CN219408350U - Reinforced conveying device and system - Google Patents

Abstract

The utility model relates to a reinforced conveying device and a reinforced conveying system, comprising a conveying box body and a fluidization plate, wherein a material inlet and a material outlet are formed in the conveying box body, and the conveying box body is obliquely arranged from top to bottom in the discharging direction; the fluidization plate is arranged in the conveying box body to divide the conveying box body into an upper box body and a lower box body, the feeding port is positioned on the upper box body, the discharging port is positioned on the lower box body, and the upper box body and the lower box body are respectively provided with a gasification port; the fluidization plate is provided with fish scale holes and discharge holes, the orifice directions of the fish scale holes are consistent with the blanking direction, and the discharge holes are positioned at the most downstream of the fluidization plate. The utility model can obtain better fluidization material conveying effect, can not produce accumulated materials, and reduces the blockage, abrasion and maintenance of the fluidization plate; the dust removal fan in the system is adopted to provide fluidization air, so that not only can the air quantity and the pressure head required by the conveying device be met, but also the fluidization fan is not required to be specially arranged, and the power consumption is saved.

Description

Reinforced conveying device and system

Technical Field

The utility model relates to the technical field of conveying equipment, in particular to a reinforced fluidization conveying device and a reinforced fluidization conveying system.

Background

The existing conveying chute is often provided with a special fluidization fan for fluidization conveying, the fluidization fan is used for fluidization through air, the fluidized air contains certain material dust and is sent to a subsequent dust removal fan for dust removal, the environment is not protected, the air quantity of the dust removal fan is increased, and the power consumption of the fluidization fan and the dust removal fan is increased. Meanwhile, the traditional conveying chute is general in conveying efficiency, large in fluidization cloth resistance, easy to block and abrade and high in failure rate.

Disclosure of Invention

The utility model aims to provide a fluidization strengthening conveying device which is suitable for conveying powder or small-particle materials in various industries.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an intensified fluidization conveying device comprises a conveying box body and a fluidization plate,

the conveying box body is provided with a feed inlet and a discharge outlet, and is obliquely arranged from top to bottom in the discharging direction from the feed inlet to the discharge outlet; the fluidization plate is arranged in the conveying box body to divide the conveying box body into an upper box body and a lower box body, the feeding port is positioned on the upper box body, the discharging port is positioned on the lower box body, the upper box body is provided with an upper gasification port, and the lower box body is provided with a lower gasification port;

the fluidized plate is provided with a plurality of fish scale holes and discharge holes, the orifice directions of the fish scale holes are consistent with the discharging direction, and the discharge holes are positioned at the most downstream of the fluidized plate in the discharging direction.

In the above technical solution, preferably, the top surface, the bottom surface and the fluidization plate of the conveying box are parallel, and are obliquely arranged from top to bottom in the feeding direction.

Further preferably, the top surface, the bottom surface and the fluidization plate of the conveying box form an included angle of not less than 5 degrees with the horizontal direction.

According to the technical scheme, preferably, the axial leads of the feeding port and the discharging port extend along the vertical direction.

According to the technical scheme, preferably, the feeding hole is formed in the highest position of the top surface of the conveying box body, the discharging hole is formed in the lowest position of the bottom surface of the conveying box body, and the discharging hole of the fluidization plate is located above the discharging hole.

In the above technical solution, preferably, the upper gasification port is formed on an end surface of the upper case body near one end of the feed port; and/or the number of the groups of groups,

the lower gasification port is arranged on the end face of the lower box body close to one end of the feeding port.

Further preferably, in the foregoing technical solution, preferably, the apparatus further includes an airflow distribution pipe, and the airflow distribution pipe includes:

main pipe body: the main pipe body is arranged at the bottom of the conveying box body and extends along the blanking direction, and one end of the main pipe body forms an inlet;

end branch pipe: one end of the end branch pipe is communicated with the main pipe body, and the other end of the end branch pipe is communicated with the lower gasification port;

a bottom branch pipe group: the bottom branch pipe group include distributing pipe, a pair of first bottom branch pipe and second bottom branch pipe, the extending direction of distributing pipe with be responsible for the body perpendicularly, the middle part of distributing pipe with be responsible for the body intercommunication, a pair of first bottom branch pipe the one end respectively with the both sides intercommunication of distributing pipe, the other end of a pair of first bottom branch pipe stretch into its inside from the bottom surface of lower box, second bottom branch pipe one end with be responsible for the body intercommunication, the other end of second bottom branch pipe stretch into its inside from the bottom surface of lower box, a pair of first bottom branch pipe, second bottom branch pipe follow the unloading direction distributes in proper order, a pair of first bottom branch pipe, the opening orientation of second bottom branch pipe with the unloading direction unanimity.

The plurality of bottom branch pipe groups are arranged at intervals, each bottom branch pipe group is provided with three inlets of the pair of first bottom branch pipes and the pair of second bottom branch pipes, and the pair of first bottom branch pipes and the pair of second bottom branch pipes are staggered to increase the gasification range; and the first bottom branch pipe, the second bottom branch pipe and the fluidization plate extend into the bottom surface of the lower box body by 10-15 degrees, so that materials are prevented from entering the gasification port from the fish scale holes.

Above-mentioned technical scheme is preferable, the device still include the grating board, the grating board set up the below of feed inlet, the material follow the feed inlet feeding, through the grating board carry out the homoenergetic, prevent material caking unloading, help fluidization conveying.

Above-mentioned technical scheme is preferable, the transport box include last box, lower box, the lower part of last box open, the upper portion of lower box open, the lower part of last box the upper portion of lower box with fluidization plate detachably connect, the convenient maintenance of dismantling.

According to the technical scheme, preferably, the top surface of the conveying box body is provided with the observation hole, and the observation hole can be used for observing the conveying state of materials in the device.

It is another object of the present utility model to provide a fluidization enhanced transport system.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the intensified fluidization conveying system comprises a conveying device, a dust remover and a dust removing fan, wherein the conveying device is the intensified fluidization conveying device, and an air outlet of the dust remover is communicated with the upper gasification port and the lower gasification port through the dust removing fan.

Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

according to the device, the scale holes are formed in the fluidization plate, so that a good fluidization conveying effect can be obtained, and abrasion and maintenance of the fluidization plate are reduced; by arranging the gasification ports on the upper box body and the lower box body respectively, even if materials entering the plenum chamber through the fish scale holes can enter the downstream discharge port through the fluidization wind blown by the gasification ports, no accumulation of materials is generated, the possibility of blocking and wearing of the fluidization plate is effectively reduced, and the material conveying efficiency is improved;

the system of the utility model uses the large air quantity of the dust removing fan and the partial air of the high pressure head which is led out of the dust remover as fluidization air, thereby not only meeting the air quantity and pressure head required by the conveying device, but also saving electricity consumption without additionally arranging a fluidization fan;

the utility model is suitable for powder conveying, assisted by gas dispersion and transportation, and the powder is easy to disperse, uniform and smooth to transport, so the device is not provided with a dust collection port, the fluidization gas can assist subsequent conveying, meanwhile, the material is prevented from being pumped away, the device is integrally sealed, dust is not caused, and the fluidization gas is used for collecting dust through subsequent equipment.

Drawings

FIG. 1 is a schematic front view of the inside of the conveying apparatus according to the present embodiment;

FIG. 2 is a schematic top view of the conveying apparatus according to the present embodiment;

FIG. 3 is a schematic top view of the fluidization plate of the present embodiment;

fig. 4 is a schematic diagram of the conveying system in this embodiment.

In the above figures:

1. conveying the box body; 10. an upper case; 100. a feed inlet; 101. a top surface; 1010. an observation hole; 102. an upper gasification port; 11. a lower box body; 110. a discharge port; 111. a bottom surface; 112. a lower gasification port;

2. a fluidization plate; 20. fish scale holes; 21. a discharge hole;

3. an air flow distribution pipe; 30. a main pipe body; 31. an end branch pipe; 320. a dispensing tube; 321. a first bottom manifold; 322. a second bottom manifold;

4. a grating plate;

5. a conveying device;

6. a dust remover;

7. a dust removing fan.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

An intensified fluidization conveyor device as shown in fig. 1 and 2 comprises a conveyor box 1, a fluidization plate 2, an air flow distribution pipe 3 and the like. Wherein:

the feeding port 100 and the discharging port 110 are formed in the conveying box body 1, and the conveying box body 1 is obliquely arranged from top to bottom in the discharging direction from the feeding port 100 to the discharging port 110. The specific method is as follows: the top surface 101 and the bottom surface 111 of the conveying box body 1 are parallel, and are obliquely arranged from top to bottom in the blanking direction, and an included angle of not less than 5 degrees is formed between the conveying box body and the horizontal direction. The feed inlet 100 is arranged at the highest position of the top surface 101 of the conveying box body 1, the discharge outlet 110 is arranged at the lowest position of the bottom surface 111 of the conveying box body 1, and the axial leads of the feed inlet 100 and the discharge outlet 110 extend along the vertical direction, so that the discharging is facilitated.

The grid plate 4 is arranged inside the conveying box body 1 and below the feed inlet 100, materials are fed from the feed inlet 100, and are uniformly fed through the grid plate 4, so that caking and discharging of the materials are prevented, and fluidization conveying is facilitated.

An observation hole 1010 is formed in the top surface 101 of the conveying box 1, and the observation hole 1010 can be used for observing the conveying state of materials in the device, and two observation holes 1010 are taken as an example in the drawing.

The fluidization plate 2 is arranged in the conveying box 1 to divide the conveying box into an upper box 10 and a lower box 11, a fluidization chamber is formed in the upper box 10, and a plenum chamber is formed in the lower box 11. The fluidization plate 2 is also inclined from top to bottom in the discharging direction and is parallel to the top surface 101 and the bottom surface 111 of the conveyance case 1. This is the case: the inlet 100 is located at the highest position of the top surface 101 of the upper case 10, and the outlet 110 is located at the lowest position of the bottom surface 111 of the lower case 11.

In a preferred embodiment: the conveying box body 1 can comprise an upper box body 10 and a lower box body 11, the lower part of the upper box body 10 is opened, the upper part of the lower box body 11 is opened, and the lower part of the upper box body 10 and the upper part of the lower box body 11 are detachably connected with the fluidization plate 2, so that the disassembly and the maintenance are convenient.

The upper box body 10 is provided with an upper gasification port 102, the upper gasification port 102 is arranged on the end face of the upper box body 10 near one end of the feed port 100, and the upper gasification port 102 is positioned below the grating plate 4; the lower case 11 is also provided with a lower gasification port 112, and the lower gasification port 112 is provided on an end surface of the lower case 11 near one end of the feed port 100. The fluidization wind blows into the upper box body 10 through the upper gasification port 102, and fluidizes and conveys the logistics of the upper box body 10 in the feeding direction; meanwhile, fluidization air is blown into the lower box body 11 through the lower gasification port 112, and materials entering the lower box body 11 through the fluidization plate 3 can be blown to the discharge port through the fluidization air, so that accumulation materials are not generated, and the conveying efficiency of the materials is improved.

As shown in fig. 3: the fluidized plate 2 is provided with a plurality of fish scale holes 20 and discharge holes 21, the opening directions of the fish scale holes 20 are consistent with the discharging direction, and the discharge holes 21 are positioned at the most downstream of the fluidized plate 2 in the discharging direction or above the discharge holes 110 for discharging. The fluidization plate 2 provided with the fish scale holes 20 is adopted to replace the fluidization cloth with larger resistance in the prior art, so that not only can the better fluidization and material conveying effect be obtained, but also the abrasion and maintenance of the fluidization plate 2 are reduced.

As shown in fig. 1 and 2, the air flow distribution tube 3 includes a main tube body 30, an end branch tube 31, and a bottom branch tube group. The specific method is as follows:

the main pipe body 30 is arranged at the bottom of the conveying box body 1 and extends along the blanking direction, and one end of the main pipe body 30 forms an inlet; one end of the end branch pipe 31 is communicated with the main pipe body 30, and the other end of the end branch pipe 31 is communicated with the lower gasification port 112; the bottom branch pipe group comprises a distributing pipe 320, a pair of first bottom branch pipes 321 and a second bottom branch pipe 322, wherein the extending direction of the distributing pipe 320 is vertical to the main pipe body 30, the middle part of the distributing pipe 320 is communicated with the main pipe body 30, one ends of the first bottom branch pipes 321 are respectively communicated with two sides of the distributing pipe 320, and the other ends of the first bottom branch pipes 321 extend into a plenum chamber in the lower box body 11 from the bottom surface of the lower box body; one end of the second bottom branch pipe 322 is communicated with the main pipe body 30, the other end of the second bottom branch pipe 322 extends into a plenum chamber in the lower box body 11 from the bottom surface of the lower box body, a pair of first bottom branch pipes 321 and second bottom branch pipes 322 are sequentially distributed along the blanking direction, and the opening orientations of the first bottom branch pipes 321 and the second bottom branch pipes 322 are consistent with the blanking direction. The bottom branch pipe group can send the fluidization wind into the plenum chamber from the bottom of the lower box 11, can effectively reduce the fluidization plate 2 and block up, wearing and tearing possibility, improve material conveying efficiency.

The intensified fluidization conveying system shown in fig. 4 comprises a conveying device 5, a dust remover 6 and a dust removing fan 7, wherein the conveying device 5 is the intensified fluidization conveying device, one path of an air outlet of the dust remover 6 is led out to be communicated with an upper gasification port 102 through the dust removing fan 7, and the other path of the air outlet is led out to be communicated with an inlet of a main pipe body 30 of the airflow distribution pipe 3. The dust removal fan 7 is provided with a high-flow high-pressure head, so that the required air quantity and pressure head of the conveying device are far satisfied, and a fluidization fan is not required to be additionally arranged, so that the electricity consumption is saved.

The above embodiments are provided to illustrate the technical concept and features of the present utility model and are intended to enable those skilled in the art to understand the content of the present utility model and implement the same, and are not intended to limit the scope of the present utility model. All equivalent changes or modifications made in accordance with the spirit of the present utility model should be construed to be included in the scope of the present utility model.

Claims (10)

1. An intensified delivery apparatus, characterized in that: comprises a conveying box body and a fluidization plate,

the conveying box body is provided with a feed inlet and a discharge outlet, and is obliquely arranged from top to bottom in the discharging direction from the feed inlet to the discharge outlet; the fluidization plate is arranged in the conveying box body to divide the conveying box body into an upper box body and a lower box body, the feeding port is positioned on the upper box body, the discharging port is positioned on the lower box body, the upper box body is provided with an upper gasification port, and the lower box body is provided with a lower gasification port;

the fluidized plate is provided with a plurality of fish scale holes and discharge holes, the orifice directions of the fish scale holes are consistent with the discharging direction, and the discharge holes are positioned at the most downstream of the fluidized plate in the discharging direction.

2. The intensified transportation apparatus according to claim 1, wherein: the top surface, the bottom surface and the fluidization plate of the conveying box body are parallel, and are obliquely arranged from top to bottom in the discharging direction.

3. The intensified transportation apparatus according to claim 2, wherein: the top surface, the bottom surface of the conveying box body and the horizontal direction form an included angle of not less than 5 degrees.

4. The intensified transportation apparatus according to claim 1, wherein: the axial leads of the feed inlet and the discharge outlet extend along the vertical direction.

5. The intensified transportation apparatus according to claim 1, wherein: the feeding hole is formed in the highest position of the top surface of the conveying box body, the discharging hole is formed in the lowest position of the bottom surface of the conveying box body, and the discharging hole of the fluidization plate is located above the discharging hole.

6. The intensified transportation apparatus according to claim 1, wherein: the upper gasification port is formed in the end face of the upper box body close to one end of the feeding port; and/or the number of the groups of groups,

the lower gasification port is arranged on the end face of the lower box body close to one end of the feeding port.

7. The intensified transportation apparatus according to claim 6, wherein: the device also comprises an airflow distribution pipe, and the airflow distribution pipe comprises:

main pipe body: the main pipe body is arranged at the bottom of the conveying box body and extends along the blanking direction, and one end of the main pipe body forms an inlet;

end branch pipe: one end of the end branch pipe is communicated with the main pipe body, and the other end of the end branch pipe is communicated with the lower gasification port;

a bottom branch pipe group: the bottom branch pipe group include distributing pipe, a pair of first bottom branch pipe and second bottom branch pipe, the extending direction of distributing pipe with be responsible for the body perpendicularly, the middle part of distributing pipe with be responsible for the body intercommunication, a pair of first bottom branch pipe the one end respectively with the both sides intercommunication of distributing pipe, the other end of a pair of first bottom branch pipe stretch into its inside from the bottom surface of lower box, second bottom branch pipe one end with be responsible for the body intercommunication, the other end of second bottom branch pipe stretch into its inside from the bottom surface of lower box, a pair of first bottom branch pipe, second bottom branch pipe follow the unloading direction distributes in proper order, a pair of first bottom branch pipe, the opening orientation of second bottom branch pipe with the unloading direction unanimity.

8. The intensified transportation apparatus according to claim 1, wherein: the device also comprises a grating plate which is arranged below the feeding hole.

9. The intensified transportation apparatus according to claim 1, wherein: the conveying box body comprises an upper box body and a lower box body, the lower part of the upper box body is opened, the upper part of the lower box body is opened, and the lower part of the upper box body and the upper part of the lower box body are detachably connected with the fluidization plate;

and an observation hole is formed in the top surface of the conveying box body.

10. An enhanced delivery system, characterized by: the device comprises a conveying device, a dust remover and a dust removing fan, wherein the conveying device is the reinforced conveying device according to any one of claims 1 to 9, and an air outlet of the dust remover is communicated with the upper gasification port and the lower gasification port through the dust removing fan.