CN118239135A - Charging bucket device capable of discharging automatically - Google Patents

Abstract

The invention discloses a charging bucket device capable of automatically discharging, which belongs to the technical field of charging bucket equipment and comprises a reaction tank, a driving barrel, a driving rod, a shell, a middle shaft, a telescopic rod and a movable arm assembly, wherein the driving barrel and the driving rod are rotationally arranged in the reaction tank, a plurality of shells are assembled on the driving barrel in a staggered manner, the middle shaft in the shells is connected with the driving rod in a linked manner, the telescopic rod is rotationally arranged in the shells and is connected with the middle shaft in a linked manner, and the movable arm assembly is connected with the telescopic rod in a linked manner.

Description

Charging bucket device capable of discharging automatically

Technical Field

The invention belongs to the technical field of charging bucket equipment, and particularly relates to a charging bucket device capable of automatically discharging materials.

Background

The material tank is a device specially used for storing, processing and transmitting various chemical substances in the chemical industry, has good corrosion resistance and mechanical strength, is suitable for storing various chemical substances such as acid and alkali, alcohols, gas and the like, and is not only used for storing, but also possibly relates to functions of heating, stirring, transmitting and the like. The chemical material tank comprises a large vertical storage tank, a small vertical storage tank, a conical roof storage tank and the like, and is suitable for different capacities and application requirements.

When producing the material that partial viscosity is great, the material after the reaction is easy to adhere to the inner wall of jar body, and the material is difficult to empty simply opening the valve to follow-up reaction raw materials's addition is inaccurate, leads to the inaccurate quality that influences the product of formula.

Disclosure of Invention

Aiming at the defects existing in the prior art, the embodiment of the invention aims to provide a charging bucket device capable of automatically discharging materials so as to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The utility model provides a can automatic discharging's material jar device, includes a jar body subassembly, jar body subassembly includes retort, conical end mouth, feed inlet, bin outlet and tray, and the retort top is provided with the feed inlet that is used for the input material, and the retort bottom is provided with conical end mouth and conical end mouth bottom is provided with the bin outlet that is used for discharging the material, still fixedly be provided with the tray in the inner chamber of retort, the tray is close to bin outlet one end setting;

The driving rod assembly comprises a driving barrel, fixed shaft discs, driving rods and driving bevel gears, the driving barrel is rotatably arranged on the tray, a plurality of fixed shaft discs are coaxially arranged in the driving barrel, the driving rods are rotatably assembled in the plurality of fixed shaft discs and coaxially arranged with the driving barrel, and a plurality of driving bevel gears are fixedly assembled on the driving rods;

The transmission component comprises a shell, a middle shaft, transmission bevel gears and cross insertion tubes, wherein a plurality of the shells are assembled on the shell of the driving cylinder in a staggered manner, the middle shaft is rotatably arranged in the shell, one end of the middle shaft, facing the driving cylinder, is also provided with the transmission bevel gears, the transmission bevel gears are meshed with the driving bevel gears, and one end of the middle shaft, far away from the driving cylinder, is provided with the cross insertion tubes;

the adjusting component is arranged in the shell and is connected with the middle shaft in a linkage way;

The driving shaft assembly comprises a telescopic rod, a press joint and a cross sleeve, the telescopic rod is rotatably arranged in the shell, the press joint is arranged at one end of the telescopic rod, facing the middle shaft, of the telescopic rod, the cross sleeve is arranged at the tail end of the press joint, the press joint is slidably sleeved at one end of the middle shaft, and the cross sleeve is matched with the cross sleeve;

The movable arm assembly comprises a stirring shell, a side through groove, an inner sliding plate and a side scraping plate, wherein the stirring shell is rotationally assembled at the other end of the shell, the side through groove is formed in the tail end of the stirring shell, the inner sliding plate is slidably arranged in the stirring shell, one end of the inner sliding plate is fixedly connected with the telescopic rod, the side scraping plate is fixedly connected with the other end of the inner sliding plate, and the side scraping plate is slidably assembled in the side through groove.

As a further scheme of the invention, the driving rod assembly further comprises a first driven disc, a second driven disc and a scraping plate, wherein the first driven disc is arranged at the top of the driving cylinder and fixedly connected with the driving cylinder, the second driven disc is arranged at the top of the driving rod and fixedly connected with the driving rod, and the scraping plate is fixedly arranged at the bottom of the driving cylinder and matched with the conical bottom opening.

As a further scheme of the invention, the tank body assembly further comprises a main driving shaft and driving discs, the main driving shaft is fixedly arranged on the reaction tank, two groups of driving discs with equal diameters are arranged on the main driving shaft, the two groups of driving discs are respectively connected with the first driven discs and the second driven discs through synchronous belt transmission, and the main driving shaft is used for controlling differential rotation of the driving cylinder and the driving rod.

As a further scheme of the invention, the transmission member further comprises a central shaft disc and a ratchet gear, wherein the central shaft disc is fixedly assembled on the central shaft, and one end of the central shaft disc, facing the driving cylinder, is provided with the ratchet gear.

As a further scheme of the invention, the adjusting assembly comprises an adjusting disk, an elastic clamping plate, a secondary moving disk, an adjusting rod, a screw rod, a stop block and a guide rod, wherein the adjusting disk is rotationally sleeved on a middle shaft, one end of the adjusting disk, facing the middle shaft, is provided with a plurality of elastic clamping plates, the elastic clamping plates are circumferentially arranged on the adjusting disk and are movably connected with the adjusting disk, the secondary moving disk fixed shaft is arranged in a cavity of the shell and is connected with the adjusting disk through a synchronous belt transmission, the adjusting rod is fixedly connected with the secondary moving disk in a coaxial manner, the screw rod fixed shaft is arranged in the cavity of the shell and is connected with the adjusting rod in a linkage manner, the stop block is movably assembled on the screw rod, and the guide rod is fixedly arranged in the cavity of the shell and is in sliding connection with the stop block for limiting the movement track of the stop block.

As a further scheme of the invention, the adjusting assembly further comprises a first ratchet plate and a second ratchet plate, wherein the first ratchet plate is fixedly connected to one end of the adjusting rod, the second ratchet plate is fixedly connected to one end of the screw rod and is arranged towards the first ratchet plate, and the first ratchet plate and the second ratchet plate are meshed and connected.

As a further scheme of the invention, the driving shaft assembly further comprises side cylinder walls, inclined guide surfaces, positioning grooves, positioning keys and a pressure plate, wherein two groups of side cylinder walls are fixedly assembled in the cavity of the shell and are arranged in a central symmetry mode, the two groups of side cylinder walls are slidably connected with the telescopic rod, the side of each side cylinder wall, which faces the compression joint, is also provided with the inclined guide surfaces, the positioning grooves are formed between the two groups of side cylinder walls, the two groups of positioning keys are fixedly assembled on the outer diameter of the telescopic rod, and the pressure plate is fixedly assembled on the outer diameter of the telescopic rod and is connected with the shell through springs.

In summary, compared with the prior art, the embodiment of the invention has the following beneficial effects:

According to the invention, the rotatable driving cylinder and the driving rod are arranged in the tank body, the plurality of transmission members connected with the driving rod in a linkage way are arranged on the outer diameter of the driving cylinder in a lamination way, and the rotation state of the movable arm assembly at one end of the transmission member can be adjusted, so that the dual functions of stirring materials and cleaning the inner wall of the tank body are realized, the viscous materials adhered in the tank can be effectively removed, and the influence on the actual feeding amount of the subsequent raw materials is avoided.

Drawings

Fig. 1 is a schematic view of a bucket device capable of automatically discharging materials according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a bucket device capable of automatically discharging materials according to an embodiment of the present invention.

Fig. 3 is a schematic view showing the structure of a driving rod assembly and a movable arm assembly in a bucket device capable of automatically discharging materials according to an embodiment of the present invention.

Fig. 4 is an enlarged schematic view of reference symbol a in fig. 3.

Fig. 5 is a schematic structural view of a driving rod assembly and an adjusting assembly in a bucket device capable of automatically discharging materials according to an embodiment of the present invention.

Fig. 6 is an enlarged schematic view of reference symbol B in fig. 5.

Fig. 7 is a connection structure diagram of a housing, a telescopic rod, a stirring housing and an inner slide plate in a bucket device capable of automatically discharging materials according to an embodiment of the present invention.

Reference numerals: 1-tank assembly, 101-reaction tank, 102-cone bottom port, 103-feed port, 104-discharge port, 105-tray, 106-main drive shaft, 107-drive plate, 2-drive bar assembly, 201-drive cylinder, 202-fixed shaft plate, 203-drive bar, 204-drive bevel gear, 205-first driven plate, 206-second driven plate, 207-scraper blade, 3-drive member, 301-housing, 302-mid-shaft, 303-drive bevel gear, 304-mid-shaft plate, 305-ratchet gear, 306-cross cannula, 4-adjustment assembly, 401-adjustment plate, 402-spring clamp plate, 403-sub-drive plate, 404-adjustment rod, 405-first ratchet plate, 406-second ratchet plate, 407-lead screw, 408-stop, 409-guide bar, 5-drive shaft assembly, 501-telescoping bar, 502-side cylinder wall, 503-bevel gear, 504-detent, 505-detent, 506-guide plate, 507-crimp head, 508-cross sleeve, 6-pressure plate assembly, 601-agitation housing, 603-side scraper blade, 602-side scraper blade, and 604-side inner slide plate.

Detailed Description

In order to more clearly illustrate the structural features and efficacy of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and examples.

Referring to fig. 1-7, a tank device capable of automatically discharging materials in an embodiment of the present invention includes a tank assembly 1, wherein the tank assembly 1 includes a reaction tank 101, a conical bottom opening 102, a feed opening 103, a discharge opening 104 and a tray 105, the top of the reaction tank 101 is provided with the feed opening 103 for inputting materials, the bottom of the reaction tank 101 is provided with the conical bottom opening 102, the bottom of the conical bottom opening 102 is provided with the discharge opening 104 for discharging materials, the inner cavity of the reaction tank 101 is also fixedly provided with the tray 105, and the tray 105 is arranged near one end of the discharge opening 104; the driving rod assembly 2 comprises a driving barrel 201, fixed shaft discs 202, driving rods 203 and driving bevel gears 204, wherein the driving barrel 201 is rotatably arranged on the tray 105, a plurality of fixed shaft discs 202 are coaxially arranged in the driving barrel 201, the driving rods 203 are rotatably assembled in the plurality of fixed shaft discs 202 and coaxially arranged with the driving barrel 201, and a plurality of driving bevel gears 204 are fixedly assembled on the driving rods 203; the transmission member 3 comprises a shell 301, a middle shaft 302, transmission bevel gears 303 and cross insertion pipes 306, wherein a plurality of the shells 301 are assembled on the shell of the driving cylinder 201 in a staggered manner, the middle shaft 302 is rotatably arranged in the shell 301, the transmission bevel gears 303 are further assembled at one end of the middle shaft 302 facing the driving cylinder 201, the transmission bevel gears 303 are meshed with the driving bevel gears 204, and the cross insertion pipes 306 are assembled at one end of the middle shaft 302 far away from the driving cylinder 201; the adjusting component 4 is arranged in the shell 301 and is connected with the central shaft 302 in a linkage way; the driving shaft assembly 5, the driving shaft assembly 5 comprises a telescopic rod 501, a press joint 507 and a cross sleeve 508, the telescopic rod 501 is rotatably arranged in the shell 301, the telescopic rod 501 is provided with the press joint 507 towards one end of the middle shaft 302, the tail end of the press joint 507 is provided with the cross sleeve 508, the press joint 507 is slidably sleeved at one end of the middle shaft 302, and the cross sleeve 508 is matched with the cross sleeve 306; the movable arm assembly 6, the movable arm assembly 6 includes stirring casing 601, side logical groove 602, interior slide 603 and side scraper 604, stirring casing 601 rotates the other end of assembling in casing 301, and stirring casing 601's end department is provided with side logical groove 602, interior slide 603 slides and sets up in stirring casing 601, and the one end and the telescopic link 501 fixed phase of interior slide 603, and the other end fixedly connected with side scraper 604 of interior slide 603, side scraper 604 sliding fit is in side logical groove 602.

In practical application, when the device is used for carrying out material tank operation, the material inlet 103 at the top of the reaction tank 101 in the material tank is used for inputting material components to be stirred, when raw materials are filled into the cavity of the reaction tank 101, the driving cylinder 201 and the driving rod 203 are driven to rotate, so that the driving cylinder 201 drives the plurality of shells 301 on the driving cylinder 201 to synchronously rotate in the rotating process, the stirring shell 601 assembled at the other end of the shell 301 continuously rotates in the circumferential direction, one end of the middle shaft 302 in the shell 301 is meshed with the driving bevel gear 204 through the transmission bevel gear 303, the driving cylinder 201 continuously rotates in the rotating process, the cross insertion tube 306 at the other end of the middle shaft 302 is buckled and connected with the cross insertion tube 508, so that the telescopic rod 501 synchronously rotates along with the middle shaft 302, the inner slide plate 603 is slidingly assembled in the stirring shell 601, therefore, the telescopic rod 501 can synchronously drive the stirring shell 601 to rotate in a fixed shaft manner in the process of driving the inner slide plate 603 to rotate, so that when the driving cylinder 201 rotates in the circumferential direction, the stirring shells 601 assembled on the telescopic rod can synchronously rotate, so as to stir and mix raw materials in the cavity of the reaction tank 101, when the molded materials in the tank are required to be discharged, the raw materials in the cavity can flow to the discharge port 104 to be discharged along the conical bottom port 102 under the action of gravity by opening the discharge port 104, at the moment, the driving cylinder 201 and the driving rod 203 are driven to rotate reversely, the adjusting component 4in linkage with the middle shaft 302 can push the telescopic rod 501 to move towards the side far away from the middle shaft 302, so that the inner slide plate 603 fixedly connected with the telescopic rod 501 synchronously slides in the stirring shell 601, and the side scraper 604 at one end of the inner slide plate 603 moves to the outside the stirring shell 601 through the side through groove 602, the tail end of the side scraping plate 604 is attached to the inner wall of the reaction tank 101, so that the rotation of the driving cylinder 201 is utilized to drive the stirring shells 601 to coaxially rotate, and residual materials on the inner wall of the tank body are continuously hung and removed through the side scraping plate 604, so that the scraped materials fall onto the conical bottom opening 102 under the action of gravity and flow to the discharge opening 104 along the conical bottom opening 102 to be discharged, the material in the tank body is ensured to be emptied, the adhesion of part of the materials on the inner wall of the tank body is prevented, the actual feeding amount of the subsequent raw materials is influenced, and the product quality is not influenced by the formula.

In this embodiment, the inner slide 603 and the stirring housing 601 are both in plate-shaped structures, the inner slide 603 is assembled in the rectangular cavity inside the stirring housing 601 in a limited sliding manner, one end of the inner slide 603 is fixedly connected with the telescopic rod 501, and the rotation axis of the telescopic rod 501 is coincident with the rotation axis of the stirring housing 601, so that the inner slide 603 can drive the stirring housing 601 to synchronously rotate on one side of the housing 301 in the process of fixed-axis rotation.

In this embodiment, the telescopic rod 501 is slidably disposed in the housing 301, and one end of the telescopic rod 501 penetrates through the housing 301 and the stirring housing 601 and is fixedly connected to the inner slide plate 603, so that the telescopic rod 501 drives the inner slide plate 603 to slide synchronously during the sliding along the axis.

Referring to fig. 2, in a preferred embodiment of the present invention, the driving rod assembly 2 further includes a first driven disc 205, a second driven disc 206 and a scraping plate 207, the first driven disc 205 is disposed on top of the driving cylinder 201 and is fixedly connected to the driving cylinder 201, the second driven disc 206 is disposed on top of the driving rod 203 and is fixedly connected to the driving rod 203, the scraping plate 207 is fixedly disposed on bottom of the driving cylinder 201 and is matched with the conical bottom opening 102, the tank assembly 1 further includes a main driving shaft 106 and a driving disc 107, the main driving shaft 106 is fixedly disposed on the reaction tank 101, two groups of driving discs 107 with equal diameters are disposed on the main driving shaft 106, the two groups of driving discs 107 are respectively connected to the first driven disc 205 and the second driven disc 206 through a synchronous belt transmission, and the main driving shaft 106 is used for controlling differential rotation of the driving cylinder 201 and the driving rod 203.

In practical application, since the first driven disc 205 and the second driven disc 206 are coaxially arranged and are respectively connected with the two groups of driving discs 107 through synchronous belt transmission, when the main driving shaft 106 is driven by an external driving source to rotate, the two groups of coaxially arranged driving discs 107 can respectively drive the first driven disc 205 and the second driven disc 206 to rotate, and due to different diameters of the first driven disc 205 and the second driven disc 206, the transmission ratio between the driving discs 107 and the first driven disc 205 and the second driven disc 206 is different, so that the differential rotation between the first driven disc 205 and the second driven disc 206 can be realized, the rotation speed of the transmission bevel gear 303 is controlled by the transmission ratio between the driving disc 107 and the second driven disc 206, and the rotation speed of the transmission bevel gear 303 can be adjusted by adjusting the transmission ratio between the driving disc 107 and the second driven disc 206.

In one case of the present embodiment, the scraping plate 207 disposed at the bottom of the driving cylinder 201 can scrape the conical surface of the conical bottom opening 102 to remove the material adhered to the conical bottom opening 102, so as to continuously flow into the discharge opening 104 for discharge.

Referring to fig. 4, in a preferred embodiment of the present embodiment, the transmission member 3 further includes a central shaft 304 and a ratchet gear 305, the central shaft 304 is fixedly assembled on the central shaft 302, one end of the central shaft 304 facing the driving cylinder 201 is provided with the ratchet gear 305, the adjusting assembly 4 includes an adjusting plate 401, an elastic clamping plate 402, a secondary moving plate 403, an adjusting rod 404, a screw rod 407, a stop block 408 and a guide rod 409, the adjusting plate 401 is rotatably sleeved on the central shaft 302, one end of the adjusting plate 401 facing the central shaft 304 is provided with a plurality of elastic clamping plates 402, the elastic clamping plates 402 are circumferentially arranged on the adjusting plate 401 and movably connected with the adjusting plate 401, the secondary moving plate 403 is fixedly arranged in the cavity of the housing 301 and is in transmission connection with the adjusting plate 401 through a synchronous belt, the adjusting rod 404 is coaxially fixed with the secondary moving plate 403, the screw rod 407 is fixedly arranged in the cavity of the housing 301 and is in linkage with the adjusting rod 404, the stop block 408 is movably assembled on the screw rod 409, and the guide rod 409 is fixedly arranged in the cavity of the housing 301 and is in sliding track with the stop block 408 for limiting the movement of the stop block.

In practical application, the middle shaft plate 304 is fixedly connected with the middle shaft 302, the ratchet gear 305 is arranged on one side of the middle shaft plate 304, which faces the driving cylinder 201, and the adjusting plate 401 is rotatably sleeved on the middle shaft 302, one end of the adjusting plate 401, which faces the middle shaft 302, is elastically and movably provided with a plurality of elastic clamping plates 402, so that a unidirectional transmission structure is arranged between the middle shaft plate 304 and the adjusting plate 401, when the middle shaft plate 304 rotates in a clockwise direction, the cross sleeve 508 on one side of the pressure joint 507 is abutted on the cross insert 306, the telescopic rod 501 moves clockwise along the middle shaft 302 synchronously to drive the stirring shell 601 to rotate clockwise in a fixed shaft direction, and the ratchet gear 305 and the elastic clamping plates 402 are in a non-transmission state, and when the middle shaft plate 304 rotates in a counterclockwise direction, the ratchet gear 305 is clamped on the elastic clamping plates 402 and drives the adjusting plate 401 to rotate counterclockwise synchronously, so that the secondary moving plate 403 and the adjusting plate 404 rotate counterclockwise under the driving of the synchronous belt, and a screw rod 407 rotates counterclockwise synchronously, and the screw rod 407 is assembled on one end of the adjusting plate 404 is meshed with the clockwise, so that the telescopic rod 501 moves forwards along the direction of the cross guide rod 508 to move towards one side of the stirring rod 408, and is far away from the stirring shell 408, and is separated from the stirring shell 602, and then the stirring shell is driven by the stirring shell is separated from the stirring shell 601, and moves towards one side of the stirring shell 602, and is separated from the stirring shell 601.

In one case of this embodiment, the plurality of shells 301 are arranged in a staggered and layered manner on the surface of the driving cylinder 201, and the thickness of the plurality of side scrapers 604 stacked in the vertical direction is not smaller than the vertical length of the inner wall of the tank body, so that the inner wall of the tank body can be thoroughly cleaned.

Referring to fig. 4, in a preferred embodiment of the present invention, the adjusting assembly 4 further includes a first ratchet plate 405 and a second ratchet plate 406, the first ratchet plate 405 is fixedly connected to one end of the adjusting rod 404, the second ratchet plate 406 is fixedly connected to one end of the screw rod 407 and disposed towards the first ratchet plate 405, and the first ratchet plate 405 and the second ratchet plate 406 are engaged with each other.

In practical application, the first ratchet plate 405 and the second ratchet plate 406 are meshed and connected, so that a unidirectional transmission structure is arranged between the adjusting rod 404 and the screw rod 407, and the adjusting rod 404 drives the screw rod 407 to rotate unidirectionally when being matched with the central shaft 302 to rotate.

Referring to fig. 6, in a preferred embodiment of the present invention, the driving shaft assembly 5 further includes a side cylinder wall 502, a slant guiding surface 503, a positioning groove 504, a positioning key 505 and a pressing plate 506, wherein two sets of side cylinder walls 502 are fixedly assembled in the cavity of the housing 301 and are symmetrically arranged in the center, the two sets of side cylinder walls 502 are slidably connected with the telescopic rod 501, the slant guiding surface 503 is further disposed on the side of the side cylinder wall 502 facing the pressing joint 507, the positioning groove 504 is disposed between the two sets of side cylinder walls 502, the two sets of positioning keys 505 are fixedly assembled on the outer diameter of the telescopic rod 501, and the pressing plate 506 is fixedly assembled on the outer diameter of the telescopic rod 501 and is connected with the housing 301 through a spring.

In practical application, when the stop block 408 slides along the guide rod 409 under the drive of the screw rod 407, the bottom of the stop block 408 abuts against the pressure plate 506, and the telescopic rod 501 is pressed to move towards one side of the stirring shell 601, in the process, the cross sleeve 508 is separated from one end of the cross sleeve 306, so that the telescopic rod 501 stops rotating, and when the positioning key 505 on the outer diameter of the telescopic rod 501 abuts against one end of the side cylinder wall 502, the positioning key 505 slides along the inclined surface of the inclined guide surface 503 and is clamped into the positioning groove 504, so that the inner slide plate 603 is kept in a vertical state, the spring between the pressure plate 506 and the shell 301 is in a compressed state, and at the moment, the stop block 408 is positioned at the threaded end of the screw rod 407, so that the stop block 408 is limited to slide along the guide rod 409, so that the stirring shell 601 is kept in a vertical state all the time, and the side scraper 604 can continuously scrape the inner wall of the tank body after extending from the side through groove 602, when the central shaft 302 rotates reversely under the driving action, the platen 506 moves towards one side of the central shaft 302 under the elastic force, so that the stop block 408 abutting against the platen 506 drives the screw rod 407 to rotate, the stop block 408 is elastically reset to the initial position due to the unidirectional transmission structure between the screw rod 407 and the adjusting rod 404, the cross sleeve 508 at one end of the telescopic rod 501 is inserted on the cross insertion tube 306 and can continue to rotate along with the cross insertion tube 306 so as to drive the inner slide plate 603 to rotate, and at the moment, the side scraping plate 604 is contracted into the stirring shell 601 again, so that the residual materials adhered to the surface of the side scraping plate 604 can be scraped on the side through groove 602, at the moment, the stirring shell 601 can shake off the materials remained at the side through groove 602 under the action of the centrifugal force through the rotation of the self, the rotation direction of the driving cylinder 201 and the driving rod 203 is switched through multiple times of circulation, the material adhered to the inner wall of the tank body can be continuously removed until the removal is completed.

According to the automatic discharging charging bucket device provided by the embodiment of the invention, the rotatable driving barrel 201 and the driving rod 203 are arranged in the bucket body, the outer diameter of the driving barrel 201 is provided with the plurality of transmission members 3 which are connected with the driving rod 203 in a linkage manner, and the rotating state of the movable arm assembly 6 at one end of the transmission member 3 can be adjusted so as to realize the dual functions of stirring materials and cleaning the inner wall of the bucket body, so that the viscous materials adhered in the bucket can be effectively removed, and the influence on the actual charging quantity of the subsequent raw materials is avoided.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (7)

1. The utility model provides a but automatic charging bucket device of row material which characterized in that, but automatic charging bucket device includes:

The tank body assembly comprises a reaction tank, a conical bottom opening, a feeding opening, a discharging opening and a tray, wherein the feeding opening for inputting materials is formed in the top of the reaction tank, the conical bottom opening is formed in the bottom of the reaction tank, the discharging opening for discharging materials is formed in the bottom of the conical bottom opening, the tray is fixedly arranged in an inner cavity of the reaction tank, and one end, close to the discharging opening, of the tray is arranged;

The driving rod assembly comprises a driving barrel, fixed shaft discs, driving rods and driving bevel gears, the driving barrel is rotatably arranged on the tray, a plurality of fixed shaft discs are coaxially arranged in the driving barrel, the driving rods are rotatably assembled in the plurality of fixed shaft discs and coaxially arranged with the driving barrel, and a plurality of driving bevel gears are fixedly assembled on the driving rods;

The transmission component comprises a shell, a middle shaft, transmission bevel gears and cross insertion tubes, wherein a plurality of the shells are assembled on the shell of the driving cylinder in a staggered manner, the middle shaft is rotatably arranged in the shell, one end of the middle shaft, facing the driving cylinder, is also provided with the transmission bevel gears, the transmission bevel gears are meshed with the driving bevel gears, and one end of the middle shaft, far away from the driving cylinder, is provided with the cross insertion tubes;

the adjusting component is arranged in the shell and is connected with the middle shaft in a linkage way;

The driving shaft assembly comprises a telescopic rod, a press joint and a cross sleeve, the telescopic rod is rotatably arranged in the shell, the press joint is arranged at one end of the telescopic rod, facing the middle shaft, of the telescopic rod, the cross sleeve is arranged at the tail end of the press joint, the press joint is slidably sleeved at one end of the middle shaft, and the cross sleeve is matched with the cross sleeve;

The movable arm assembly comprises a stirring shell, a side through groove, an inner sliding plate and a side scraping plate, wherein the stirring shell is rotationally assembled at the other end of the shell, the side through groove is formed in the tail end of the stirring shell, the inner sliding plate is slidably arranged in the stirring shell, one end of the inner sliding plate is fixedly connected with the telescopic rod, the side scraping plate is fixedly connected with the other end of the inner sliding plate, and the side scraping plate is slidably assembled in the side through groove.

2. The automatic discharging charging bucket device according to claim 1, wherein the driving rod assembly further comprises a first driven plate, a second driven plate and a scraping plate, the first driven plate is arranged at the top of the driving bucket and fixedly connected with the driving bucket, the second driven plate is arranged at the top of the driving rod and fixedly connected with the driving rod, and the scraping plate is fixedly arranged at the bottom of the driving bucket and matched with the conical bottom opening.

3. The automatic discharging charging bucket device according to claim 2, wherein the bucket body assembly further comprises a main driving shaft and driving disks, the main driving shaft is fixedly arranged on the reaction bucket, two groups of driving disks with equal diameters are arranged on the main driving shaft, the two groups of driving disks are respectively connected with the first driven disk and the second driven disk through synchronous belt transmission, and the main driving shaft is used for controlling differential rotation of the driving cylinder and the driving rod.

4. The automatic discharging bucket device according to claim 1, wherein the transmission member further comprises a central shaft disc and a ratchet gear, the central shaft disc is fixedly assembled on the central shaft, and the ratchet gear is arranged at one end of the central shaft disc, which faces the driving cylinder.

5. The automatic discharging charging bucket device according to claim 4, wherein the adjusting assembly comprises an adjusting disk, an elastic clamping plate, a secondary moving disk, an adjusting rod, a screw rod, a stop block and a guide rod, the adjusting disk is rotatably sleeved on the middle shaft, a plurality of elastic clamping plates are arranged at one end of the adjusting disk, facing the middle shaft, of the adjusting disk, the elastic clamping plates are circumferentially arranged on the adjusting disk and are movably connected with the adjusting disk, the secondary moving disk fixed shaft is arranged in a cavity of the shell and is connected with the adjusting disk through a synchronous belt transmission, the adjusting rod is fixedly connected with the secondary moving disk in a coaxial mode, the screw rod fixed shaft is arranged in the cavity of the shell and is connected with the adjusting rod in a linkage mode, the stop block is movably assembled on the screw rod, and the guide rod is fixedly arranged in the cavity of the shell and is connected with the stop block in a sliding mode and is used for limiting a movement track of the stop block.

6. The automatic discharging bucket device according to claim 5, wherein the adjusting assembly further comprises a first ratchet plate and a second ratchet plate, the first ratchet plate is fixedly connected to one end of the adjusting rod, the second ratchet plate is fixedly connected to one end of the screw rod and faces the first ratchet plate, and the first ratchet plate and the second ratchet plate are meshed and connected.

7. The automatic discharging charging bucket device according to claim 1, wherein the driving shaft assembly further comprises side cylinder walls, inclined guide surfaces, positioning grooves, positioning keys and a pressing plate, the two groups of side cylinder walls are fixedly assembled in the housing cavity and are arranged in a central symmetry mode, the two groups of side cylinder walls are slidably connected with the telescopic rod, the inclined guide surfaces are further arranged on one side, facing the press joint, of the side cylinder walls, the positioning grooves are formed between the two groups of side cylinder walls, the two groups of positioning keys are fixedly assembled on the outer diameter of the telescopic rod, and the pressing plate is fixedly assembled on the outer diameter of the telescopic rod and connected with the housing through springs.