CN114955555B - Cabin pump ash bucket structure for positive and negative integrated multifunctional pump and use method - Google Patents

Abstract

The invention discloses a bin pump ash bucket structure for a positive-negative integrated multifunctional pump and a use method thereof. According to the invention, through the arranged material conveying structure, a certain mechanical pressurizing effect can be generated, the conveying efficiency of the ash materials in the bin pump ash bucket body is effectively improved, and meanwhile, through the up-down impact effect of the material dredging rod, the hardened block-shaped ash materials can be effectively impacted and crushed, the block-shaped ash materials are prevented from blocking the material conveying pipe, and the conveying effect of the ash materials is improved.

Description

Cabin pump ash bucket structure for positive and negative integrated multifunctional pump and use method

Technical Field

The invention relates to the technical field of pneumatic ash conveying, in particular to a bin pump ash bucket structure for a positive and negative integrated multifunctional pump and a use method.

Background

The bin pump is called bin type pneumatic conveying pump, adopts positive pressure pneumatic conveying mode to convey powdery materials, and is widely applied to conveying materials such as fly ash, cement raw materials, mineral powder and the like in a power plant. The conveying pipeline can be flexibly arranged according to the terrain conditions, so that centralized, decentralized, high-altitude and long-distance conveying is realized, the conveying process is not influenced by natural conditions, the materials are not affected by moisture, the environment is protected, no pollution is caused, the equipment adopts a PLC control system, the equipment can be automatically or manually controlled, and the equipment is proved after long-term practical operation: the pneumatic conveying equipment has stable performance, reliable quality and no dust pollution during conveying, and is ideal pneumatic conveying equipment.

The pump mainly comprises a pressure vessel pump body and a bottom seal head, wherein the bottom seal head is provided with an air inlet, and a fluidization device, which is called a fluidization disc, is arranged inside the seal head. The fluidization plate is formed by a gasification membrane, a gasification assembly and other production processes. A series of elements can fully fluidize the materials above the fluidization plate, so that the materials are sent out from a pipeline inside the bin pump, a plurality of air inlet points are respectively arranged on the pump body, and the characteristics of multiple air inlets ensure the materials to be fully fluidified in the conveying process, so that the conveying of the materials is kept stable. Because of special configuration and the form of the lower bell mouth inside the bin pump, the characteristics of high discharging speed, easy control, dense phase, no accumulation and the like are effectively solved, and the long-distance conveying can be performed.

Most of the existing ash hoppers are connected with the ash hoppers through negative pressure pipes arranged on positive and negative integrated multifunctional pumps, ash materials in the ash hoppers are guided and discharged through negative pressure, the guiding and conveying efficiency of the ash materials is low, and the conveying effect of the ash materials is affected.

Disclosure of Invention

The invention aims to provide a bin pump ash bucket structure for a positive-negative integrated multifunctional pump and a use method thereof, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the bin pump ash bucket structure for the positive-negative integrated multifunctional pump comprises a bin pump ash bucket body for conveying ash materials, a feed inlet for guiding external ash materials is formed above the bin pump ash bucket body, a feed conveying pipe connected with the positive-negative integrated multifunctional pump is arranged at the lower end of the bin pump ash bucket body, a feed conveying component is arranged in the bin pump ash bucket body, oscillating components for dispersing the ash materials are arranged at two sides of the feed conveying component,

wherein, the conveying subassembly drives and shakes the structure and shake from top to bottom when carrying the ash material, after the ash material with hardening is smashed, along storehouse pump ash bucket body by conveying subassembly guide to conveying pipeline lower part carry to positive and negative multifunctional pump one side.

Preferably, the material conveying assembly comprises a lining seat arranged on one side of the periphery of the bin pump ash bucket body, a motor is arranged on one side surface of the lining seat away from the bin pump ash bucket body, the output end of the motor is connected with the input end of a rotating shaft, one side of the rotating shaft is connected with a shaft sleeve, one side of the shaft sleeve is connected with a rotating plate, and one side of the rotating plate is connected with a material dredging rod through a connecting rod.

Preferably, the lining seat is provided with an inner connecting pipe at one side of the interior of the bin pump ash bucket body, so that the rotating shaft is connected to the interior of the bin pump ash bucket body through the inner connecting pipe.

Preferably, the upper part of the rotating plate is provided with a shaft hole, and a bearing sleeve is arranged in the shaft hole.

Preferably, an eccentric rod is connected to one side of the shaft sleeve, and the eccentric rod is matched with the bearing sleeve, so that the shaft sleeve is connected with the rotating plate.

Preferably, a bearing seat is arranged at one side of the lower part of the rotating plate, and the bearing seat is connected with the connecting rod so as to enable the connecting rod to rotate relative to the rotating plate.

Preferably, the inside of storehouse pump ash bucket body is provided with the support frame, the support frame is constituteed for four sets of backup pads, and four sets of backup pads are central symmetry and lay, just the middle part of support frame is provided with spacing sleeve pipe.

Preferably, the vibration assembly comprises fan-shaped vibration plates arranged on two sides of the periphery of the upper part of the material-thinning rod, and a plurality of material-thinning holes are formed in the vibration plates.

Preferably, supporting legs are arranged around the bottom end of the bin pump ash bucket body, and a connecting pipe is arranged on one side of the lower part of the bin pump ash bucket body so that an external air pump is connected with the bin pump ash bucket body.

The application method of the bin pump ash bucket structure for the positive-negative integrated multifunctional pump comprises the following steps of:

firstly, integrating a conveying pipe with positive and negative functions, connecting a connecting pipe with an external air pump, and then conveying ash to be conveyed into the interior of an ash bucket body of a bin pump through a feed inlet guide conveying pipe;

sealing the feed inlet, and connecting an external air pump with the bin pump ash bucket body through a connecting pipe;

step (C), controlling an external air pump to convey air into the bin pump ash bucket body so that the internal air pressure of the bin pump ash bucket body is increased, and driving ash in the bin pump ash bucket body to be guided out of a conveying pipe under the action of air pressure, so that the ash is fed in one stage;

step (D), then, starting a motor to drive a rotating shaft to rotate in the inner connecting pipe, driving an eccentric rod on one side of a shaft sleeve to rotate in a bearing sleeve in a shaft hole of a rotating plate, driving the rotating plate to eccentrically rotate, and driving a material dredging rod below to move up and down in a limiting pipe sleeve through the action of a connecting rod, so that ash in an ash hopper body of a bin pump is continuously smashed and conveyed to one side of a conveying pipe, and is conveyed out through the conveying pipe;

step (E), in the process that the motor drives the material dredging rod to move up and down, the vibrating plates on two sides are driven to vibrate up and down, the bulk ash materials which are hardened and arranged right above the vibrating plates in the bin pump ash bucket body are vibrated and smashed, the bulk ash materials are smashed, and the bulk ash materials are conveyed along the inner wall of the bin pump ash bucket body along with the material dredging rod, and are conveyed to one side of a conveying pipe, so that two-stage feeding of the ash materials is completed.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the arranged material conveying assembly, the eccentric rod can be driven to rotate by the motor, the eccentric rod is driven to move up and down by the up-and-down rotation action between the eccentric rod and the rotating plate, the ash materials in the bin pump ash bucket body are impacted up and down to be led out, so that a certain mechanical supercharging action is generated, the conveying efficiency of the ash materials in the bin pump ash bucket body is effectively improved, and meanwhile, the hardened massive ash materials can be effectively impacted and crushed by the up-and-down impact action of the material dredging rod, the blockage of the conveying pipe by the massive ash materials is prevented, and the conveying effect of the ash materials is improved.

2. According to the invention, through the vibration assembly, the ash in the bin pump ash bucket body can be effectively vibrated, the hardening phenomenon of the ash in the bin pump ash bucket body caused by excessive extrusion is prevented, meanwhile, the ash in the bin pump ash bucket body is guided to the lower part of the conveying pipe through the positive pressure effect by the pumping action of the external air pump, and the ash is matched with the negative pressure conveying pipe of the multifunctional pump, so that the conveying efficiency of the ash is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of an embodiment of the present invention;

FIG. 3 is a schematic view of a rotating plate according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of an internal structure of an embodiment of the present invention;

fig. 5 is a schematic diagram of a vibration plate structure according to an embodiment of the present invention.

In the figure: 1. a bin pump ash bucket body; 101. a feed inlet; 102. a connecting pipe; 103. a material conveying pipe; 104. the method comprises the steps of carrying out a first treatment on the surface of the 2. A lining seat; 201. a motor; 202. an inner connecting pipe; 203. a rotating shaft; 204. a shaft sleeve; 205. an eccentric rod; 206. a rotating plate; 2061. a shaft hole; 2062. a bearing sleeve; 2063. a bearing seat; 207. a connecting rod; 208. a material thinning rod; 3. Support legs; 4. a support frame; 401. a limit sleeve; 5. a vibration plate; 501. and (5) dredging holes.

Detailed Description

In order to solve the problems that the existing ash guiding and conveying efficiency is low and the ash conveying effect is affected, the invention provides a bin pump ash bucket structure for a positive-negative integrated multifunctional pump and a using method. The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the invention thus described is only a part, but not all, of the inventions described. All other inventions obtained by those skilled in the art without making any creative effort based on the inventions in the present invention are within the protection scope of the present invention.

Referring to fig. 1-5, the invention provides a bin pump ash bucket structure for a positive and negative integrated multifunctional pump, which comprises a bin pump ash bucket body 1 for conveying ash materials, a feed inlet 101 for introducing external ash materials is arranged above the bin pump ash bucket body 1, a feed conveying pipe 103 connected with the positive and negative integrated multifunctional pump is arranged at the lower end of the bin pump ash bucket body 1, a feed conveying component is arranged in the bin pump ash bucket body 1, oscillating components for dispersing the ash materials are arranged at two sides of the feed conveying component,

wherein, the conveying subassembly drives the vibration structure and shakes from top to bottom when carrying the ash material, after the ash material with hardening is smashed, along storehouse pump ash bucket body 1 by conveying subassembly guide delivery conveying pipeline 103 lower part to positive and negative multifunctional pump one side.

Further material conveying subassembly is including setting up in the inside lining seat 2 of storehouse pump ash bucket body 1 periphery one side, and inside lining seat 2 has kept away from the inside lining seat 2 of storehouse pump ash bucket body 1 and has been laid motor 201, and motor 201's output is connected with the input of pivot 203, and one side of pivot 203 is connected with axle sleeve 204, and one side of axle sleeve 204 is connected with rotating plate 206, and one side of rotating plate 206 is connected with the material-repellent pole 208 through connecting rod 207, and material-repellent pole 208 vibrations from top to bottom drive the inside ash material of storehouse pump ash bucket body 1 and constantly smash scattered, applys mechanical pressure simultaneously, accomplishes the ash material and carries.

Further inside lining seat 2 is provided with interior pipe 202 in the inside one side of storehouse pump ash bucket body 1 to make pivot 203 be connected to inside the storehouse pump ash bucket body 1 through interior pipe 202, easily the pivot 203 of motor 201 extends to inside the storehouse pump ash bucket body 1.

Further, a shaft hole 2061 is formed in the upper portion of the rotary plate 206, a bearing sleeve 2062 is arranged in the shaft hole 2061, and the bearing sleeve 2062 is connected with the eccentric rod 205 to prevent the eccentric rod 205 from driving the rotary plate 206 to rotate.

An eccentric rod 205 is connected to one side of the further sleeve 204, and the eccentric rod 205 cooperates with the bearing housing 2062 to connect the sleeve 204 with the swivel plate 206.

A bearing seat 2063 is disposed at one side of the lower part of the further rotating plate 206, the bearing seat 2063 is connected with the connecting rod 207 to enable the connecting rod 207 to rotate relative to the rotating plate 206, and the bearing seat 2063 is connected with the rotating plate 206 to prevent the rotating plate 206 from driving the connecting rod 207 to rotate.

The inside of further storehouse pump ash bucket body 1 is provided with support frame 4, and support frame 4 is constituteed for four groups backup pads, and four groups backup pads are central symmetry and lay, and the middle part of support frame 4 is provided with spacing sleeve 401, through spacing pipe box for dredge material pole 208 can only reciprocate, avoids its production deflection.

Further vibration subassembly is including setting up in the fan-shaped vibrations board 5 of dredge material pole 208 upper portion periphery both sides, and a plurality of dredge material holes 501 have been seted up to vibrations board 5, and the vibrations board is less than the ash material guide of dredge material hole with the chi footpath and spills, breaks up the ash material that the chi footpath is greater than dredge material hole through vibrations.

Further bottom of storehouse pump ash bucket body 1 is provided with supporting leg 3 all around, and lower part one side of storehouse pump ash bucket body 1 is provided with connecting pipe 102 to make outside air pump be connected with storehouse pump ash bucket body 1, outside air pump passes through connecting pipe 102 and carries atmospheric pressure to inside storehouse pump ash bucket body 1.

The application method of the bin pump ash bucket structure for the positive-negative integrated multifunctional pump comprises the following steps of:

firstly, integrating a conveying pipe 103 with positive and negative functions, connecting a connecting pipe 102 with an external air pump, and then guiding the conveying pipe 103 and the inside of a bin pump ash bucket body 1 through a feeding hole 101 by ash to be conveyed;

step (B), a feed inlet 101 is sealed, and an external air pump is connected with a bin pump ash bucket body 1 through a connecting pipe 102;

step (C), controlling an external air pump to convey air into the bin pump ash bucket body 1 so as to enlarge the internal air pressure, and driving ash in the bin pump ash bucket body 1 to be guided out of the conveying pipe 103 under the action of the air pressure, wherein the ash is fed in one stage;

step (D), then, starting the motor 201 to drive the rotating shaft 203 to rotate in the inner connecting pipe 202, driving the eccentric rod 205 on one side of the shaft sleeve 204 to rotate in the bearing sleeve 2062 in the shaft hole 2061 of the rotating plate 206, driving the rotating plate 206 to eccentrically rotate, and driving the lower material-thinning rod 208 to move up and down in the limiting pipe sleeve through the action of the connecting rod 207, so as to continuously pound and send the ash in the bin pump ash bucket body 1 to one side of the material conveying pipe 103, and then guiding the ash out through the material conveying pipe 103;

step (E), in the process that the motor 201 drives the material-dredging rod 208 to move up and down, the vibrating plates 5 on two sides are driven to vibrate up and down, the block-shaped ash materials hardened right above the vibrating plates 5 in the bin pump ash bucket body 1 are vibrated and smashed, the block-shaped ash materials are smashed, and along with the inner wall of the bin pump ash bucket body 1 when the material-dredging rod 208 conveys the ash materials, the ash materials are conveyed to one side of the conveying pipe 103, and two-stage feeding of the ash materials is completed.

The bin pump ash bucket structure for the positive-negative integrated multifunctional pump and the use method thereof have the following advantages:

1. according to the invention, through the arranged material conveying assembly, the eccentric rod 205 can be driven to rotate by the motor 201, the eccentric rod 205 and the rotating plate 206 are driven to move up and down by the up-and-down rotation action, the material discharging rod 208 is driven to move up and down, the ash in the hopper body 1 is impacted up and down, a certain mechanical pressurizing action is generated, the conveying efficiency of the ash in the hopper body 1 is effectively improved, and meanwhile, the hardened massive ash can be effectively impacted and crushed by the up-and-down impact action of the material discharging rod 208, so that the material conveying pipe 103 is prevented from being blocked by the massive ash, and the conveying effect of the ash is improved.

2. According to the invention, through the vibration assembly, the ash in the bin pump ash bucket body 1 can be effectively vibrated, the hardening phenomenon of the ash in the bin pump ash bucket body 1 caused by excessive extrusion is prevented, meanwhile, the ash in the bin pump ash bucket body 1 is conveyed to the lower part of the conveying pipe 103 through the positive pressure effect by the pumping action of the external air pump, and the ash is matched with the negative pressure conveying pipe of the multifunctional pump, so that the conveying efficiency of the ash is improved.

Although the present invention has been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (9)

1. The utility model provides a storehouse pump ash bucket structure that positive and negative integration multifunctional pump was used which characterized in that: comprises a bin pump ash bucket body (1) for conveying ash materials, a feed inlet (101) for guiding external ash materials is formed above the bin pump ash bucket body (1), a feed conveying pipe (103) connected with a positive-negative integrated multifunctional pump is arranged at the lower end of the bin pump ash bucket body (1), a feed conveying component is arranged in the bin pump ash bucket body (1), oscillating components for dispersing the ash materials are arranged at two sides of the feed conveying component,

the conveying assembly drives the oscillating structure to vibrate up and down while conveying the ash, and after the hardened ash is crushed, the ash hopper body (1) of the bin pump is guided to the lower part of the conveying pipe (103) along the conveying assembly to be conveyed to one side of the positive-negative integrated multifunctional pump;

the conveying assembly comprises a lining seat (2) arranged on one side of the periphery of a bin pump ash bucket body (1), a motor (201) is arranged on one side surface of the lining seat (2) away from the bin pump ash bucket body (1), an output end of the motor (201) is connected with an input end of a rotating shaft (203), one side of the rotating shaft (203) is connected with a shaft sleeve (204), one side of the shaft sleeve (204) is connected with a rotating plate (206), and one side of the rotating plate (206) is connected with a material dredging rod (208) through a connecting rod (207).

2. The hopper structure for a positive and negative integrated multifunctional pump of claim 1, wherein: an inner connecting pipe (202) is arranged on one side of the lining seat (2) positioned in the bin pump ash bucket body (1), so that the rotating shaft (203) is connected to the inside of the bin pump ash bucket body (1) through the inner connecting pipe (202).

3. The hopper structure for a positive and negative integrated multifunctional pump according to claim 2, wherein: the upper part of the rotating plate (206) is provided with a shaft hole (2061), and a bearing sleeve (2062) is arranged in the shaft hole (2061).

4. A hopper pump ash bucket structure for a positive and negative integrated multifunctional pump according to claim 3, characterized in that: an eccentric rod (205) is connected to one side surface of the shaft sleeve (204), and the eccentric rod (205) is matched with the bearing sleeve (2062) so that the shaft sleeve (204) is connected with the rotating plate (206).

5. The hopper pump ash bucket structure for the positive and negative integrated multifunctional pump according to claim 4, wherein: a bearing seat (2063) is arranged on one side of the lower part of the rotating plate (206), and the bearing seat (2063) is connected with the connecting rod (207) so as to enable the connecting rod (207) to rotate relative to the rotating plate (206).

6. The hopper pump ash bucket structure for the positive and negative integrated multifunctional pump according to claim 5, wherein: the novel bin pump ash bucket is characterized in that a supporting frame (4) is arranged in the bin pump ash bucket body (1), the supporting frame (4) is composed of four groups of supporting plates, the four groups of supporting plates are symmetrically distributed in the center, and a limiting sleeve (401) is arranged in the middle of the supporting frame (4).

7. The hopper structure for a positive and negative integrated multifunctional pump of claim 6, wherein: the vibration assembly comprises fan-shaped vibration plates (5) arranged on two sides of the periphery of the upper portion of the material-thinning rod (208), and a plurality of material-thinning holes (501) are formed in the vibration plates (5).

8. The hopper structure for a positive and negative integrated multifunctional pump of claim 7, wherein: the bottom of storehouse pump ash bucket body (1) is provided with supporting leg (3) all around, lower part one side of storehouse pump ash bucket body (1) is provided with connecting pipe (102) to make outside air pump be connected with storehouse pump ash bucket body (1).

9. The method for using the bin pump ash bucket structure for the positive-negative integrated multifunctional pump based on any one of claims 1-8 is characterized by comprising the following steps: the method comprises the following steps:

firstly, integrating a conveying pipe (103) with positive and negative functions, connecting a connecting pipe (102) with an external air pump, and then guiding the conveying pipe (103) and the inside of a warehouse pump ash bucket body (1) through a feeding hole (101) by ash to be conveyed;

step (B), a feed inlet (101) is sealed, and an external air pump is connected with a bin pump ash bucket body (1) through a connecting pipe (102);

step (C), controlling the outside air pump to convey air into the bin pump ash bucket body (1) so that the air pressure in the bin pump ash bucket body is increased, and driving ash in the bin pump ash bucket body (1) to be guided out of the conveying pipe (103) through the action of the air pressure, wherein the ash is fed in one stage;

step (D), then, starting a motor (201), driving a rotating shaft (203) to rotate in an inner connecting pipe (202), driving an eccentric rod (205) at one side of a shaft sleeve (204) to rotate in a bearing sleeve (2062) in a shaft hole (2061) of a rotating plate (206), driving the rotating plate (206) to eccentrically rotate, and driving a material-dredging rod (208) below to move up and down in the limiting pipe sleeve through the action of a connecting rod (207), so as to continuously pound and send ash in a bin pump ash bucket body (1) to one side of a conveying pipe (103), and guiding the ash to be discharged through the conveying pipe (103);

step (E), motor (201) drive the in-process of dredging material pole (208) reciprocates, drive vibrations board (5) of both sides and vibrate from top to bottom, shake the cubic ash material of hardening just above vibrations board (5) with the inside of storehouse pump ash bucket body (1) and smash, make it smash, along with dredging material pole (208) conveying ash material while, along storehouse pump ash bucket body (1) inner wall, the guide is to conveying pipeline (103) one side, accomplish the two-stage pay-off of ash material.