CN114261552B - Quantitative filling assembly and glass fiber reinforced plastic stirring tank - Google Patents

Abstract

The invention relates to the technical field of glass fiber reinforced plastics, and provides a quantitative filling assembly which comprises a shell provided with a circular cavity, wherein the circular cavity is provided with a total discharge port and a total feed port; the device comprises a baffle plate and a feeding part which are arranged in a circular cavity, wherein the baffle plate is in full contact with the inside of the circular cavity, the feeding part is provided with 4 vertically arranged feed bins, the feeding part rotates along with the baffle plate, a plurality of first feed inlets and first discharge outlets are formed in the baffle plate, each first discharge outlet is provided with a first switching device for closing or opening the first discharge outlet, the bottom of the feed bin is provided with a second opening device for closing or opening the bottom of the feed bin, when the feed bin is positioned at a low point, the bottom of the feed bin is communicated with the first discharge outlets and the total discharge outlet for discharging, at the moment, the first feed inlets corresponding to the rest feed bins are communicated with the total feed inlets for feeding, and rotary motion occurs under the gravity of the materials; the invention provides a new movement mode, which utilizes a bin which is always arranged vertically to quantitatively transport materials.

Description

Quantitative filling assembly and glass fiber reinforced plastic stirring tank

Technical Field

The invention relates to the technical field of glass fiber reinforced plastics, in particular to a quantitative filling assembly and a glass fiber reinforced plastic stirring tank.

Background

The glass fiber reinforced plastic stirring tank has the advantages of corrosion resistance, light weight and high strength, so that some paint stirring tanks are made of glass fiber reinforced plastic, the stirring effect is better due to the characteristics of the glass fiber reinforced plastic, and the development trend of the glass fiber reinforced plastic stirring tank at present tends to the development direction of multiple functions.

The existing paint stirring tank needs to be specially sent to a filling device to be filled, the quantitative filling device is realized in a digital control mode, the stability of the digital control mode is not long for some large chemical plants or open-air factories, and in addition, the existing patent is as follows: the application number is: 202010960457.2, which discloses a paint glass fiber reinforced plastic stirring tank capable of being quantitatively filled, for example, the application number is: 202110541981.0, which discloses a quantitative filling type paint glass fiber reinforced plastic stirring tank, wherein both stirring tanks adopt a bin and internal friction mode to move materials, and have the following problems; the sealing between the bin and the inner wall is not good, if the precision is not enough, the problem of leaking materials exists, if the rotation speed is too slow, the feeding is not enough, the leaking materials lead to the low transportation efficiency, and if the paint is transported in addition, the paint has certain viscosity, and after the machine is stopped, the restarting is difficult.

Disclosure of Invention

The invention aims to provide a quantitative filling assembly and a glass fiber reinforced plastic stirring tank, which utilize a bin which is always arranged vertically to transport materials, remove a movement mode contacted with the inner wall and always fundamentally avoid the problem of material leakage in the feeding process.

The embodiment of the invention is realized by the following technical scheme: the quantitative filling assembly comprises a shell, wherein a circular cavity is formed in the shell, a total discharge hole is formed below the circular cavity, and a total feed hole is formed obliquely above the circular cavity; the rotary component in circular cavity is set up, rotary component includes baffle and feeding member, the outside of baffle and the inside of circular cavity contact completely, feeding member is equipped with 4 feed bins of vertical setting, feeding member rotates along with the rotation of baffle, and be equipped with a plurality of first feed inlets and the first discharge gate that correspond the feed bin setting on the baffle, every first discharge gate all is equipped with first switching device and is used for closing or open first discharge gate, the bottom of feed bin is equipped with the second opening device, the second opening device is used for closing or opening the bottom of feed bin, when the feed bin is located the low point, its bottom is used for discharging with first discharge gate and total discharge gate intercommunication, at this moment, the first feed inlet and the total feed inlet intercommunication that all the feed bins correspond are used for the feeding, rotary component takes place rotary motion under the gravity of material.

Further, the feeding member includes: the panel is circular, the periphery of the panel is fixedly connected with the baffle, a first gear and 4 second gears which are arranged around the first gear are arranged on the front surface of the panel, 4 third gears are arranged on the back surface of the panel, each third gear is in one-to-one correspondence with the second gears and connected with the second gears through a first rotating shaft which penetrates through the panel, 4 fourth gears are also arranged on the peripheral side of the first gears, the fourth gears are arranged on the back surface of the panel, each fourth gear is in one-to-one correspondence with each third gear, and each third gear is in corresponding engagement with each second gear; the four storage bins are arranged on the front face of the panel and correspond to each other one by one, each fourth gear is provided with a second rotating shaft, the second rotating shafts penetrate through the panel and are connected with the storage bins, the first gears are fixed on the shell through fixing shafts, the second gears, the third gears and the fourth gears rotate along with the panel, the first rotating shafts and the second rotating shafts rotate around the rotating shafts of the first gears, the second gears, the third gears and the fourth gears, and the storage bins are vertically arranged all the time under the cooperation of the first gears, the second gears, the third gears and the fourth gears; the second gear is fixedly connected with the first rotating shaft, the fourth gear is fixedly connected with the second rotating shaft, and the rotation angular speed and the revolution angular speed of the storage bin are consistent.

Further, a chute, a slide plate, a conductive spring, a first conductive block, a second conductive block and a battery pack are arranged in the baffle plate; the sliding groove is arranged at one side of the first discharging hole, the sliding plate is arranged in the sliding groove, a conductive spring is arranged between one end of the sliding plate and one end of the sliding groove, and the length of the sliding plate is larger than that of the first discharging hole and smaller than that of the sliding groove; one side of the shell is provided with a conductive plate, the length of the conductive plate is larger than the distance between the first conductive block and the second conductive block, the first conductive block and the second conductive block are adjacently arranged and used for controlling the on-off of the conductive spring, and the battery pack is used for supplying power.

Further, the feed bin includes: the circular tube is vertically arranged, the first blocking plate is arranged above the circular tube and used for blocking the circular tube, the first blocking plate is connected with a first connecting rod, the joint of the first connecting rod and the first blocking plate is hinged in the tube wall of the circular tube, and the first blocking plate and the first connecting rod rotate around a hinge point so as to realize on-off of the circular tube; the second blocking plate is arranged below the circular tube and used for blocking the circular tube, the second blocking plate is connected with a second connecting rod, the joint of the second connecting rod and the second blocking plate is hinged in the tube wall of the circular tube, and the second blocking plate and the second connecting rod rotate around a hinge point so as to realize on-off of the circular tube; the hinge points of the first blocking plate and the second blocking plate are overlapped along the vertical direction, and an angle alpha is formed between the connecting line between the geometric center of the first blocking plate and the hinge point and the connecting line between the geometric middle of the second blocking plate and the hinge point, wherein the angle alpha is 60 degrees < alpha < 90 degrees; the first connecting rod and the second connecting rod are fixedly connected through a third connecting rod arranged outside the circular tube; each first rotating shaft is also provided with a poking piece which is strip-shaped and is arranged towards the rotating shaft of the first gear; when the plectrum is in a vertical state, the plectrum is used for poking the third connecting rod.

Further, the damping between the first shaft and the panel is adjustable.

Further, damping between the second rotating shaft and the panel is adjustable.

Further, the inside of casing still is equipped with the zone of heating, and the zone of heating is close to the baffle setting.

The utility model provides a glass steel agitator tank, includes ration filling subassembly, agitator tank body and support, and agitator tank body and ration filling subassembly are fixed by the support, and the agitator tank body setting is in the top of ration filling subassembly and the discharge gate is located the top of total feed inlet.

The technical scheme of the embodiment of the invention has at least the following advantages and beneficial effects:

1: the feeding mode of the bin is changed, and the feeding mode which is always vertical and downward is adopted, so that the possibility of material leakage is fundamentally avoided, and the feeding efficiency is improved.

2: the feeding part is internally provided with a plurality of bins, the rotation action of feeding is completed by utilizing the dead weight of the bins, no additional power source is needed, and the energy is saved and the environment is protected.

3: the whole equipment main body structure is completed in a mechanical transmission mode, so that the service life and the stability are prolonged.

4: the device can adjust the capacity of quantitative filling and has wide application range.

5: the equipment has simple structure and ingenious design, and does not need excessive maintenance.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a glass fiber reinforced plastic stirring tank;

FIG. 2 is a schematic view of a quantitative filling assembly according to the present invention;

FIG. 3 is a schematic view of a part of a rotary member of a dosing assembly according to the present invention;

FIG. 4 is a schematic view of the back structure of a faceplate in a rotating member of a dosing assembly according to the present invention;

fig. 5 is a schematic structural view of a bin in a quantitative filling assembly according to the present invention;

FIG. 6 is a schematic view showing a first blocking member and a pulling tab in a bin of a quantitative filling assembly according to the present invention;

fig. 7 is a second schematic diagram of a state of a first blocking member and a pulling piece in a bin of a quantitative filling assembly according to the present invention;

icon: 1-stirring tank body, 2-quantitative filling assembly, 3-support, 4-conveyer belt, 21-shell, 22-total feed inlet, 23-heating layer, 24-total discharge outlet, 25-baffle, 26-first feed inlet, 27-first discharge outlet, 28-first conductive block, 29-second conductive block, 31-conductive plate, 32-chute, 33-slide, 34-conductive spring, 35-panel, 36-bin, 3601-first bin, 3602-second bin, 3603-third bin, 3604-fourth bin, 37-first gear, 38-second gear, 39-first rotating shaft, 41-plectrum, 42-third gear, 43-second rotating shaft, 44-fourth gear, 361-round tube, 362-first blocking plate, 363-second blocking plate, 364-hinge point, 365-first connecting rod, 366-second connecting rod, 367-third connecting rod.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present invention, it should be noted that, if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate an azimuth or a positional relationship based on that shown in the drawings, or an azimuth or a positional relationship in which the inventive product is conventionally put in use, it is merely for convenience of describing the present invention and simplifying the description, and it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless explicitly stated and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" should be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Examples

As shown in fig. 2, a quantitative filling assembly 2 includes a housing 21, wherein a circular cavity is provided in the housing 21, the circular cavity is used for providing a rotation position and a limit, a total discharge port 24 is provided below the circular cavity, specifically, below the circular cavity refers to a vertical lower part, generally the lowest point; the total feed inlet 22 is arranged on the inclined upper part of the circular cavity, specifically, the inclined upper part refers to the upper left part or the upper right part, and an included angle of 45 degrees is formed between the inclined upper part and the vertical direction; the rotary component is arranged in the circular cavity, the rotary component rotates around the circular cavity, and particularly, the rotary component comprises a baffle plate 25 and a feeding member, the outer side of the baffle plate 25 is in full contact with the inner part of the circular cavity, the feeding member is provided with 4 vertically arranged bins 36, the 4 bins 36 are uniformly distributed circumferentially by taking the axis of the circular cavity as the axis, the feeding member rotates along with the rotation of the baffle plate 25, the baffle plate 25 is provided with a plurality of first feed inlets 26 and first discharge outlets 27 which are arranged corresponding to the bins 36, each first discharge outlet 27 and each first feed inlet 26 serve for one bin 36, further, the first discharge outlet 27 is arranged along the connecting line of the rotating shaft and the bin 36, each first discharge outlet 27 is provided with a first switching device for closing or opening the first discharge outlet 27, and the first switching device is not limited in any way and can generally adopt an electronic control mode, but in the embodiment, the electronic mode is not adopted, and particularly, the arrangement is described below; the bottom of the bin 36 is provided with a second opening device, which is used for closing or opening the bottom of the bin 36, and the second opening device is not limited, and generally can adopt an electronic control mode, but in this embodiment, does not adopt an electronic mode, and specifically, the second opening device is set with reference to the following description; when the bin 36 is positioned at a low point, the bottom of the bin 36 is communicated with the first discharge port 27 and the total discharge port for discharging, at the moment, the first feed ports 26 corresponding to the rest bins 36 are communicated with the total feed ports 22 for feeding, and the rotating assembly rotates under the gravity of the materials; in this embodiment, the working process is as follows: assuming that the left bin 36 is the first bin 3601, the lower bin 36 is the second bin 3602, the right bin 36 is the third bin 3603, the upper bin 36 is the fourth bin 3604, the first bin 3601 and the third bin 3603 are arranged in a collinear and horizontal mode, the second bin 3602 and the fourth bin 3604 are arranged in a vertical and collinear mode, at this time, the first feed inlet 26 and the total feed inlet 22 of the first bin 3601 are communicated, feeding is performed to the first bin 3601, along with the increase of the material of the first bin 3601, the weight of the first incoming bin 36 is increased, the center of the whole rotating member starts to shift leftwards, rotation occurs, at this time, the baffle 25 rotates together, the first feed inlet 26 and the total feed inlet 22 of the first bin 3601 after rotation are staggered, so that feeding cannot be performed, the whole rotating member rotates still until the first bin 3601 moves to the position of the initial second bin 3602, at this time, the fourth bin 3604 moves to the position of the first bin 3601, the feeding of the first bin 3601 is repeated, the first bin 3601 is started, the first bin 2 moves to the initial feed inlet 24 is opened, and the second bin 2 is opened only when the initial feed inlet 24 is opened, the first bin 2 is opened, the first discharge device is opened, and the total discharge device is opened, and the discharge device is opened only 2 is opened; in addition, when the first bin 3601, the second bin 3602, the third bin 3603, or the fourth bin 3604 moves at the initial position of the fourth bin 3604 or the position of the third bin 3603, the first opening device needs to be closed, and the second opening device is closed, so that the bin 36 can collect materials.

It should be noted that, for the feeding assembly, in this embodiment, only the structure meeting the above functional requirements may be adopted, for example, each bin 36 is individually controlled by a servo motor, and further, in this embodiment, a fully mechanical structure is adopted, as shown in fig. 2-4, as follows: the feeding piece comprises: the panel 35,4 bins 36 are arranged on the front surface of the panel 35; the panel 35 is circular, the periphery of the panel 35 is fixedly connected with the baffle 25, the panel 35 and the baffle 25 rotate together, a first gear 37 and 4 second gears 38 arranged around the first gear 37 are arranged on the front surface of the panel 35,4 third gears 42 are arranged on the back surface of the panel 35, each third gear 42 is in one-to-one correspondence with each second gear 38 and are connected through a first rotating shaft 39 penetrating through the panel 35,4 fourth gears 44 are also arranged on the peripheral side of the first gear 37, the fourth gears 44 are arranged on the back surface of the panel 35, each fourth gear 44 is in one-to-one correspondence with each third gear 42, and each third gear 42 is in corresponding engagement with each second gear 38; the first gear 37 is meshed with the second gear 38, and the other first gear 37 is fixedly arranged; the storage bins 36 are arranged in one-to-one correspondence with the fourth gears 44, each fourth gear 44 is provided with a second rotating shaft 43, the second rotating shafts 43 penetrate through the panel 35 and are connected with the storage bins 36, the first gears 37 are fixed on the shell 21 through fixed shafts, the second gears 38, the third gears 42 and the fourth gears 44 rotate along with the panel 35, the first rotating shafts 39 and the second rotating shafts 43 rotate around the rotating shafts, and the storage bins 36 are vertically arranged all the time under the cooperation of the first gears 37, the second gears 38, the third gears 42 and the fourth gears 44; the second gear 38 is fixedly connected with the first rotating shaft 39, and the fourth gear 44 is fixedly connected with the second rotating shaft 43; further, the sizes of the first gear 37, the second gear 38, the third gear 42 and the fourth gear 44 are basically consistent, if the shaft diameters of the first rotating shaft 39 and the second rotating shaft 43 are the same, the moduli of the four gears should be consistent, and meanwhile, the position relationship of the gear spacing time is ensured, otherwise, corresponding adjustment is performed; the working result is as follows: when the first bin 3601 descends due to its own weight, the fourth gear 44 starts to descend, the vertically arranged bin 36 still can descend in a vertical state due to the engagement of the fourth gear 44 and the third gear 42, then the third gear 42 drives the second gear 38 to rotate, the second gear 38 is meshed with the second gear 38 to rotate, so that the vertical state of each descent of the bin 36 is guaranteed, and the first bin 3601 is realized through teeth.

Further, in this embodiment, as shown in fig. 2, for the first discharge port 27, it is required that the first discharge port 27 is opened only when located at the front-rear position of the initial second bin 3602, and the first discharge port 27 is closed to ensure that the material can only enter from the first feed port 26, so that the first discharge port 27 is further provided with a first opening device for ensuring effective feeding of the material; generally, the first opening device is only required to open the door by adopting electronics, but in the embodiment, the following arrangement is adopted, so that the use of electronic equipment is reduced, the stability of the equipment is improved, and the service life of the equipment is prolonged; specifically, the inside of the baffle 25 is also provided with a chute 32, a slide plate 33, a conductive spring 34, a first conductive block 28, a second conductive block 29 and a battery pack; the sliding groove 32 is arranged at one side of the first discharging hole 27, for example, at the right side of the first discharging hole 27, the sliding plate 33 is arranged in the sliding groove 32, a conductive spring 34 is arranged between one end of the sliding plate 33 and one end of the sliding groove 32, the length of the sliding plate 33 is larger than that of the first discharging hole 27, and the width of the sliding plate 33 is smaller than that of the sliding groove 32, and under the action of the conductive spring 34, the sliding plate 33 is used for blocking or not blocking the first discharging hole 27, so that the first discharging hole 27 is closed and opened; a conductive plate 31 is arranged on one side of the shell 21, the length of the conductive plate 31 is longer than the distance between the first conductive block 28 and the second conductive block 29, the first conductive block 28 and the second conductive block 29 are adjacently arranged and used for controlling the on-off of the conductive spring 34, and the battery pack is used for supplying power; it should be noted that, in the present embodiment, 4 sets of the sliding grooves 32, the sliding plates 33, the conductive springs 34, the first conductive blocks 28, the second conductive blocks 29 and the battery pack matching bins 36 are provided, and the working principles of each set are identical as follows: the conductive plate 31 is fixed, and each time the baffle 25 rotates until the bin 36 moves to the initial position of the second bin 3602, the first conductive block 28 and the second conductive block 29 are communicated by the conductive plate 31, so that the conductive spring 34 is powered and folded to drive the sliding plate 33 to move and fold; then the first discharge hole 27 is opened, otherwise, when the baffle 25 moves to the first conductive block 28 and the second conductive block 29 to exceed the conductive plate 31, the conductive spring 34 is powered off, and under the action of the spring, the sliding plate 33 slides along the sliding groove 32 to block the first discharge hole 27; it should be noted that, the first discharge port 27 is spaced from the first feed port by a certain distance, and since there is a certain gap between the baffle 25 and the interior of the circular cavity, when the first feed port 26 moves to the total discharge port 24, the waste material can be discharged; it should be noted that the whole movement process is not very fast, and depends on the gravity of the transferred material, so that the movement time of the first feed port 26 and the first discharge port 27 is relatively sufficient.

Further, as shown in fig. 5-7, the bin 36 includes: the vertical circular tube 361 is arranged above the circular tube 361 and is used for blocking the first blocking plate 362 of the circular tube 361, and the second blocking plate 363 is arranged below the circular tube 361 and is used for blocking the circular tube 361.

The first blocking plate 362 is connected with a first connecting rod 365, the joint of the first connecting rod 365 and the first blocking plate 362 is hinged in the pipe wall of the circular pipe 361, and the first blocking plate 362 and the first connecting rod 365 rotate around a hinge point 364 so as to realize on-off of the circular pipe 361; the second blocking plate 363 is connected with a second connecting rod 366, the joint of the second connecting rod 366 and the second blocking plate 363 is hinged in the pipe wall of the circular pipe 361, and the second blocking plate 363 and the second connecting rod 366 rotate around a hinge point 364 so as to realize the on-off of the circular pipe 361; a hinge point 364 of the first blocking plate 362 and the second blocking plate 363 is overlapped in a vertical direction, and a line between a geometric center of the first blocking plate 362 and the hinge point 364 and a line between a geometric middle of the second blocking plate 363 and the hinge point 364 form an angle α,60 ° < α < 90 °; the first link 365 and the second link 366 are fixedly connected by a third link 367 disposed outside the circular tube 361; each first rotating shaft 39 is also provided with a poking piece 41, and the poking pieces 41 are long and are arranged towards the rotating shaft of the first gear 37; when the plectrum 41 is in the vertical state, it dials the third link 367; the working principle is as follows: the pulling piece 41 is fixedly connected to the first rotating shaft 39, so that the pulling piece 41 can rotate along with the first rotating shaft 39, at the moment, the angular speed of the pulling piece 41 and the first rotating shaft is the same, one end of the long pulling piece 41 always faces the rotating center, and then the shortest distance between the pulling piece 41 and the storage bin 36 is the top point and the low point because the storage bin 36 is always vertical, namely, the two positions finish the rotation pulling of the pulling piece 41 on the third connecting rod 367; the panel 35 rotates anticlockwise, so that the lowest-point poking piece 41 moves from left to right relative to the bin 36, and the top-point poking piece 41 moves from right to left relative to the bin 36, so that left poking and right poking of the third connecting rod 367 are realized; by utilizing the two different toggle modes, the first blocking plate 362 and the second blocking plate 363 indirectly swing leftwards or rightwards, and it is to be noted that the rotation direction of the first blocking plate 362 along the hinge point 364 and the rotation direction of the second blocking plate 363 along the hinge point 364 are opposite, that is, in the initial state, the first blocking plate 362 does not block the round tube 361, and the first blocking plate 362 and the second blocking plate 363 form an angle alpha, so that at this time, the second blocking plate 363 blocks the bottom of the round tube 361, thereby matching the round tube 361 to receive materials; then the movement is a low point, the poking plate 41 pokes the third connecting rod 367 rightwards, the first blocking plate 362 moves towards the circular tube 361, the second blocking plate 363 moves away from the circular tube 361, so that the bottom of the stock bin 36 is opened, blanking is realized, then the movement continues to the top point, the poking plate 41 pokes the third connecting rod 367 from right to left, the first blocking plate 362 moves away from the circular tube 361, the second blocking plate 363 moves towards the circular tube 361, a structure capable of receiving materials is formed, and when the first stock bin 3601 moves to the initial position, receiving materials is carried out. In this process, the blocking of the round tube 361 by the first blocking plate 362 can block foreign matters from entering the bin 36.

In the present embodiment, the initial power source for completing the rotation mainly by gravity is used, so that the damping between the first rotating shaft 39 and the panel 35 is adjustable for adjusting the quantitative size; damping between the second spindle 43 and the panel 35 is adjustable; damping is used to counter gravity.

It should be noted that, the inside of the housing 21 is further provided with a heating layer 23, and the heating layer 23 is disposed close to the baffle 25; the influence of the relatively viscous material on the rotation is reduced by using the heating layer 23, and the heating layer 23 is electrically heated.

As shown in fig. 1, a glass fiber reinforced plastic stirring tank comprises a quantitative filling assembly 2, a stirring tank body 1 and a bracket 3, wherein the stirring tank body 1 and the quantitative filling assembly 2 are fixed by the bracket 3, the stirring tank body 1 is arranged above the quantitative filling assembly 2, and a discharge port is arranged above a total feed port 22; the stirring tank body 1 is provided with the initial material by the constant given amount of filling components 2, and the conveyer belt 4 is arranged below the total discharge hole 24 to finish the material transportation of quantitative filling.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A dosing assembly (2), characterized in that: comprising

The device comprises a shell (21), wherein a circular cavity is formed in the shell (21), a total discharge hole (24) is formed below the circular cavity, and a total feed hole (22) is formed obliquely above the circular cavity;

the rotary component is arranged in the circular cavity and comprises a baffle plate (25) and a feeding part, the outer side of the baffle plate (25) is in full contact with the inner part of the circular cavity, the feeding part is provided with 4 vertically arranged bins (36), the feeding part rotates along with the rotation of the baffle plate (25), the baffle plate (25) is provided with a plurality of first feeding holes (26) and first discharging holes (27) which are arranged corresponding to the bins (36), each first discharging hole (27) is provided with a first switching device for closing or opening the first discharging hole (27), the bottom of the bin (36) is provided with a second opening device for closing or opening the bottom of the bin (36), when the bin (36) is positioned at a low point, the bottom of the bin is communicated with the first discharging hole (27) and the total discharging hole, at the moment, the first feeding holes (26) corresponding to the rest of the bins (36) are communicated with the total feeding holes (22) for feeding, and the rotary component is used for feeding materials under the gravity;

the feeding member includes:

the panel (35), panel (35) be circular and panel (35) all around with baffle (25) fixed connection, the front of panel (35) is equipped with first gear (37) and around 4 second gears (38) that first gear (37) set up, the back of panel (35) is equipped with 4 third gears (42), every third gear (42) with second gear (38) one-to-one sets up and both are connected through first pivot (39) that pass panel (35), the periphery side of first gear (37) still is equipped with 4 fourth gears (44), fourth gear (44) set up the back of panel (35), every fourth gear (44) and third gear (42) one-to-one meshing, first gear (37) with second gear (38) meshing;

the four-gear type automatic feeding device comprises 4 bins (36) arranged on the front surface of a panel (35), wherein the bins (36) are arranged in one-to-one correspondence with the fourth gears (44), each fourth gear (44) is provided with a second rotating shaft (43), the second rotating shafts (43) penetrate through the panel (35) and are connected with the bins (36), the first gears (37) are fixed on a shell (21) through fixed shafts, the second gears (38), the third gears (42) and the fourth gears (44) rotate along with the panel (35), the first rotating shafts (39) and the second rotating shafts (43) rotate around own rotating shafts, and under the cooperation of the first gears (37), the second gears (38), the third gears (42) and the fourth gears (44), the bins (36) are all vertically arranged; the second gear (38), the third gear and the first rotating shaft (39) are fixedly connected, the fourth gear (44), the storage bin and the second rotating shaft (43) are fixedly connected, and the rotation angular speed and the revolution angular speed of the storage bin (36) are consistent;

the silo (36) comprises:

a round tube (361) which is arranged vertically,

the first blocking plate (362) is arranged above the circular tube (361) and used for blocking the circular tube (361), the first blocking plate (362) is connected with a first connecting rod (365), the joint of the first connecting rod (365) and the first blocking plate is hinged in the tube wall of the circular tube (361), and the first blocking plate and the first connecting rod (365) rotate around a hinge point (364) so as to realize on-off of the circular tube (361);

the second blocking plate (363) is arranged below the circular tube (361) and used for blocking the circular tube (361), the second blocking plate (363) is connected with a second connecting rod (366), the joint of the second connecting rod (366) and the second blocking plate is hinged in the tube wall of the circular tube (361), and the second blocking plate and the second connecting rod (366) rotate around a hinge point (364) so as to realize on-off of the circular tube (361);

the hinge points (364) of the first blocking plate (362) and the second blocking plate (363) are overlapped along the vertical direction, and an alpha angle is formed between a connecting line between the geometric center of the first blocking plate (362) and the hinge point (364) and a connecting line between the geometric middle of the second blocking plate (363) and the hinge point (364), wherein the alpha is smaller than 90 degrees in 60 degrees;

the first connecting rod (365) and the second connecting rod (366) are fixedly connected through a third connecting rod (367) arranged outside the circular tube (361);

each first rotating shaft (39) is also provided with a poking piece (41), and the poking pieces are long and are arranged towards the rotating shaft of the first gear (37); when the plectrum is in the vertical state, the plectrum is used for poking the third connecting rod (367).

2. The dosing assembly (2) according to claim 1, wherein: a chute (32), a sliding plate (33), a conductive spring (34), a first conductive block (28), a second conductive block (29) and a battery pack are further arranged in the baffle (25);

the sliding groove (32) is arranged on one side of the first discharging hole (27), the sliding plate (33) is arranged in the sliding groove (32), a conductive spring (34) is arranged between one end of the sliding plate (33) and one end of the sliding groove (32), and the length of the sliding plate (33) is larger than the width of the first discharging hole (27) and smaller than the length of the sliding groove (32);

one side of casing (21) is equipped with conducting plate (31), the length of conducting plate (31) is greater than distance between first conducting block (28) and the second conducting block, first conducting block (28) and second conducting block (29) are adjacent set up and are used for controlling the break-make electricity of conductive spring (34), the group battery is used for supplying power.

3. The dosing assembly (2) according to claim 1, wherein: damping between the first rotary shaft (39) and the panel (35) is adjustable.

4. The dosing assembly (2) according to claim 1, wherein: damping between the second rotating shaft (43) and the panel (35) is adjustable.

5. The dosing assembly (2) according to claim 1, wherein: the inside of casing (21) still is equipped with zone of heating (23), zone of heating (23) are close to baffle (25) setting.

6. Glass steel agitator tank, its characterized in that includes ration filling subassembly (2) according to claim 1, agitator tank body (1) and support (3), agitator tank body (1) and ration filling subassembly (2) are fixed by support (3), agitator tank body (1) set up in the top of ration filling subassembly (2) and the discharge gate is located the top of total feed inlet (22).