CN214521135U - High-efficient dust pelletizing system of stirring building - Google Patents

Abstract

The utility model relates to a high-efficient dust pelletizing system of stirring building relates to the technical field of concrete production. It is equipped with the building body of stirring host computer, the ventilation person in charge who has the air pump including inside and is used for collecting the dust collection storehouse of dust, the inlet end that the person in charge that ventilates is connected with a plurality of interval arrangement's ventilation branch pipe, and the person in charge that ventilates passes through ventilation branch pipe and building body intercommunication, the person in charge that ventilates give vent to anger end and dust collection storehouse upper end intercommunication, the inside dust adsorption equipment that is equipped with in dust collection storehouse, dust adsorption equipment top are connected with the vibrting spear, and the vibrting spear top is connected with and installs the outside vibrating device in dust collection storehouse top, and the dust is collected the storehouse lower extreme and is connected with the landing leg for the funnel type, and the bottom in dust collection storehouse is connected with installs the collection dirt case subaerial. The utility model has the advantages of high dust removal efficiency.

Description

High-efficient dust pelletizing system of stirring building

Technical Field

The utility model belongs to the technical field of the technique of concrete production and specifically relates to a high-efficient dust pelletizing system of stirring building is related to.

Background

The mixing plant is mainly used for producing concrete and mainly comprises five systems such as a mixing host machine, a material weighing system, a material conveying system, a material storage system, a control system and the like and other accessory facilities. At present, a large amount of dust exists in the working process of the existing concrete mixing plant, and the dust is mainly divided into the dust generated in the feeding process of an inclined belt to an intermediate storage bin, the dust generated in the feeding process of the storage bin to a main mixer and the dust generated by a measuring hopper.

Retrieving a chinese patent with publication number CN207058930U now discloses a dust removal system for mixing plant, including stirring host and dust remover, be provided with between stirring host and the dust remover with the exit linkage's of dust remover dust catcher collecting hopper, connect at the pneumatic butterfly valve of dust remover collecting hopper below, connect the dust remover discharge opening in dust remover collecting hopper exit, the stirring host is connected with the stirring host dust removal mouth, the dust remover discharge opening with the stirring host dust removal mouth communicates through first trachea, is provided with the dust collection case between dust remover collecting hopper and the dust remover, is external to have the second trachea between dust remover discharge opening and dust collection case.

In view of the above-mentioned related technical solutions, the inventor believes that the above-mentioned dust removal system is suitable for removing dust generated by the stirring main machine, and cannot remove dust in the whole stirring building, so there is a need for improvement.

SUMMERY OF THE UTILITY MODEL

Not enough to the correlation technique existence, the utility model aims at providing a high-efficient dust pelletizing system of stirring building has the higher advantage of dust collection efficiency.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a high-efficient dust pelletizing system of stirring building, is equipped with the building body of stirring host computer, the ventilation person in charge who has the air pump including inside, and is used for collecting the dust collection storehouse of dust, the inlet end that the person in charge of ventilating is connected with a plurality of interval arrangement's ventilation branch pipe, and the person in charge of ventilating passes through ventilation branch pipe and building body intercommunication, the end of giving vent to anger that ventilates the person in charge and dust collection storehouse upper end intercommunication, the dust is collected the inside dust adsorption equipment that is equipped with in storehouse, and the dust adsorption equipment top is connected with the vibrting spear, and the vibrting spear top is connected with and installs the outside vibrating device in dust collection storehouse top, and the dust is collected the storehouse lower extreme and is connected with the landing leg for the funnel type, and the bottom in dust collection storehouse is connected with installs the collection dirt case subaerial.

By adopting the technical scheme, the plurality of the ventilation branch pipes are respectively arranged at different positions of the building body and respectively adsorb dust at different positions in the building body, so that the dust adsorption effect is better and the dust removal efficiency is higher; simultaneously, the ventilation is responsible for and is sent into to the dust collection storehouse with the dust that comes from the ventilation branch pipe in, and the dust collection storehouse falls into to the case that gathers dust after collecting the dust in, is carried away by the case that gathers dust, and like this, this application has just reached the purpose of removing dust.

Optionally, the plurality of ventilation branch pipes are divided into an upper ventilation pipe communicated with the upper end of the building body and a lower ventilation pipe communicated with the lower end of the building body, the upper ventilation pipe and the lower ventilation pipe are multiple, and the upper ventilation pipe and the lower ventilation pipe are communicated with the ventilation main pipe.

Through adopting above-mentioned technical scheme, this application can not only clear away the dust of stirring building upper end, can also clear away the dust of stirring building lower extreme, and like this, the ability of clearing away the dust of this application can obtain very big enhancement, has realized the cleaing away to the dust.

Optionally, a turbo fan is installed in the upper ventilation pipe and/or the lower ventilation pipe.

Through adopting above-mentioned technical scheme, turbofan can further strengthen the dust absorption ability of this application to further strengthen the dust collecting ability of this application.

Optionally, a filter screen is connected to the feed inlet of the lower vent pipe.

Through adopting above-mentioned technical scheme, the filter screen can further filter the material that gets into in the ventilation pipe down, prevents that the debris that the volume increases from getting into in the ventilation pipe down and causing the filter screen jam to the structural stability of this application has been increased.

Optionally, the bottom of the dust collecting bin is connected with a discharge pipe, and a pneumatic butterfly valve is installed on the discharge pipe.

Through adopting above-mentioned technical scheme, the discharging pipe can carry out certain guide effect to the dust, and pneumatic butterfly valve can open or close dust and collect the storehouse to let the dust collection ability in dust collection storehouse better.

Optionally, a settling area for settling dust is arranged in the dust collection box, a discharge hole communicated with the settling area is formed in the bottom of the dust collection chamber, a scraper corresponding to the discharge hole is vertically arranged at the bottom of the dust collection chamber, a motor is fixed on the inner wall of the dust collection chamber, an output shaft of the motor faces the discharge hole, a dust collection screw rod is connected to an output shaft of the motor, and the dust collection screw rod penetrates through the scraper and is in threaded connection with the scraper.

Through adopting above-mentioned technical scheme, the scraper blade can strike off the dust of collecting the dirt incasement to let people can be convenient come out with the dust propelling movement of collecting the dirt incasement.

Optionally, the bottom of the scraper is provided with a shovel plate, and the shovel plate is arranged along the length direction of the scraper.

Through adopting above-mentioned technical scheme, the shovel board can let people more convenient send into the dust that gathers dust the incasement to the discharge gate, and like this, this application has also realized cleaing away of dust.

Optionally, an inclined surface is arranged at one end of the shovel plate far away from the scraper, and the inclined surface inclines towards the discharge hole.

Through adopting above-mentioned technical scheme, the inclined plane can let this application convenient propelling movement material more, and it is more convenient to let this application use.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the dust collection device is mainly characterized in that a plurality of ventilation pipelines (ventilation branch pipes) are arranged on a building body of the stirring building before improvement, and dust collection processing of the stirring building at different positions is realized through a plurality of different ventilation pipelines, so that the dust collection capacity of the dust collection device is greatly enhanced;

2. this application has still collected the storehouse and has collected the dust case to the dust that is used for collecting the dust and improved to let this application dust collection efficiency be higher, pollute littleer.

Drawings

FIG. 1 is a schematic structural view of a high-efficiency dust removal system of a mixing plant of the present invention;

FIG. 2 is a schematic view in full section in the main viewing direction;

fig. 3 is a schematic view of a connection structure of the dust collection box and the dust collection bin.

Reference numerals: 1. a building body; 2. a ventilation main pipe; 21. an air pump; 3. a dust collection bin; 31. a discharge pipe; 32. a pneumatic butterfly valve; 4. a ventilation branch pipe; 41. an upper vent pipe; 42. a lower vent pipe; 43. a turbo fan; 44. a filter screen; 5. a dust adsorption device; 6. a vibrating rod; 7. a vibrating device; 8. a support leg; 9. a dust collection box; 91. a settling zone; 92. a discharge port; 93. a squeegee; 94. a motor; 95. a dust collection screw rod; 96. a shovel plate; 97. an inclined surface.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the application provides an efficient dedusting system for a mixing plant, which comprises a building body 1 with a mixing main machine arranged inside, a ventilation main pipe 2 with an air pump 21, and a dust collecting bin 3 for collecting dust. The dust collection device is mainly characterized in that a plurality of ventilation pipelines (ventilation branch pipes 4) are arranged on a building body 1 of the mixing building before improvement, and dust collection processing of different positions of the mixing building is realized through a plurality of different ventilation pipelines, so that the dust collection capacity of the dust collection device is greatly enhanced; on this basis, this application has still collected storehouse 3 and dust collection box 9 and has improved the dust for collecting the dust to let this application collection dust efficiency higher, pollute littleer.

In actual work, the inlet end that ventilates and be responsible for 2 is connected with a plurality of interval arrangement's ventilation branch pipe 4, and a plurality of ventilation branch pipes 4 install building body 1's different positions respectively, can adsorb the dust of different positions departments in building body 1 respectively, and the ventilation is responsible for 2 and is linked together through ventilation branch pipe 4 and building body 1, ventilates and be responsible for giving vent to anger of 2 and hold and dust collection storehouse 3 upper ends intercommunication, and like this, this application adsorbs the dust effect better, and dust collection efficiency is higher.

As shown in fig. 2, the plurality of branch ventilation pipes 4 are divided into an upper ventilation pipe 41 communicated with the upper end of the building body 1 and a lower ventilation pipe 42 communicated with the lower end of the building body 1, the upper ventilation pipe 41 and the lower ventilation pipe 42 are both provided in plurality, and the upper ventilation pipe 41 and the lower ventilation pipe 42 are both communicated with the main ventilation pipe 2. Like this, ventilate and be responsible for 2 and send into the dust from ventilation branch pipe 4 and collect storehouse 3 in, dust is collected storehouse 3 and is collected the dust and fall into to gather dust in the case 9 after, is carried away by case 9 that gathers dust, like this, this application has just reached the purpose of removing dust.

Preferably, a turbo fan 43 is installed in the upper draft tube 41 and/or the lower draft tube 42. Further, a filter screen 44 is connected to the feed inlet of the lower vent pipe 42. Turbofan 43 can further strengthen the dust absorption ability of this application, and filter screen 44 can prevent that the debris of volume increase from entering into and causing filter screen 44 to block up in lower ventilation pipe 42, and like this, the dust removal effect of this application is better.

As shown in fig. 2 and 3, a dust adsorption device 5 is arranged inside the dust collection bin 3, the top of the dust adsorption device 5 is connected with a vibrating rod 6, the top of the vibrating rod 6 is connected with a vibrating device 7 arranged outside the top end of the dust collection bin 3, the lower end of the dust collection bin 3 is funnel-shaped and is connected with supporting legs 8, and the bottom of the dust collection bin 3 is connected with a dust collection box 9 arranged on the ground. Preferably, the bottom of the dust collecting bin 3 is connected with a discharge pipe 31 for guiding dust, and the discharge pipe 31 is provided with a pneumatic butterfly valve 32, so that the dust collecting capacity of the dust collecting bin 3 is better.

As shown in fig. 3, a settling area 91 for settling dust is arranged in the dust collection box 9, a discharge hole 92 communicated with the settling area 91 is formed in the bottom of the dust collection chamber, a scraper 93 corresponding to the discharge hole 92 is vertically arranged at the bottom of the dust collection chamber to scrape off dust in the dust collection box 9, a motor 94 is fixed on the inner wall of the dust collection chamber, an output shaft of the motor 94 is opposite to the discharge hole 92, a dust collection screw rod 95 is connected to an output shaft of the motor 94, and the dust collection screw rod 95 penetrates through the scraper 93 and is in threaded connection with the scraper 93. Like this, this application can pass through motor 94 and scraper blade 93 with dust propelling movement to discharge gate 92 to let this application accomplish the collection of dust.

Preferably, the bottom of the scraper 93 is provided with a shovel plate 96, and the shovel plate 96 is arranged along the length direction of the scraper 93. Further, shovel board 96 is equipped with inclined plane 97 in the one end of keeping away from scraper blade 93, and inclined plane 97 inclines towards discharge gate 92, and inclined plane 97 can let this application more convenient propelling movement material, and it is more convenient to let this application use.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The efficient dust removal system for the stirring building is characterized by comprising a building body (1) internally provided with a stirring host, a ventilation main pipe (2) with an air pump (21) and a dust collection bin (3) for collecting dust, wherein the air inlet end of the ventilation main pipe (2) is connected with a plurality of ventilation branch pipes (4) arranged at intervals, the ventilation main pipe (2) is communicated with the building body (1) through the ventilation branch pipes (4), the air outlet end of the ventilation main pipe (2) is communicated with the upper end of the dust collection bin (3), a dust adsorption device (5) is arranged inside the dust collection bin (3), the top of the dust adsorption device (5) is connected with a vibrating rod (6), the top of the vibrating rod (6) is connected with a vibrating device (7) arranged outside the top end of the dust collection bin (3), the lower end of the dust collection bin (3) is of a funnel type and is connected with supporting legs (8), the bottom of the dust collection bin (3) is connected with a dust collection box (9) arranged on the ground.

2. The efficient dust removal system for the mixing plant according to claim 1, wherein the plurality of ventilation branch pipes (4) are divided into an upper ventilation pipe (41) communicated with the upper end of the building body (1) and a lower ventilation pipe (42) communicated with the lower end of the building body (1), the number of the upper ventilation pipe (41) and the number of the lower ventilation pipe (42) are multiple, and the upper ventilation pipe (41) and the lower ventilation pipe (42) are communicated with the ventilation main pipe (2).

3. The high-efficiency dust removal system of the mixing plant as claimed in claim 2, wherein a turbo fan (43) is installed in the upper ventilating pipe (41) and/or the lower ventilating pipe (42).

4. The high-efficiency dust removal system of the mixing plant as claimed in claim 3, wherein a filter screen (44) is further connected to the feed inlet of the lower ventilation pipe (42).

5. The high-efficiency dust removal system for the mixing plant of claim 1, 2, 3 or 4, wherein a discharge pipe (31) is connected to the bottom of the dust collection bin (3), and a pneumatic butterfly valve (32) is installed on the discharge pipe (31).

6. The efficient dust removal system of the mixing plant according to claim 5, wherein a settling area (91) for settling dust is arranged in the dust collection box (9), a discharge hole (92) communicated with the settling area (91) is formed in the bottom of the dust collection chamber, a scraper (93) corresponding to the discharge hole (92) is vertically arranged at the bottom of the dust collection chamber, a motor (94) is fixed on the inner wall of the dust collection chamber, an output shaft of the motor (94) is opposite to the discharge hole (92), a dust collection screw rod (95) is connected to an output shaft of the motor (94), and the dust collection screw rod (95) penetrates through the scraper (93) and is in threaded connection with the scraper (93).

7. The high-efficiency dust removal system for the mixing plant of claim 6, wherein a shovel plate (96) is arranged at the bottom of the scraper (93), and the shovel plate (96) is arranged along the length direction of the scraper (93).

8. The high-efficiency dust removal system of the mixing plant of claim 7, wherein the shovel plate (96) is provided with an inclined surface (97) at one end far away from the scraper (93), and the inclined surface (97) is inclined towards the discharge port (92).

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