CN213968248U - Auxiliary device for reducing dust in aging bin for producing perforated bricks - Google Patents

Abstract

The utility model relates to a porous brick production is with auxiliary device who reduces dust in ageing storehouse, the field of porous brick production is related to, auxiliary device includes guide cylinder and dust removal mechanism, the guide cylinder sets up the one side that is close to ground at the conveyer belt, and the tip that breaker was kept away from to guide cylinder nozzle and conveyer belt aligns, so that the material on the conveyer belt drops to in the guide cylinder, guide cylinder and frame fixed connection, the guide cylinder is the bellows, be provided with on the storehouse body and be used for driving the guide cylinder and be close to the one end on ground to keeping away from or being close to the drive assembly that ground direction removed, dust removal mechanism is connected with the guide cylinder, in order to detach the dust in the guide cylinder. The breaker with the material breakage back, the material after the breakage falls on the conveyer belt, and the conveyer belt drives the material to the guide cylinder position to in falling the guide cylinder, the material is because of the dust that drops the production, and dust removal mechanism absorbs the dust in the guide cylinder, makes the difficult diffusion in ageing storehouse of dust, thereby realizes reducing the purpose of the interior dust volume of ageing storehouse.

Description

Auxiliary device for reducing dust in aging bin for producing perforated bricks

Technical Field

The application relates to the field of perforated brick production, in particular to an auxiliary device for reducing dust in an aging bin for perforated brick production.

Background

The porous brick has the characteristics of low production energy consumption, soil conservation, waste utilization, convenient construction, light weight, high strength, good heat preservation effect, durability, small shrinkage deformation, regular appearance and the like. Before the porous brick is fired, all materials need to be crushed by a crusher, and then the crushed materials are transferred to an aging bin through a transfer device.

In the related art, as shown in fig. 1, the aging bin includes a bin body 600, and a transfer device for transferring materials into the bin body 600 is connected to a side wall of the bin body 600. The transfer device comprises a frame 500 and a conveyor belt 510, wherein the conveyor belt 510 is in transmission connection with the frame 500. One end of the frame 500 extends to the lower part of the crusher to enable the conveyor belt 510 to receive the materials crushed by the crusher, and the other end of the frame 500 penetrates through the side wall of the bin body 600 to enter the bin body 600 to convey the crushed materials into the aging bin.

With respect to the related art in the above, the inventors consider that there are the following drawbacks: in the production process, in order to make the material pile up and be difficult for interfering the conveyer belt, the conveyer belt generally keeps away from ground setting, therefore when the material drops from the conveyer belt, can produce more raise dust to it is more to lead to ageing storehouse interior dust.

SUMMERY OF THE UTILITY MODEL

In order to reduce the dust volume in the ageing storehouse, this application provides a porous brick production is with reducing auxiliary device of interior dust in ageing storehouse.

The application provides a porous brick production is with auxiliary device who reduces dust in the storehouse of ageing adopts following technical scheme:

the utility model provides a porous brick production is with auxiliary device who reduces interior dust in ageing storehouse, includes guide cylinder and dust removal mechanism, the guide cylinder sets up the one side that is close to ground at the conveyer belt, and the tip that the breaker was kept away from to guide cylinder nozzle and conveyer belt aligns to make the material on the conveyer belt drop to the guide cylinder in, guide cylinder and frame fixed connection, the guide cylinder is the bellows, is provided with on the storehouse body to be used for driving the guide cylinder and is close to the one end on ground and to keeping away from or being close to the drive assembly that ground direction removed, dust removal mechanism is connected with the guide cylinder to detach the dust in the guide cylinder.

By adopting the technical scheme, after the material is crushed by the crusher, the crushed material falls onto the conveyor belt, the conveyor belt drives the material to the position of the material guide cylinder, the material falls into the material guide cylinder and falls into the aging bin along the material guide cylinder, the dust generated by the falling material is absorbed by the dust removal mechanism, and the dust is not easy to diffuse in the aging bin, so that the aim of reducing the dust amount in the aging bin is fulfilled; the setting of drive assembly, the staff of being convenient for highly constantly promotes the guide cylinder height according to piling up the material in the guide cylinder to make the material height of piling up should not interfere the outflow of material in the guide cylinder.

Optionally, drive assembly includes driving motor, rolling pivot and rolling rope, rolling rope one end is connected with the one end that the guide cylinder is close to ground, and the other end is around rolling in the rolling pivot to with rolling pivot fixed connection, the rolling pivot rotates with bin body side wall to be connected, driving motor is connected with the rolling pivot to drive the rolling pivot and rotate.

Through adopting above-mentioned technical scheme, start driving motor for driving motor drives the rolling pivot and rotates, thereby makes the rolling rope constantly wind the book in the rolling pivot, so that the rolling rope tensioning constantly drives the one end that the guide cylinder is close to ground and constantly removes to the direction of keeping away from ground.

Optionally, the cross section of the winding rotating shaft is oval or spindle-shaped.

Through adopting above-mentioned technical scheme, rolling pivot cross section sets up to ellipse or fusiform for the guide cylinder is constantly rocked when the rolling rope is rolled up in the rolling pivot, thereby makes the guide cylinder constantly promote the material of piling up gathering together, with the homogeneity that paves that improves the material.

Optionally, one end of the guide cylinder, which is close to the ground, is communicated with a discharge hopper, and the discharge hopper is horn-shaped.

Through adopting above-mentioned technical scheme, the setting of play hopper has further improved the homogeneity that paves of material.

Optionally, a guide plate is arranged on the guide cylinder, one end of the guide plate is fixedly connected with one end, far away from the ground, of the guide cylinder, the other end of the guide plate extends to the upper portion of the rack, and two sides of the guide plate are fixedly connected with the rack.

Through adopting above-mentioned technical scheme, the setting of deflector for when the material is more on the conveyer belt, the deflector plays the guide effect to the material, thereby makes the material difficult to be driven outside the guide cylinder scope by the conveyer belt.

Optionally, the dust removal mechanism comprises a dust removal pipe and a dust remover, one end of the dust removal pipe penetrates into one side, close to the conveyor belt, of the guide plate, and the other end of the dust removal pipe is communicated with the dust remover.

Through adopting above-mentioned technical scheme, start the dust remover for form the negative pressure in the dust removal pipe, thereby make the dust that produces when the material drops to be siphoned away, thereby make difficult production dust in the ageing storehouse.

Optionally, the winding rope is provided with a plurality of ropes.

Through adopting above-mentioned technical scheme, the setting of many receipts rolling ropes has improved the stability when rolling rope drove the one end that the guide cylinder is close to ground and removes.

Optionally, the plurality of winding ropes are symmetrically arranged with the radial direction of the material guide cylinder as a symmetry axis.

Through adopting above-mentioned technical scheme, the rolling rope symmetry sets up for the guide cylinder is difficult for taking place the slope under the rolling rope effect.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the arrangement of the material guide cylinder ensures that dust generated by the materials is concentrated in the material guide cylinder and is removed by the dust removal mechanism, thereby realizing the purpose of reducing the dust amount in the aging bin;

2. the arrangement of a plurality of winding ropes improves the stability of the winding ropes when driving the guide cylinder to move.

Drawings

FIG. 1 is a drawing of the related art;

FIG. 2 is a schematic view of the assembly of an embodiment of the present application with a cartridge body;

fig. 3 is a partial schematic view of an embodiment of the present application.

Description of reference numerals: 100. a material guide cylinder; 110. a discharge hopper; 200. a drive assembly; 210. a drive motor; 211. a first pulley; 212. a first belt; 220. a winding rotating shaft; 221. a second pulley; 222. a drive pulley; 223. a transmission belt; 230. winding the rope; 300. a dust removal mechanism; 310. a dust removal pipe; 320. a dust remover; 400. a guide plate; 500. a frame; 510. a conveyor belt; 600. a cabin body.

Detailed Description

The present application is described in further detail below with reference to figures 2-3.

The embodiment of the application discloses a porous brick production is with auxiliary device who reduces interior dust in ageing storehouse. Referring to fig. 2, the auxiliary device includes a guide cylinder 100, the guide cylinder 100 is a corrugated tube, and one end of the guide cylinder 100 is used for being fixedly connected with a bolt of a frame 500, and the other end extends towards the direction close to the ground. The guide plate 400 is welded to one end of the guide cylinder 100 far away from the ground, one end of the guide plate 400 far away from the guide cylinder 100 extends to the upper side of the frame 500, and both sides of the guide plate 400 are welded to the frame 500. The conveyor belt 510 operates to enable the materials on the conveyor belt 510 to fall into the guide cylinder 100, so that the materials fall to the ground in the aging bin along the guide cylinder 100, and dust generated when the materials fall from the conveyor belt 510 into the aging bin is not easy to diffuse in the aging bin.

Referring to fig. 3, in order to make the material guiding cylinder 100 not to interfere with the accumulation of the material in the aging bin, one end of the material guiding cylinder 100 close to the ground moves in a direction away from or close to the ground, and the bin body 600 is provided with a driving assembly 200 for driving one end of the material guiding cylinder 100 close to the ground to move.

The driving assembly 200 includes a driving motor 210, two winding shafts 220, and four winding ropes 230. Driving motor 210 and frame 500 bolt fixed connection, two rolling pivot 220 are connected with storehouse body 600 lateral wall rotation, and the cross-section of two rolling pivot 220 all sets up to oval or spindle shape, and the cross-section of rolling pivot 220 sets up to oval in this embodiment. The winding ropes 230 are grouped in pairs, the winding ropes 230 in the same group correspond to the same winding rotating shaft 220, one end of each winding rope 230 is fixedly connected with the guide cylinder 100, and the other end of each winding rope is wound on the corresponding winding rotating shaft 220 and is fixedly connected with the winding rotating shaft 220. The connection positions of the two sets of winding ropes 230 and the material guiding cylinder 100 are symmetrically arranged by taking the radial line of the material guiding cylinder 100 as a symmetry axis. One ends of the two winding rotating shafts 220 far away from the side wall of the bin body 600 are fixedly connected with a transmission belt pulley 222, and the axes of the transmission belt pulley 222 and the axes of the corresponding winding rotating shafts 220 are arranged in a collinear manner. The two driving pulleys 222 are in driving connection with each other through a driving belt 223.

The output shaft of the driving motor 210 is coaxially and fixedly connected with a first belt pulley 211, the winding rotating shaft 220 arranged close to the driving motor 210 is fixedly connected with a second belt pulley 221, and the rotating axis of the second belt pulley 221 and the rotating axis of the winding rotating shaft 220 are arranged in a collinear manner. The first pulley 211 and the second pulley 221 are drivingly connected by a first belt 212.

Start driving motor 210, driving motor 210 drives first belt pulley 211 and rotates, thereby make first belt 212 drive and correspond rolling pivot 220 and rotate, thereby drive pulley 222 rotates, and drive belt 223 makes another rolling pivot 220 rotate, thereby make four rolling ropes 230 wind respectively on the rolling pivot 220 that corresponds, in order to realize that guide cylinder 100 is close to the one end on ground to the removal of keeping away from the ground direction, because the cross-section of rolling pivot 220 sets up to the ellipse, when consequently rolling pivot 220 rotates, rolling rope 230 constantly rocks, thereby make guide cylinder 100 rock, so that the material spreads to guide cylinder 100 both sides under guide cylinder 100 effect, in order to improve the homogeneity that the material paves.

One end of the guide cylinder 100 close to the ground is communicated with a discharge hopper 110, and the discharge hopper 110 is arranged in a horn shape, so that when materials enter the aging bin from the guide cylinder 100 through the discharge hopper 110, the materials are paved more uniformly.

Referring back to fig. 2, in order to reduce the amount of dust in the guide chute 100, the guide plate 400 is connected to the dust removing mechanism 300, the dust removing mechanism 300 includes a dust removing pipe 310 and a dust remover 320, one end of the dust removing pipe 310 is communicated with the dust remover 320, and the other end thereof penetrates between the guide plate 400 and the conveyor belt 510 to absorb dust generated when the material falls.

The implementation principle of the auxiliary device for reducing dust in the aging bin for producing the perforated bricks is as follows: the conveyor belt 510 is operated, the material on the conveyor belt 510 falls into the guide cylinder 100 by the conveyor belt 510 and is accumulated in the guide cylinder 100, and the dust remover 320 is operated to remove the dust in the guide cylinder 100.

The driving motor 210 is started, so that the driving motor 210 drives one end of the material guide cylinder 100 close to the ground to move towards the direction far away from the ground, and the materials in the material guide cylinder 100 slowly diffuse towards the periphery of the material guide cylinder 100, so that dust is not easy to generate in the aging bin.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a perforated brick production is with auxiliary device who reduces interior dust in ageing storehouse which characterized in that: the dust removal device comprises a material guide cylinder (100) and a dust removal mechanism (300), wherein the material guide cylinder (100) is arranged on one side, close to the ground, of a conveyor belt (510), the cylinder opening of the material guide cylinder (100) is aligned with the end, far away from a crusher, of the conveyor belt (510), so that materials on the conveyor belt (510) fall into the material guide cylinder (100), the material guide cylinder (100) is fixedly connected with a rack (500), the material guide cylinder (100) is a corrugated pipe, a driving assembly (200) used for driving one end, close to the ground, of the material guide cylinder (100) to move towards the direction far away from or close to the ground is arranged on a bin body (600), and the dust removal mechanism (300) is connected with the material guide cylinder (100) to remove dust in the material guide cylinder (100).

2. The auxiliary device for reducing dust in an aging chamber for producing perforated bricks, according to claim 1, wherein: drive assembly (200) include driving motor (210), rolling pivot (220) and rolling rope (230), rolling rope (230) one end is connected near the one end on ground with guide cylinder (100), and the other end is around rolling on rolling pivot (220) to with rolling pivot (220) fixed connection, rolling pivot (220) rotate with storehouse body (600) lateral wall and are connected, driving motor (210) are connected with rolling pivot (220) to drive rolling pivot (220) and rotate.

3. The auxiliary device for reducing dust in the aging chamber for perforated brick production as claimed in claim 2, wherein: the cross section of the winding rotating shaft (220) is oval or spindle-shaped.

4. The auxiliary device for reducing dust in the aging chamber for perforated brick production as claimed in claim 3, wherein: one end of the guide cylinder (100) close to the ground is communicated with a discharge hopper (110), and the discharge hopper (110) is horn-shaped.

5. The auxiliary device for reducing dust in the aging chamber for perforated brick production as claimed in claim 4, wherein: the guide device is characterized in that a guide plate (400) is arranged on the guide cylinder (100), one end of the guide plate (400) is fixedly connected with one end, far away from the ground, of the guide cylinder (100), the other end of the guide plate (400) extends to the upper portion of the rack (500), and two sides of the guide plate (400) are fixedly connected with the rack (500).

6. The auxiliary device for reducing dust in the aging chamber for perforated brick production as claimed in claim 5, wherein: the dust removal mechanism (300) comprises a dust removal pipe (310) and a dust remover (320), one end of the dust removal pipe (310) penetrates into one side, close to the conveyor belt (510), of the guide plate (400), and the other end of the dust removal pipe is communicated with the dust remover (320).

7. The auxiliary device for reducing dust in the aging chamber for perforated brick production as claimed in claim 2, wherein: the coiling ropes (230) are provided with a plurality of ropes.

8. The auxiliary device for reducing dust in an aging chamber for producing perforated bricks, according to claim 7, wherein: the plurality of winding ropes (230) are symmetrically arranged by taking the radial direction of the material guide cylinder (100) as a symmetry axis.

Images