection of cabinet has places the case, place and install the second filter screen on the case.

Through adopting above-mentioned technical scheme, it is rotatory that the output drives first pivot and second pivot respectively to retrieve the subassembly after through a plurality of first motors start, it rotates to drive a plurality of filter cloths after the rotation of first pivot, a plurality of filter cloths rotate the back pulverized coal in the air current and collect, simultaneously can reduce the pulverized coal and get into the cabinet body, it rotates with the filter cloth in opposite directions to drive a plurality of rapping bars after the rotation of second pivot, thereby a plurality of rapping bars contact with the filter cloth after rotating and strike the pulverized coal shake off on the filter cloth, the dehumidification subassembly passes through the air current and upwards flows and places the case and contact with the active alumina in the case of placing, later absorb the moisture in the air current through active alumina, later the air current passes muffler and draught fan and gets back to the coal yard.

Further, the concrete pier is located the ground top, the rack is located the concrete pier, the cable membrane is located the rack, install the environment monitor in the rack.

Through adopting above-mentioned technical scheme, steel frame membrane structure building passes through steel frame construction as supporting mechanism, later fixes the membrane on the rack through the cable tie, and long service life shock resistance is good, and the leakproofness is better avoids having toxic gas to reveal simultaneously.

Further, the rack in-connection has the intake pipe that is linked together with the shell, the rack in-connection has the muffler that is linked together with the cabinet body, be connected with the closed tube between shell and the cabinet body, install two draught fans that are used for carrying the air current on the ground, and two the draught fan is linked together with intake pipe and muffler respectively.

Through adopting above-mentioned technical scheme, the induced draft fan is started the back and is taken out the air in the coal yard and form the air current, makes the air current pass through intake pipe, shell, closed tube, cabinet body in proper order simultaneously, later makes the air current get back to in the coal yard through the muffler.

Furthermore, a plurality of first motors for driving the first rotating shaft to rotate and a plurality of first motors for driving the second rotating shaft to rotate are installed on the shell, and a hydraulic cylinder for driving the sealing plate to move up and down is installed on the shell.

Through adopting above-mentioned technical scheme, a plurality of first motors start the back output and drive first pivot and second pivot rotation respectively, drive a plurality of filter cloth rotations after the first pivot is rotatory, collect the buggy in the air current after a plurality of filter cloth rotate, can reduce the buggy simultaneously and get into the cabinet body, drive a plurality of rapping bars and filter cloth rotation in opposite directions after the second pivot is rotatory, thereby a plurality of rapping bars contact with the filter cloth after rotating and rap the buggy on the filter cloth and shake off.

Further, install the second motor that is used for driving the clearance frame rotatory on the cabinet body, install the water pump that is used for inputing water to the shower nozzle on the cabinet body, be connected with three sealing door on the cabinet body.

Through adopting above-mentioned technical scheme, through the shower nozzle with water blowout after the water pump starts, thereby water contacts with the buggy in the air current and makes the buggy absorb water and become heavy whereabouts and fall on first filter screen, and all the other water passes first filter screen and is taken out by the water pump again to avoid the buggy to get into and place the incasement, the rotatory washing away to first filter screen clearance cooperation water of output drive clearance frame avoids first filter screen to be blockked up after the second motor starts.

Furthermore, support, filter cloth, rapping bar and shell fragment all are provided with a plurality ofly, and are a plurality of support, filter cloth, rapping bar and shell fragment all are ring array form and distribute, and are a plurality of rapping bar all adopts rubber materials to make and forms.

Through adopting above-mentioned technical scheme, drive a plurality of filter cloths after the rotation of first pivot and rotate, a plurality of filter cloths rotate the back and collect the buggy in the air current, can reduce the buggy simultaneously and get into the cabinet body, and the rotation of second pivot drives a plurality of rapping bars and filter cloth and rotates in opposite directions, thereby a plurality of rapping bars contact with the filter cloth after rotating and strike the buggy on the filter cloth and shake off.

Further, clearance frame and cabinet body swing joint, just clearance frame and first filter screen looks adaptation.

Through adopting above-mentioned technical scheme, thereby water contacts the buggy in with the air current and makes the buggy absorb water and become heavy whereabouts and fall on first filter, and all the other water passes first filter screen and is taken out again by the water pump to avoid the buggy to get into and place the incasement, the rotatory washing away of first filter screen clearance cooperation water of output drive clearance frame avoids first filter screen to be blockked up after the second motor starts.

Further, place case and cabinet body swing joint, just it is provided with a plurality ofly to place the case, it is a plurality of place and seted up the through-hole between the case.

Through adopting above-mentioned technical scheme, the air current flows upwards and passes and place the case and place the active alumina in the case and contact, later absorbs the moisture in the air current through active alumina, later the air current passes muffler and draught fan and gets back to in the coal yard.

In summary, the invention mainly has the following beneficial effects:

1. according to the invention, through the arrangement of the recovery assembly, the output ends of a plurality of first motors after being started respectively drive the first rotating shaft and the second rotating shaft to rotate, the first rotating shaft drives a plurality of filter cloths to rotate after rotating, the plurality of filter cloths collect coal dust in airflow after rotating, meanwhile, the coal dust can be reduced from entering the cabinet body, the second rotating shaft drives a plurality of knocking rods to rotate opposite to the filter cloths, the plurality of knocking rods contact with the filter cloths after rotating to knock the filter cloths to shake off the coal dust on the filter cloths, the knocking rods and the elastic sheets are stressed and bent at the same time, then the knocking rods recover the original shapes through the elastic sheets, the hydraulic cylinders drive the sealing plates to move downwards to cover the containers to avoid raising dust after being started, and the discharge valves are opened to enable the coal dust in the coal yard to enter the containers, so that the coal dust in the coal yard can be conveniently recovered and reused, the resource waste is reduced, and the raising pollution in the coal yard is inhibited;

2. according to the invention, through the arrangement of the dehumidifying component, water is sprayed out through the spray nozzle after the water pump is started, the water is contacted with the coal dust in the air flow, so that the coal dust absorbs water and becomes heavy and falls onto the first filter screen, the rest water passes through the first filter screen and is pumped out again by the water pump, so that the coal dust is prevented from entering the placing box, after the second motor is started, the output end drives the cleaning frame to rotate to wash the first filter screen to clean the matched water, so that the first filter screen is prevented from being blocked, then the air flow flows upwards to pass through the placing box to be contacted with the active alumina in the placing box, then the moisture in the air flow is absorbed by the active alumina, and then the air flow passes through the air return pipe and the induced draft fan to return to the coal yard, so that the moisture in the coal yard is conveniently removed, and the coal is prevented from being wetted and becoming sticky.

Drawings

FIG. 1 is a schematic cross-sectional view of a membrane of the invention;

FIG. 2 is a side sectional view of the housing of the present invention;

FIG. 3 is a schematic sectional view of the cabinet according to the present invention;

figure 4 is a schematic view of the structure of a filter cloth according to the invention,

fig. 5 is a schematic view of the structure of the tapping rod of the present invention.

In the figure: 1. a foundation; 2. a net frame; 3. a cord membrane; 4. an environmental monitor; 5. concrete pier studs; 6. a recovery assembly; 601. a housing; 602. an air inlet pipe; 603. an air return pipe; 604. a first motor; 605. a first rotating shaft; 606. a support; 607. filtering cloth; 608. a second rotating shaft; 609. a tapping stick; 610. a sealing plate; 611. a discharge valve; 612. a bellows and a compensator; 613. a hydraulic cylinder; 614. a spring plate; 7. a dehumidification assembly; 701. a cabinet body; 702. a sealing door; 703. a second motor; 704. cleaning the rack; 705. a water pump; 706. a spray head; 707. a first filter screen; 708. placing the box; 709. a second filter screen; 710. a communicating pipe.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention and are not to be construed as limiting the present invention.

The following describes an embodiment of the present invention based on its overall structure.

A totally-enclosed building structure with a net rack and membrane structure for a coal yard is shown in figures 1, 2, 3, 4 and 5 and comprises a foundation 1, a net rack 2, a cable membrane 3 and concrete piers 5, wherein a recovery assembly 6 is arranged on the foundation 1.

Specifically, the recovery assembly 6 comprises a housing 601, two sides of the bottom of the housing 601 are connected with supporting legs, a first rotating shaft 605 and a second rotating shaft 608 are arranged in the housing 601, the first rotating shaft 605 is connected with a support 606 and a filter cloth 607, the second rotating shaft 608 is connected with a knocking rod 609, the knocking rod 609 is connected with a spring plate 614, the housing 601 is connected with a corrugated pipe and a compensator 612, the corrugated pipe and the compensator 612 is provided with a discharge valve 611, and the discharge valve 611 is connected with a sealing plate 610.

The foundation 1 is provided with a dehumidifying component 7.

Specifically, dehumidification subassembly 7 includes the cabinet body 701, and cabinet body 701 bottom both sides all are connected with the supporting legs, and cabinet body 701 in-connection has shower nozzle 706, and shower nozzle 706 one side is connected with the valve, and cabinet body 701 in-connection has first filter screen 707, is connected with clearance frame 704 on the first filter screen 707, and cabinet body 701 in-connection has places case 708, places and installs second filter screen 709 on the case 708, conveniently gets rid of the moisture in the coal yard in order to avoid coal to wet and become sticky.

Referring to fig. 1, in the above embodiment, the concrete pier 5 is located at the top of the foundation 1, the rack 2 is located on the concrete pier 5, the cable membrane 3 is located on the rack 2, the environment monitor 4 is installed in the rack 2, the air inlet pipe 602 communicated with the housing 601 is connected in the rack 2, the air return pipe 603 communicated with the cabinet 701 is connected in the rack 2, the communicating pipe 710 is connected between the housing 601 and the cabinet 701, two induced draft fans 711 for delivering air flow are installed on the foundation 1, and the two induced draft fans 711 are respectively communicated with the air inlet pipe 602 and the air return pipe 603, so that the air flow is formed, the pulverized coal in the coal yard can be conveniently recovered, and moisture in the coal yard can be conveniently removed.

Referring to fig. 1, 2, 4 and 5, in the above embodiment, a plurality of first motors 604 for driving a first rotating shaft 605 to rotate and a plurality of second rotating shafts 608 to rotate are installed on a housing 601, a hydraulic cylinder 613 for driving a sealing plate 610 to move up and down is installed on the housing 601, a plurality of brackets 606, filter cloth 607, rapping bars 609 and elastic pieces 614 are provided, the plurality of brackets 606, the filter cloth 607, the rapping bars 609 and the elastic pieces 614 are distributed in an annular array, and the plurality of rapping bars 609 are made of rubber materials, so that coal dust in a coal yard can be recycled, the waste of resources can be reduced, and dust pollution in the coal yard can be inhibited.

Referring to fig. 1 and 3, in the above embodiment, a second motor 703 for driving a cleaning frame 704 to rotate is installed on a cabinet body 701, a water pump 705 for inputting water into a spray head 706 is installed on the cabinet body 701, three sealing doors 702 are connected to the cabinet body 701, the cleaning frame 704 is rotatably connected to the cabinet body 701 through a rotating shaft, the cleaning frame 704 is adapted to a first filter screen 707, a placing box 708 is detachably connected to the cabinet body 701, a plurality of placing boxes 708 are provided, through holes are formed among the placing boxes 708, and moisture in a coal yard can be removed conveniently to avoid the coal from being affected with damp and becoming sticky.

The implementation principle of the embodiment is as follows: firstly, a worker places a container under a sealing plate 610, takes out a placing box 708, pours active aluminum oxide into the placing box 708, then lays the active aluminum oxide flat, puts the placing box 708 back into a cabinet body 701, meanwhile enables air flow to pass through the placing box 708 through the arrangement of a second filter screen 709, avoids loss of the active aluminum oxide, then opens a valve on a spray head 706 to input water into the cabinet body 701, then opens a draught fan 711, a first motor 604 and a second motor 703, the draught fan 711 pumps out air in a coal yard to form air flow after being started, meanwhile enables the air flow to sequentially pass through an air inlet pipe 602, a shell 601, a communicating pipe 710 and the cabinet body 701, and then enables the air flow to return to the coal yard through an air return pipe 603;

recovering pulverized coal, after the first motors 604 are started, the output ends respectively drive the first rotating shaft 605 and the second rotating shaft 608 to rotate, the first rotating shaft 605 drives the plurality of filter cloths 607 to rotate, the plurality of filter cloths 607 rotate to collect the pulverized coal in the airflow, meanwhile, the pulverized coal can be prevented from entering the cabinet body 701, the second rotating shaft 608 rotates to drive the plurality of rapping bars 609 to rotate opposite to the filter cloths 607, the plurality of rapping bars 609 rotate to contact with the filter cloths 607 to rap the filter cloths 607 so as to shake off the pulverized coal on the filter cloths 607, meanwhile, the rapping bars 609 and the elastic sheets 614 are stressed and bent, then, the rapping bars 609 recover to the original shape through the elastic sheets 614, when the pulverized coal needs to be dumped, a worker sequentially opens the hydraulic cylinder 613 and the discharge valve 611, after the hydraulic cylinder 613 is started, the output end drives the sealing plate 610 to move downwards to cover the container through the piston rod to prevent dust, the discharge valve 611 is opened to enable the pulverized coal to enter the container, and then the worker sequentially closes the discharge valve 611 and the hydraulic cylinder 613 to finish discharging;

moisture is removed, water is sprayed out through the spray head 706 after the water pump 705 is started, the water is in contact with the coal dust in the air flow, so that the coal dust absorbs water and becomes heavy and falls onto the first filter screen 707, the rest water passes through the first filter screen 707 and is pumped out again by the water pump 705, the coal dust is prevented from entering the placing box 708, the output end of the second motor 703 is started, the cleaning frame 704 is driven to rotate to flush the water matched with the first filter screen 707 so as to prevent the first filter screen 707 from being blocked, then the air flow flows upwards to pass through the placing box 708 to be in contact with the activated alumina in the placing box 708, and then the moisture in the air flow is absorbed through the activated alumina;

the cleaning cabinet body, when the cabinet body 701 is cleaned, the three sealing doors 702 are opened to discharge sewage and pulverized coal after all electrical appliances are closed by workers, and meanwhile, the workers can clean the inside of the cabinet body 701 conveniently.

Although embodiments of this invention have been shown and described, it is to be understood that such embodiments are merely illustrative of and not restrictive on the broad invention, and that any one or more of the described features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and that modifications, substitutions, and variations that do not materially contribute to the novel teachings of this invention may be made by those skilled in the art after reading this disclosure without departing from the principles and spirit of this invention, but within the scope of the appended claims.

Claims

1. The utility model provides a totally closed building structure in rack membrane structure coal yard, includes ground (1), rack (2), cable membrane (3) and concrete pier stud (5), its characterized in that: be provided with recovery subassembly (6) on ground (1), recovery subassembly (6) are including shell (601), be provided with first pivot (605) and second pivot (608) in shell (601), be connected with support (606) and filter cloth (607) on first pivot (605), be connected with rapping bar (609) on second pivot (608), rapping bar (609) in-connection has shell fragment (614), be connected with bellows and compensator (612) on shell (601), install discharge valve (611) on bellows and compensator (612), be connected with closing plate (610) on discharge valve (611), be provided with dehumidification subassembly (7) on ground (1), dehumidification subassembly (7) are including the cabinet body (701), cabinet body (701) in-connection has shower nozzle (706), cabinet body (701) in-connection has first filter screen (707), be connected with clearance frame (704) on first filter screen (707), cabinet body (701) in-connection has placing case (708), place and install second filter screen (709) on the case (709).

2. The totally-enclosed building structure of a rack-and-membrane structure coal yard according to claim 1, characterized in that: concrete pier stud (5) are located ground (1) top, rack (2) are located concrete pier stud (5), cable membrane (3) are located rack (2), install environmental monitor (4) in rack (2).

3. The totally-enclosed building structure of a rack-and-membrane structure coal yard according to claim 1, characterized in that: the intake pipe (602) that rack (2) in-connection is linked together with shell (601), rack (2) in-connection has muffler (603) that is linked together with the cabinet body (701), be connected with closed tube (710) between shell (601) and the cabinet body (701), install two draught fans (711) that are used for air current of carrying on ground (1), and two draught fan (711) are linked together with intake pipe (602) and muffler (603) respectively.

4. The totally-enclosed building structure of a rack-and-membrane structure coal yard according to claim 3, characterized in that: a plurality of first motors (604) for driving a first rotating shaft (605) to rotate and a second rotating shaft (608) to rotate are mounted on the shell (601), and a hydraulic cylinder (613) for driving the sealing plate (610) to move up and down is mounted on the shell (601).

5. The totally-enclosed building structure of a rack-and-membrane structure coal yard according to claim 3, characterized in that: the cleaning device is characterized in that a second motor (703) used for driving a cleaning frame (704) to rotate is installed on the cabinet body (701), a water pump (705) used for inputting water into a spray head (706) is installed on the cabinet body (701), and three sealing doors (702) are connected to the cabinet body (701).

6. The totally-enclosed building structure of a rack membrane structure coal yard according to claim 1, characterized in that: the support (606), the filter cloth (607), the knocking rod (609) and the elastic sheet (614) are all provided with a plurality of supports (606), the filter cloth (607), the knocking rod (609) and the elastic sheet (614) are distributed in an annular array shape, and the knocking rod (609) is made of rubber materials.

7. The totally-enclosed building structure of a rack-and-membrane structure coal yard according to claim 1, characterized in that: the cleaning frame (704) is movably connected with the cabinet body (701), and the cleaning frame (704) is matched with the first filter screen (707).

8. The totally-enclosed building structure of a rack membrane structure coal yard according to claim 1, characterized in that: the placing boxes (708) are movably connected with the cabinet body (701), the placing boxes (708) are multiple, and through holes are formed among the placing boxes (708).