CN110697267A - Bucket is stored to dust material high pressure - Google Patents

Abstract

The invention discloses a high-pressure dust material storage barrel which comprises a storage barrel, wherein a storage cavity is arranged in the storage barrel, dust materials can be stored in the storage cavity, a stirring device is arranged in the storage cavity, the stirring device extrudes the dust materials in the storage cavity through two extrusion plates capable of sliding relatively, and one ends of the extrusion plates, which are close to a symmetrical center, are rotatably connected with stirring shafts.

Description

Bucket is stored to dust material high pressure

Technical Field

The invention relates to the field of material storage containers, in particular to a high-pressure storage barrel for dust materials.

Background

In the life and production in modern society, some dust-shaped materials are often used, the dust materials are generally stored in a high-pressure environment, the dust materials are discharged outwards through a pipeline to be taken under the action of high pressure, but the pipeline is easily blocked by the materials and is not easy to clean, and the dust materials are easily condensed into blocks when the materials are not taken for a long time.

Disclosure of Invention

The technical problem is as follows:

the dust material is easy to block the pipeline and is easy to be coagulated into blocks when not used for a long time.

In order to solve the problems, the high-pressure dust material storage barrel is designed in the embodiment, and comprises a storage barrel, a storage cavity is arranged in the storage barrel, dust materials can be stored in the storage cavity, a stirring device is arranged in the storage cavity and extrudes the dust materials in the storage cavity through two extrusion plates capable of sliding relatively, one ends of the extrusion plates, which are close to a symmetrical center, are rotatably connected with stirring shafts, the stirring shafts can stir the dust materials in the storage cavity through rotation, so that the dust materials are prevented from being solidified into blocks, spline holes are formed in the stirring shafts, spline holes are provided with transmission shafts, one ends of the transmission shafts, which are far away from the symmetrical center, are connected with the stirring device, the transmission shafts are slidably connected with the extrusion plates, a driving shaft is in threaded connection between the extrusion plates, and the direction of the driving shaft is opposite to that of the two extrusion plates, agitating unit drive the drive shaft drives the stripper plate slides, the simultaneous drive the transmission shaft to drive the (mixing) shaft rotates, and then stirs the dust material, it is equipped with pneumatic means to store the chamber left end, pneumatic means pass through the pump can to store the intracavity admit air or to store the intracavity and fill into the dust material, be equipped with discharging device in the inner wall of chamber right side, but manual drive discharging device opens store the chamber, and then pass through the pump to store the intracavity and aerify, and pass through the dust material discharging device discharges to can avoid the dust material to block up discharging device. Advantageously, the stirring device comprises gear cavities which are arranged in the inner walls of the upper side and the lower side of the storage cavity in an up-and-down symmetrical manner, a driving gear is rotatably arranged in the gear cavity and fixedly connected with the driving shaft, the left end and the right end of the driving gear are symmetrically provided with driven gears which are meshed with each other, the transmission shaft is fixedly connected with the driven gears, the stirring shafts on the upper side and the lower side are staggered with each other to avoid collision, a driving motor is fixedly arranged in the inner wall of the lower side of the storage cavity, the lower end of the driving shaft is in power connection with the driving motor to start the driving motor, thereby driving the driving gear to rotate through the driving shaft, further driving the driven gear to rotate, and then drive through the transmission shaft the (mixing) shaft rotates, and then stirs the dust material, simultaneously the drive shaft drives two the stripper plate is close to each other and extrudes the dust material.

Preferably, the storage cavity is internally provided with limiting plates which are vertically symmetrical, the limiting plates are rotationally connected with the driving shaft, the extrusion plates are mutually close to each other and contact the limiting plates, the driving motor is stopped, the collision between the stirring shaft and the extrusion plates is avoided, meanwhile, the driving motor is reversely started, and the extrusion plates are driven by the driving shaft to mutually keep away from each other and slide.

Advantageously, the pneumatic device comprises a vent hole which is communicated with the left side inner wall of the storage cavity and is opened to the left, the vent hole is communicated with the pump, a valve is fixedly arranged in the vent hole, and the pump can inflate the storage cavity or fill the dust material into the storage cavity through the vent hole.

Beneficially, the discharging device comprises a groove communicated with each other and arranged in the inner wall of the right side of the storage cavity, a communicating hole with a rightward opening is arranged in the inner wall of the right side of the groove and communicated with each other, a discharging pipe is fixedly connected to the right end of the storage barrel, a communicating cavity with a rightward opening is arranged in the discharging pipe, a connecting pipe is fixedly connected between the right end of the storage barrel and the discharging pipe, a connecting channel is penetratingly arranged in the connecting pipe and communicated with the communicating cavity, dust materials in the storage cavity are discharged through the groove, the communicating hole, the connecting channel and the communicating cavity, a sealing groove with a rightward opening is arranged in the inner wall of the right side of the communicating cavity and communicated with each other, a sealing sliding plate is slidably arranged on the right side of the discharging pipe, a sliding screw is rotatably connected to the left end of the sealing sliding plate, and a connecting plate is, the right end of the connecting plate is fixedly connected with a plug, the plug can slide into the through hole and block the through hole, a transmission cavity is arranged in the inner wall of the left side of the communication cavity, a planetary gear is rotatably arranged in the transmission cavity, the planetary gear is in threaded connection with the sliding screw rod, a meshing groove with a left opening is arranged in the planetary gear, a sector gear is rotatably arranged in the meshing groove and is meshed with the planetary gear, the left end of the sector gear is fixedly connected with a rotating shaft, the left end of the rotating shaft is fixedly connected with a ratchet wheel, the lower end of the ratchet wheel can be meshed with a one-way wheel, the left end of the one-way wheel is fixedly connected with a sliding shaft, the left end of the sliding shaft is fixedly connected with the connecting plate and pushes the sealing sliding plate to further drive the connecting plate to slide leftwards through the sliding screw rod, thereby driving the sector gear to rotate, further driving the ratchet wheel to rotate through the rotating shaft, further driving the one-way wheel to rotate, further driving the connecting plate to rotate through the sliding shaft, further driving the plug to rotate until the plug is right opposite to the material through hole, then sliding the sealing slide plate to the right, further driving the connecting plate to slide to the right through the sliding screw rod, at this time the plug slides into the material through hole and blocks the material through hole, at this time the sliding screw rod drives the planetary gear to rotate reversely, further driving the sector gear to rotate reversely, further driving the ratchet wheel to rotate reversely through the rotating shaft, at this time the ratchet wheel is not meshed with the one-way wheel, at this time the one-way wheel does not rotate, when the plug completely closes the material through hole, the sector gear and the planetary gear return to the initial state, at the moment, the sealing sliding plate is located in the sealing groove and seals the communication cavity, and the engagement between the planetary gear and the sector gear can enable the connecting plate to rotate one hundred eighty degrees.

Preferably, a clamping groove is formed in the inner wall of the right side of the groove in a communicated mode, when the plug is located in the clamping groove, the sealing sliding plate is located outside the sealing groove, and at the moment, the storage cavity, the groove, the material passing hole, the connecting channel, the communicating cavity and the sealing groove are communicated.

Preferably, an expansion spring is fixedly connected between the left end of the sealing sliding plate and the inner wall of the left side of the sealing groove, the expansion spring is compressed when the sealing sliding plate slides leftwards, and the sealing sliding plate can be pushed to slide rightwards to reset under the elastic force action of the expansion spring.

The invention has the beneficial effects that: the dust material taking device is simple and convenient to operate, the feeding storage and the discharging taking of the dust material are controlled by the pump, the material can be prevented from being blocked due to the fact that the material is remained in the channel, the material can be fully stirred after being stored for a long time, and further the material can be prevented from being solidified into blocks.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

Fig. 1 is a schematic view of the overall structure of a high-pressure storage barrel for dust materials according to the present invention;

FIG. 2 is an enlarged schematic view of "A" of FIG. 1;

FIG. 3 is an enlarged schematic view of "B" of FIG. 1;

FIG. 4 is an enlarged schematic view of "C" of FIG. 2;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a high-pressure dust material storage barrel which comprises a storage barrel 11, wherein a storage cavity 14 is arranged in the storage barrel 11, dust materials can be stored in the storage cavity 14, a stirring device 101 is arranged in the storage cavity 14, the stirring device 101 extrudes the dust materials in the storage cavity 14 through two extrusion plates 47 capable of sliding relatively, one end, close to a symmetrical center, of each extrusion plate 47 is rotatably connected with a stirring shaft 35, the stirring shaft 35 can rotate to stir the dust materials in the storage cavity 14 to prevent the dust materials from being solidified into blocks, a spline hole 36 is arranged in each stirring shaft 35, a transmission shaft 34 is arranged in each spline hole 36, one end, far away from the symmetrical center, of each transmission shaft 34 is connected with the stirring device 101, each transmission shaft 34 is connected with the extrusion plates 47 in a sliding mode, a driving shaft 13 is connected between the extrusion plates 47 in a threaded mode, and the direction of the driving shaft 13 is opposite to, the stirring device 101 drives the driving shaft 13 and drives the extrusion plate 47 to slide, drives the transmission shaft 34 at the same time, and drives the stirring shaft 35 to rotate, so as to stir dust materials, the pneumatic device 100 is arranged at the left end of the storage cavity 14, the pneumatic device 100 can feed air into the storage cavity 14 or charge dust materials into the storage cavity 14 through the pump 17, the discharging device 102 is arranged in the inner wall of the right side of the storage cavity 14, the discharging device 102 can be manually driven to open the storage cavity 14, so that the storage cavity 14 is charged with air through the pump 17, the dust materials are discharged through the discharging device 102, and the dust materials can be prevented from blocking the discharging device 102.

According to the embodiment, the details of the stirring device 101 will be described below, the stirring device 101 includes a gear cavity 21 disposed in the inner walls of the upper and lower sides of the storage cavity 14 in a vertically symmetrical manner, a driving gear 20 is rotatably disposed in the gear cavity 21, the driving gear 20 is fixedly connected to the driving shaft 13, driven gears 19 are disposed at the left and right ends of the driving gear 20 in a symmetrical and meshed manner, the transmission shaft 34 is fixedly connected to the driven gears 19, the stirring shafts 35 at the upper and lower sides are staggered to avoid collision, a driving motor 12 is fixedly disposed in the inner wall of the lower side of the storage cavity 14, the lower end of the driving shaft 13 is dynamically connected to the driving motor 12, the driving motor 12 is started, the driving shaft 13 drives the driving gear 20 to rotate, the driven gear 19 to rotate, and the stirring shaft 35 to rotate through the transmission shaft 34, and then the dust material is stirred, and simultaneously the driving shaft 13 drives the two extrusion plates 47 to approach each other and extrude the dust material.

Advantageously, the storage chamber 14 is provided with stop plates 18, which are vertically symmetrical, the stop plates 18 being rotatably connected to the driving shaft 13, and when the squeeze plates 47 approach each other and contact the stop plates 18, the driving motor 12 is stopped, the stir shaft 35 is prevented from colliding with the squeeze plates 47, and the driving motor 12 is reversely started, and the squeeze plates 47 are driven by the driving shaft 13 to slide away from each other.

According to an embodiment, the pneumatic device 100 is described in detail below, the pneumatic device 100 includes a vent hole 15 that is communicated with the left inner wall of the storage cavity 14 and has a left opening, the vent hole 15 is communicated with the pump 17, a valve 16 is fixedly disposed in the vent hole 15, and the pump 17 can inflate the storage cavity 14 through the vent hole 15 or inflate the storage cavity 14 with a dust material.

According to the embodiment, the following detailed description will be made on the discharging device 102, the discharging device 102 includes a groove 25 communicated with each other and disposed in the inner wall of the right side of the storage cavity 14, a material through hole 26 with a right opening is disposed in the inner wall of the right side of the groove 25, a discharging pipe 46 is fixedly connected to the right end of the storage barrel 11, a communicating cavity 29 with a right opening is disposed in the discharging pipe 46, a connecting pipe 28 is fixedly connected between the right end of the storage barrel 11 and the discharging pipe 46, a connecting passage 27 is penetratingly disposed in the connecting pipe 28, the connecting passage 27 communicates the material through hole 26 with the communicating cavity 29, the dust material in the storage cavity 14 is discharged through the groove 25, the material through hole 26, the connecting passage 27 and the communicating cavity 29, a sealing groove 32 with an opening to the right is disposed in the inner wall of the right side of the communicating cavity 29, and a sealing sliding plate 30 is slidably disposed on the right, the left end of the sealing sliding plate 30 is rotatably connected with a sliding screw 33, the left end of the sliding screw 33 extends into the groove 25 and is rotatably connected with a connecting plate 24, the right end of the connecting plate 24 is fixedly connected with a plug 23, the plug 23 can slide into the material passing hole 26 and block the material passing hole 26, a transmission cavity 39 is arranged in the inner wall of the left side of the communication cavity 29, a planetary gear 42 is rotatably arranged in the transmission cavity 39, the planetary gear 42 is in threaded connection with the sliding screw 33, an engaging groove 41 with a leftward opening is arranged in the planetary gear 42, a sector gear 43 is rotatably arranged in the engaging groove 41, the sector gear 43 is engaged with the planetary gear 42, the left end of the sector gear 43 is fixedly connected with a rotating shaft 44, the left end of the rotating shaft 44 is fixedly connected with a ratchet wheel 45, the lower end of the ratchet wheel 45 can be engaged with a one-way wheel 40, and the left, the left end of the sliding shaft 37 is fixed to the connecting plate 24, the sliding shaft 30 is pushed, the connecting plate 24 is driven to slide leftwards by the sliding screw 33, meanwhile, the sliding screw 33 drives the planetary gear 42 to rotate, and further drives the sector gear 43 to rotate, and further drives the ratchet wheel 45 to rotate by the rotating shaft 44, and further drives the one-way wheel 40 to rotate, and further drives the connecting plate 24 to rotate by the sliding shaft 37, and further drives the plug 23 to rotate, until the plug 23 is right opposite to the material passing hole 26, at which time, the sliding shaft 33 drives the planetary gear 42 to rotate reversely, and further drives the sector gear 43 to rotate rightwards by the sliding screw 33, at which time, the plug 23 slides into the material passing hole 26 and blocks the material passing hole 26, and then the rotation shaft 44 drives the ratchet wheel 45 to rotate reversely, at this time, the ratchet wheel 45 is not meshed with the one-way wheel 40, at this time, the one-way wheel 40 does not rotate, when the plug 23 completely closes the through-material hole 26, the sector gear 43 and the planetary gear 42 return to the initial state, at this time, the seal sliding plate 30 is located in the seal groove 32 and seals the communication cavity 29, and the meshing between the planetary gear 42 and the sector gear 43 can enable the connecting plate 24 to rotate by one hundred eighty degrees.

Advantageously, a clamping groove 22 is formed in the inner wall of the right side of the groove 25 in a communicating manner, when the plug 23 is located in the clamping groove 22, the seal sliding plate 30 is located outside the seal groove 32, and at this time, the storage chamber 14, the groove 25, the through-material hole 26, the connecting channel 27, the communicating chamber 29 and the seal groove 32 are communicated with each other.

Advantageously, an expansion spring 31 is fixedly connected between the left end of the seal sliding plate 30 and the inner wall of the left side of the seal groove 32, when the seal sliding plate 30 slides leftwards, the expansion spring 31 is compressed, and under the elastic force of the expansion spring 31, the seal sliding plate 30 can be pushed to slide rightwards for resetting.

The following describes in detail the use steps of a high-pressure storage barrel for dust material in the present disclosure with reference to fig. 1 to 5:

initially, the sealing slide plate 30 is located outside the sealing groove 32, the plug 23 is located inside the slot 22, the storage cavity 14, the groove 25, the through hole 26, the connecting channel 27, the communicating cavity 29 and the sealing groove 32 are communicated, and the squeezing plates 47 are in a state of being away from each other.

When the device is used, the pump 17 is charged with air through the vent hole 15 to clean the storage cavity 14, at the moment, the air is discharged outwards from the material passing hole 26, the connecting channel 27, the communicating cavity 29 and the sealing groove 32, the sealing sliding plate 30 is pushed to the left after cleaning is finished and the expansion spring 31 is compressed, at the moment, the connecting plate 24 is driven to slide to the left through the sliding screw 33, the plug 23 is driven to slide to the left and be separated from the clamping groove 22, meanwhile, the sliding screw 33 drives the planetary gear 42 to rotate, the sector gear 43 to rotate, the ratchet 45 to rotate through the rotating shaft 44, the one-way wheel 40 to rotate, the connecting plate 24 to rotate through the sliding shaft 37 until the plug 23 is right opposite to the material passing hole 26, at the moment, the sealing sliding plate 30 is loosened, the sealing sliding plate 30 is driven to slide to the right under the elastic force of the, and then the plug 23 is driven to slide into the material passing hole 26 and block the material passing hole 26, at this time, the sliding screw 33 drives the planetary gear 42 to rotate reversely, and further drives the sector gear 43 to rotate reversely, and further drives the ratchet wheel 45 to rotate reversely through the rotating shaft 44, at this time, the ratchet wheel 45 is not meshed with the one-way wheel 40, at this time, the one-way wheel 40 does not rotate, and at this time, the sealing slide plate 30 is located in the sealing groove 32 and seals the communicating cavity 29.

Starting pump 17, fill into the dust material through air vent 15 in to storing chamber 14 and store, when the storage time is longer, start driving motor 12, and then drive driving gear 20 through drive shaft 13 and rotate, and then drive driven gear 19 and rotate, and then drive (mixing) shaft 35 through transmission shaft 34 and rotate and stir the dust material, avoid the dust material to solidify into the piece, drive shaft 13 drives stripper plate 47 and is close to each other and slides simultaneously, contact limiting plate 18 until stripper plate 47, reverse starting driving motor 12 this moment, and then drive stripper plate 47 through drive shaft 13 and keep away from each other and slide and resume initial condition, and then can make the dust material in (mixing) shaft 35 can the intensive mixing storage chamber 14.

When the dust material needs to be taken out, the sealing sliding plate 30 is pushed leftwards and compresses the expansion spring 31, the sliding screw 33 and the connecting plate 24 are driven to slide leftwards, the plug 23 is separated from the material through hole 26, the sliding screw 33 drives the planetary gear 42 to rotate, the sector gear 43 is driven to rotate, the ratchet wheel 45 is driven to rotate through the rotating shaft 44, the one-way wheel 40 is driven to rotate, the connecting plate 24 is driven to rotate through the sliding shaft 37 until the plug 23 is right opposite to the clamping groove 22, the sealing sliding plate 30 is loosened at the moment, the sealing sliding plate 30 is driven to slide rightwards under the elastic action of the expansion spring 31 to slide outside the sealing groove 32, the sliding screw 33 drives the connecting plate 24 and the plug 23 to slide rightwards, the plug 23 slides into the clamping groove 22 and is clamped, the pump 17 continuously inflates the storage cavity 14 through the vent hole 15, and the dust, The material passing hole 26, the connecting channel 27, the communicating cavity 29 and the sealing groove 32 are discharged, and when the dust material is stopped to be taken, the pump 17 is stopped and the sealing sliding plate 30 is pushed leftwards.

The invention has the beneficial effects that: the dust material taking device is simple and convenient to operate, the feeding storage and the discharging taking of the dust material are controlled by the pump, the material can be prevented from being blocked due to the fact that the material is remained in the channel, the material can be fully stirred after being stored for a long time, and further the material can be prevented from being solidified into blocks.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims (7)

1. The utility model provides a bucket is stored to dust material high pressure, is including storing the bucket, its characterized in that: a storage cavity is arranged in the storage barrel, dust materials can be stored in the storage cavity, a stirring device is arranged in the storage cavity, the stirring device extrudes the dust materials in the storage cavity through two extrusion plates capable of sliding relatively, and one ends of the extrusion plates, which are close to the symmetrical center, are rotatably connected with stirring shafts; a spline hole is formed in the stirring shaft, a transmission shaft is arranged in the spline hole in a spline mode, one end, far away from the symmetry center, of the transmission shaft is connected to the stirring device, and the transmission shaft is connected to the extrusion plate in a sliding mode; a driving shaft is in threaded connection between the extrusion plates, and the driving shaft is in threaded connection with the two extrusion plates in the opposite direction; the left end of the storage cavity is provided with a pneumatic device, and the pneumatic device can be used for feeding air into the storage cavity or feeding dust materials into the storage cavity through the pump; a discharging device is arranged in the inner wall of the right side of the storage cavity and can be manually driven to open the storage cavity.

2. A dust material high pressure storage barrel according to claim 1, wherein: the stirring device comprises gear cavities which are arranged in the inner walls of the upper side and the lower side of the storage cavity in an up-and-down symmetrical manner, driving gears are rotatably arranged in the gear cavities, the driving gears are fixedly connected to the driving shaft, driven gears are symmetrically arranged at the left end and the right end of the driving gears in a meshed manner, and the driving shaft is fixedly connected to the driven gears; and a driving motor is fixedly arranged in the inner wall of the lower side of the storage cavity, and the lower end of the driving shaft is in power connection with the driving motor.

3. A dust material high pressure storage barrel according to claim 2, wherein: limiting plates are symmetrically arranged in the storage cavity from top to bottom, and the limiting plates are rotatably connected to the driving shaft.

4. A dust material high pressure storage barrel according to claim 1, wherein: the pneumatic device comprises a vent hole which is communicated with the storage cavity and is arranged in the inner wall of the left side of the storage cavity, the vent hole is opened leftwards, the vent hole is communicated with the pump, and a valve is fixedly arranged in the vent hole.

5. A dust material high pressure storage barrel according to claim 1, wherein: the discharging device comprises a groove which is communicated and arranged in the inner wall of the right side of the storage cavity, a communicating hole with a right opening is arranged in the inner wall of the right side of the groove in a communicating manner, the right end of the storage barrel is fixedly connected with a discharging pipe, a communicating cavity with a right opening is arranged in the discharging pipe, a connecting pipe is fixedly connected between the right end of the storage barrel and the discharging pipe, a connecting channel is arranged in the connecting pipe in a through manner, and the connecting channel is communicated with the communicating hole and the communicating cavity; a sealing groove with a rightward opening is formed in the inner wall of the right side of the communicating cavity in a communicating mode, a sealing sliding plate is arranged on the right side of the discharging pipe in a sliding mode, a sliding screw rod is connected to the left end of the sealing sliding plate in a rotating mode, the left end of the sliding screw rod extends into the groove and is connected with a connecting plate in a rotating mode, the right end of the connecting plate is fixedly connected with a plug, and the plug can slide into the material through hole and block the material through hole; a transmission cavity is arranged in the inner wall of the left side of the communication cavity, a planetary gear is rotatably arranged in the transmission cavity, the planetary gear is in threaded connection with the sliding screw, an engagement groove with a left opening is formed in the planetary gear, a sector gear is rotatably arranged in the engagement groove, the sector gear is engaged with the planetary gear, the left end of the sector gear is fixedly connected with a rotating shaft, the left end of the rotating shaft is fixedly connected with a ratchet wheel, the lower end of the ratchet wheel can be engaged with a one-way wheel, the left end of the one-way wheel is fixedly connected with a sliding shaft, and the left end of the sliding shaft is fixedly connected with the.

6. A dust material high pressure storage barrel according to claim 5, wherein: and a clamping groove is formed in the inner wall of the right side of the groove in a communicated manner.

7. A dust material high pressure storage barrel according to claim 5, wherein: and an expansion spring is fixedly connected between the left end of the sealing sliding plate and the inner wall of the left side of the sealing groove.

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