阅读说明：本技术 一种聚合氯化铝定量输送装置 (Polyaluminium chloride quantitative conveying device ) 是由 李扬 李永康 毛会荣 于 2021-09-28 设计创作，主要内容包括：本发明提供一种聚合氯化铝定量输送装置,包括：锥形容料筒,所述锥形容料筒的顶部设置有环形固定架,所述环形固定架的中心处设置有导向套筒,所述环形固定架的下侧设置有旋转连接环；旋转搅拌架,设置于所述锥形容料筒的内侧；定量输送管,嵌套滑动设置于所述导向套筒的内侧。本发明通过锥形容料筒可以容纳完成生产的聚合氯化铝粉料,而锥形容料筒中的定量输送管通过侧壁设置的条形连通口与锥形容料筒内部连通,从而粉料可以通过条形连通口填充进入定量输送管,而定量输送管中还嵌合设置有调节堵塞柱,通过调节调节堵塞柱的位置,便可以调节定量输送管内部剩余空间的大小,进而调节定量输送管内部可以装置粉料数量,调节使用更加灵活方便。(The invention provides a polyaluminium chloride quantitative conveying device, which comprises: the device comprises a conical material containing barrel, wherein an annular fixing frame is arranged at the top of the conical material containing barrel, a guide sleeve is arranged at the center of the annular fixing frame, and a rotary connecting ring is arranged at the lower side of the annular fixing frame; the rotary stirring frame is arranged on the inner side of the conical material containing barrel; and the quantitative conveying pipe is nested and slidably arranged on the inner side of the guide sleeve. The invention can contain the produced polyaluminium chloride powder through the conical material containing barrel, the quantitative conveying pipe in the conical material containing barrel is communicated with the interior of the conical material containing barrel through the strip-shaped communication port arranged on the side wall, so that the powder can be filled into the quantitative conveying pipe through the strip-shaped communication port, the quantitative conveying pipe is also embedded with the adjusting and plugging column, the size of the residual space in the quantitative conveying pipe can be adjusted by adjusting the position of the adjusting and plugging column, the quantity of the powder can be arranged in the quantitative conveying pipe, and the adjusting and using are more flexible and convenient.)

1. A polyaluminium chloride quantitative conveying device is characterized by comprising:

the device comprises a conical material containing barrel, wherein an annular fixing frame is arranged at the top of the conical material containing barrel, a guide sleeve is arranged at the center of the annular fixing frame, and a rotary connecting ring is arranged at the lower side of the annular fixing frame;

the rotary stirring frame is arranged on the inner side of the conical material containing barrel, an annular rotary groove is formed in the middle of the rotary stirring frame, the rotary stirring frame is rotatably connected with the annular fixing frame through the annular rotary groove and the rotary connecting ring, and a plurality of inclined stirring rods are arranged below the rotary stirring frame in a surrounding mode;

the quantitative conveying pipe is nested and slidably arranged on the inner side of the guide sleeve, strip-shaped communication ports are vertically arranged on the left side wall and the right side wall of the lower side of the quantitative conveying pipe and penetrate through and communicate the inner side and the outer side of the quantitative conveying pipe, and a conical plugging block is arranged at the bottom of the quantitative conveying pipe;

the adjusting and blocking column is embedded and slidably arranged on the inner side of the quantitative conveying pipe, and the outer side wall of the adjusting and blocking column is attached to the inner side wall of the quantitative conveying pipe;

vertical communicating pipe, set up in the bottom center department of feed cylinder is held to the toper, the bottom nestification of quantitative conveyer pipe set up in the inboard of vertical communicating pipe, quantitative conveyer pipe's lateral wall with laminate between the inside wall of vertical communicating pipe, the below of vertical communicating pipe is provided with vertical conveyer pipe, the inside diameter of vertical conveyer pipe is greater than quantitative conveyer pipe's outside diameter, the bottom of vertical conveyer pipe is provided with the bottom delivery port.

2. The polyaluminium chloride quantitative conveying device according to claim 1, wherein a driving gear ring is arranged in the middle of the annular rotating groove, a rotating gear is arranged on the outer side of the driving gear ring, a rotating motor is arranged at the shaft end of the rotating gear, and the driving gear ring and the rotating gear are meshed with each other to form a transmission structure.

3. The quantitative conveying device for polyaluminium chloride as claimed in claim 1, wherein the top end of the inclined stirring rod is provided with an elastic connecting plate, the inclined stirring rod is connected with the rotary stirring frame through the elastic connecting plate, a vibration motor is arranged inside the inclined stirring rod, and an eccentric vibration wheel is arranged at the shaft end of the vibration motor.

4. The quantitative conveying device for polyaluminium chloride as claimed in claim 1, wherein a lifting rack is vertically arranged on the outer side wall of the upper side of the quantitative conveying pipe, a lifting gear is arranged on the outer side of the lifting rack, a lifting motor is arranged at the shaft end of the lifting gear, and the lifting rack and the lifting gear are meshed with each other to form a transmission structure.

5. The quantitative conveying device for polyaluminium chloride as claimed in claim 1, wherein the vertical center line of the vertical communicating pipe and the vertical center line of the quantitative conveying pipe are positioned on the same straight line, and the vertical center line of the vertical communicating pipe and the vertical center line of the vertical conveying pipe are positioned on the same straight line.

6. The polyaluminium chloride quantitative conveying device according to claim 1, wherein an annular vent pipe is arranged in the middle of the conical material containing barrel, the annular vent pipe is arranged around the outer side of the quantitative conveying pipe, a plurality of air outlet holes are uniformly arranged in the middle of the annular vent pipe in a surrounding mode, and a high-pressure air guide pipe is arranged above the annular vent pipe.

7. The polyaluminium chloride quantitative conveying device according to claim 1, wherein an adjusting rack is vertically arranged at the upper end of the adjusting blocking column, an adjusting gear is arranged outside the adjusting rack, an adjusting motor is arranged at the shaft end of the adjusting gear, and the adjusting rack and the adjusting gear are meshed with each other to form a transmission structure.

8. The polyaluminium chloride quantitative conveying device according to claim 1, wherein a central sleeve is arranged at the center of the adjusting and blocking column, a connecting air duct is arranged at the top end of the central sleeve, an adjusting air pump is arranged at the outer end of the connecting air duct, and the central sleeve is connected with the adjusting air pump through the connecting air duct.

9. The polyaluminium chloride quantitative conveying device according to claim 8, wherein a discharging end head is arranged at the bottom end of the adjusting and blocking column, a vertical connecting column is arranged at the center of the top of the discharging end head, a pushing piston is arranged above the vertical connecting column, the adjusting and blocking column is in sliding connection with the central sleeve through the vertical connecting column and the pushing piston, and the pushing piston and the central sleeve are matched in size.

10. The polyaluminium chloride quantitative conveying device according to claim 9, wherein the bottom surface of the discharging end head is provided with a conical embedding groove, the top surface of the conical plugging block is of a conical structure, and the conical embedding groove and the conical plugging block are matched in size.

Technical Field

One or more embodiments of this description relate to polyaluminium chloride production technical field, especially relate to a polyaluminium chloride quantitative conveyor.

Background

Polyaluminium chloride is an inorganic substance, is a novel water purifying material and an inorganic polymer coagulant, is called polyaluminium for short, has the performances of adsorption, coagulation, precipitation and the like, is poor in stability and corrosive, and is immediately washed clean by water if being carelessly splashed on the skin. The production personnel need to wear working clothes, wear a mask and gloves and wear boots. The polyaluminium chloride has the advantages of good stability of spray drying, wide adaptive water area, high hydrolysis speed, strong adsorption capacity, large formed alumen ustum, high dense precipitation speed, low effluent turbidity, good dehydration performance and the like.

The applicant finds that at present, when the polyaluminium chloride is quantitatively conveyed, packaged or filled, a quantitative container is usually adopted to contain the product for quantitative guarantee, but the method is difficult to flexibly adjust the quantitative packaging amount of a single time, powder is easy to harden and clamp when the powder is loaded for a single time, the product is easy to adhere in the container, the whole discharging cannot be guaranteed, and the quantitative accuracy is difficult to maintain.

Disclosure of Invention

In view of the above, an object of one or more embodiments of the present disclosure is to provide a device for quantitatively conveying polyaluminium chloride, so as to solve the problems that when the polyaluminium chloride is quantitatively conveyed, packaged or filled, a quantitative container is usually used to contain a product for quantitative assurance, but it is difficult to flexibly adjust the quantitative packaging amount of a single time, powder is easily hardened and blocked when a single time of loading is performed, the product is easily stuck in the container, complete unloading cannot be guaranteed, and quantitative accuracy is difficult to maintain.

In view of the above, one or more embodiments of the present disclosure provide a polyaluminum chloride quantitative conveying device, including:

the device comprises a conical material containing barrel, wherein an annular fixing frame is arranged at the top of the conical material containing barrel, a guide sleeve is arranged at the center of the annular fixing frame, and a rotary connecting ring is arranged at the lower side of the annular fixing frame;

the rotary stirring frame is arranged on the inner side of the conical material containing barrel, an annular rotary groove is formed in the middle of the rotary stirring frame, the rotary stirring frame is rotatably connected with the annular fixing frame through the annular rotary groove and the rotary connecting ring, and a plurality of inclined stirring rods are arranged below the rotary stirring frame in a surrounding mode;

the quantitative conveying pipe is nested and slidably arranged on the inner side of the guide sleeve, strip-shaped communication ports are vertically arranged on the left side wall and the right side wall of the lower side of the quantitative conveying pipe and penetrate through and communicate the inner side and the outer side of the quantitative conveying pipe, and a conical plugging block is arranged at the bottom of the quantitative conveying pipe;

the adjusting and blocking column is embedded and slidably arranged on the inner side of the quantitative conveying pipe, and the outer side wall of the adjusting and blocking column is attached to the inner side wall of the quantitative conveying pipe;

vertical communicating pipe, set up in the bottom center department of feed cylinder is held to the toper, the bottom nestification of quantitative conveyer pipe set up in the inboard of vertical communicating pipe, quantitative conveyer pipe's lateral wall with laminate between the inside wall of vertical communicating pipe, the below of vertical communicating pipe is provided with vertical conveyer pipe, the inside diameter of vertical conveyer pipe is greater than quantitative conveyer pipe's outside diameter, the bottom of vertical conveyer pipe is provided with the bottom delivery port.

In some optional embodiments, a driving gear ring is arranged in the middle of the annular rotating groove, a rotating gear is arranged on the outer side of the driving gear ring, a rotating motor is arranged at the shaft end of the rotating gear, and the driving gear ring and the rotating gear are meshed with each other to form a transmission structure.

In some optional embodiments, the top end of the inclined stirring rod is provided with an elastic connecting plate, the inclined stirring rod is connected with the rotary stirring frame through the elastic connecting plate, a vibration motor is arranged inside the inclined stirring rod, and an eccentric vibration wheel is arranged at the shaft end of the vibration motor.

In some optional embodiments, a lifting rack is vertically arranged on the outer side wall of the upper side of the quantitative conveying pipe, a lifting gear is arranged on the outer side of the lifting rack, a lifting motor is arranged at the shaft end of the lifting gear, and the lifting rack and the lifting gear are meshed with each other to form a transmission structure.

In some optional embodiments, the vertical center line of the vertical communication pipe and the vertical center line of the quantitative conveying pipe are located on the same straight line, and the vertical center line of the vertical communication pipe and the vertical center line of the vertical conveying pipe are located on the same straight line.

In some optional embodiments, an annular vent pipe is arranged in the middle of the conical material containing barrel, the annular vent pipe is arranged around the outer side of the quantitative delivery pipe, a plurality of air outlet holes are uniformly arranged in the middle of the annular vent pipe in a surrounding mode, and a high-pressure air guide pipe is arranged above the annular vent pipe.

In some optional embodiments, an adjusting rack is vertically arranged at the upper end of the adjusting plugging column, an adjusting gear is arranged outside the adjusting rack, an adjusting motor is arranged at the shaft end of the adjusting gear, and the adjusting rack and the adjusting gear are meshed with each other to form a transmission structure.

In some optional embodiments, a central sleeve is arranged at the center of the adjusting and plugging column, a connecting air duct is arranged at the top end of the central sleeve, an adjusting air pump is arranged at the outer end of the connecting air duct, and the central sleeve is connected with the adjusting air pump through the connecting air duct.

In some optional embodiments, a discharging end is arranged at the bottom end of the adjusting and blocking column, a vertical connecting column is arranged at the center of the top of the discharging end, a pushing piston is arranged above the vertical connecting column, the adjusting and blocking column is slidably connected with the central sleeve through the vertical connecting column and the pushing piston, and the pushing piston and the central sleeve are mutually matched in size.

In some optional embodiments, the bottom surface of the discharge end head is provided with a conical embedding groove, the top surface of the conical plugging block is in a conical structure, and the conical embedding groove and the conical plugging block are matched in size.

From the above, it can be seen that the polyaluminium chloride quantitative conveying device provided in one or more embodiments of the present disclosure can accommodate the produced polyaluminium chloride powder through the tapered material accommodating barrel, the tapered material accommodating barrel has a quantitative conveying pipe communicated with the tapered material accommodating barrel through a strip-shaped communicating port formed in a side wall, so that the powder can be filled into the quantitative conveying pipe through the strip-shaped communicating port, the quantitative conveying pipe is further embedded with an adjusting blocking column, the size of the remaining space inside the quantitative conveying pipe can be adjusted by adjusting the position of the blocking column, the amount of the powder in the quantitative conveying pipe can be adjusted, the adjustment and the use are more flexible and convenient, the filled quantitative conveying pipe can slide downward, the pipe can move to the vertical conveying pipe through the vertical communicating pipe for discharging, and the discharging end on the adjusting blocking column can slide downward and push, the material that divides in the quantitative conveyer pipe is released completely to accomplish single quantitative transport work, thereby can guarantee to discharge entirely, improve the quantitative precision of carrying the packing.

Drawings

In order to more clearly illustrate one or more embodiments of the present disclosure or technical solutions in related arts, the drawings used in the description of the embodiments or related arts will be briefly described below, it is obvious that the drawings in the following description are only examples of one or more embodiments of the present disclosure, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic diagram of a longitudinal cross-sectional structure of one or more embodiments of the present disclosure;

FIG. 2 is a schematic diagram of a front view of one or more embodiments of the present disclosure;

FIG. 3 is a schematic diagram of the internal structure of one or more embodiments of the disclosure;

FIG. 4 is a schematic longitudinal cross-sectional structural view of a delivery state of one or more embodiments of the present disclosure;

FIG. 5 is a schematic structural diagram of a tapered cartridge according to one or more embodiments of the present disclosure;

FIG. 6 is a schematic diagram of a rotating agitator frame according to one or more embodiments of the present disclosure;

FIG. 7 is a schematic diagram of a dosing tube according to one or more embodiments of the present disclosure;

fig. 8 is a schematic structural diagram of an adjusting plug according to one or more embodiments of the present disclosure.

Detailed Description

To make the objects, aspects and advantages of one or more embodiments of the present disclosure more apparent, one or more embodiments of the present disclosure are described in further detail below with reference to specific embodiments.

It is to be understood that unless otherwise defined, technical or scientific terms used herein with respect to one or more embodiments of the present disclosure shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of "first," "second," and similar language in one or more embodiments of the present description is not intended to imply any order, quantity, or importance, but rather the intention is to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

In one or more embodiments of the present disclosure, a polyaluminum chloride quantitative conveying device includes:

the device comprises a conical charging barrel 1, wherein an annular fixing frame 101 is arranged at the top of the conical charging barrel 1, a guide sleeve 102 is arranged at the center of the annular fixing frame 101, and a rotary connecting ring 103 is arranged on the lower side of the annular fixing frame 101;

the rotary stirring frame 2 is arranged on the inner side of the conical material containing barrel 1, an annular rotary groove 201 is arranged in the middle of the rotary stirring frame 2, the rotary stirring frame 2 is rotatably connected with the annular fixed frame 101 through the annular rotary groove 201 and a rotary connecting ring 103, and a plurality of inclined stirring rods 205 are arranged below the rotary stirring frame 2 in a surrounding mode;

the quantitative conveying pipe 3 is nested and slidably arranged on the inner side of the guide sleeve 102, strip-shaped communication ports 301 are vertically arranged on the left side wall and the right side wall of the lower side of the quantitative conveying pipe 3, the strip-shaped communication ports 301 penetrate through and communicate the inner side and the outer side of the quantitative conveying pipe 3, and a conical plugging block 302 is arranged at the bottom of the quantitative conveying pipe 3;

the adjusting and plugging column 4 is embedded and slidably arranged on the inner side of the quantitative conveying pipe 3, and the outer side wall of the adjusting and plugging column 4 is attached to the inner side wall of the quantitative conveying pipe 3;

vertical communicating pipe 6 sets up in the bottom center department of toper container section of thick bamboo 1, and the bottom nestification of quantitative conveyer pipe 3 sets up in the inboard of vertical communicating pipe 6, laminates between quantitative conveyer pipe 3's lateral wall and the inside wall of vertical communicating pipe 6, and the below of vertical communicating pipe 6 is provided with vertical conveyer pipe 601, and the inside diameter of vertical conveyer pipe 601 is greater than quantitative conveyer pipe 3's outside diameter, and the bottom of vertical conveyer pipe 601 is provided with bottom delivery port 602.

Referring to fig. 1 to 8, as an embodiment of the present invention, a quantitative conveying apparatus for polyaluminum chloride includes: the device comprises a conical charging barrel 1, wherein an annular fixing frame 101 is arranged at the top of the conical charging barrel 1, a guide sleeve 102 is arranged at the center of the annular fixing frame 101, and a rotary connecting ring 103 is arranged on the lower side of the annular fixing frame 101; the rotary stirring frame 2 is arranged on the inner side of the conical material containing barrel 1, an annular rotary groove 201 is arranged in the middle of the rotary stirring frame 2, the rotary stirring frame 2 is rotatably connected with the annular fixed frame 101 through the annular rotary groove 201 and a rotary connecting ring 103, and a plurality of inclined stirring rods 205 are arranged below the rotary stirring frame 2 in a surrounding mode; the quantitative conveying pipe 3 is nested and slidably arranged on the inner side of the guide sleeve 102, strip-shaped communication ports 301 are vertically arranged on the left side wall and the right side wall of the lower side of the quantitative conveying pipe 3, the strip-shaped communication ports 301 penetrate through and communicate the inner side and the outer side of the quantitative conveying pipe 3, and a conical plugging block 302 is arranged at the bottom of the quantitative conveying pipe 3; the adjusting and plugging column 4 is embedded and slidably arranged on the inner side of the quantitative conveying pipe 3, and the outer side wall of the adjusting and plugging column 4 is attached to the inner side wall of the quantitative conveying pipe 3; vertical communicating pipe 6 sets up in the bottom center department of toper container section of thick bamboo 1, and the bottom nestification of quantitative conveyer pipe 3 sets up in the inboard of vertical communicating pipe 6, laminates between quantitative conveyer pipe 3's lateral wall and the inside wall of vertical communicating pipe 6, and the below of vertical communicating pipe 6 is provided with vertical conveyer pipe 601, and the inside diameter of vertical conveyer pipe 601 is greater than quantitative conveyer pipe 3's outside diameter, and the bottom of vertical conveyer pipe 601 is provided with bottom delivery port 602.

Referring to fig. 1 to 8, optionally, the device loads and stores polyaluminium chloride powder for quantitative sub-packaging through a conical material containing barrel 1, the lower half part of the conical material containing barrel 1 is of a conical structure, so that the powder inside can be gathered to the center of the bottom, a rotary stirring frame 2 is further arranged in the conical material containing barrel 1, the rotary stirring frame 2 is rotatably connected with an annular fixing frame 101 through an annular rotary groove 201 and a rotary connecting ring 103, a driving toothed ring 202 is arranged in the middle of the annular rotary groove 201, a rotary gear 203 is arranged on the outer side of the driving toothed ring 202, a rotary motor 204 is arranged at the shaft end of the rotary gear 203, the driving toothed ring 202 and the rotary gear 203 are engaged with each other to form a transmission structure, the rotary stirring frame 2 is arranged around the inner side of the conical material containing barrel 1, the vertical central lines of the rotary stirring frame are positioned on the same straight line, so that the rotary motor 204 can drive the rotary stirring frame 2 to rotate through the driving toothed ring 202 and the rotary gear 203, and still encircle on the rotatory agitator frame 2 and be provided with a plurality of slope stirring rods 205, thereby rotatory agitator frame 2 can drive all slope stirring rods 205 synchronous rotations, to hold the polymeric aluminum chloride powder that feed cylinder 1 inside loading was stored to the toper and stir, avoid polymeric aluminum chloride powder pile caking, be convenient for carry partial shipment work, the top of slope stirring rod 205 is provided with elastic connection board 206 simultaneously, slope stirring rod 205 passes through elastic connection board 206 and rotatory agitator frame 2 interconnect, the inside of slope stirring rod 205 is provided with vibrating motor 207, vibrating motor 207's axle head is provided with eccentric vibrating wheel 208, so when vibrating motor 207 drives eccentric vibrating wheel 208 and rotates, can drive slope stirring rod 205 and wholly vibrate, thereby can further improve the stirring effect, avoid polymeric aluminum chloride powder pile caking, it is more reliable during the use.

Referring to fig. 1 to 8, optionally, the device loads and stores the polyaluminium chloride powder for quantitative sub-packaging through the tapered material containing barrel 1, the quantitative conveying pipe 3 is disposed at the center of the interior of the tapered material containing barrel 1, the device can load and convey the polyaluminium chloride powder through the quantitative conveying pipe 3, the left and right side walls of the lower side of the quantitative conveying pipe 3 are vertically provided with the strip-shaped communicating ports 301, the strip-shaped communicating ports 301 penetrate and communicate with the inner side and the outer side of the quantitative conveying pipe 3, so that the polyaluminium chloride powder loaded and stored in the tapered material containing barrel 1 can naturally flow into the quantitative conveying pipe 3 through the strip-shaped communicating ports 301 for quantitative sub-packaging and conveying, the quantitative conveying pipe 3 is further embedded with the adjusting and blocking column 4, the outer side wall of the adjusting and blocking column 4 is attached to the inner side wall of the quantitative conveying pipe 3, and the adjusting and blocking column 4 can occupy the space inside the quantitative conveying pipe 3, the size of the residual space inside the quantitative conveying pipe 3 is determined, an adjusting rack 401 is vertically arranged at the upper end of the adjusting plugging column 4, an adjusting gear 402 is arranged on the outer side of the adjusting rack 401, an adjusting motor 403 is arranged at the shaft end of the adjusting gear 402, and the adjusting rack 401 and the adjusting gear 402 are meshed with each other to form a transmission structure, so that the adjusting motor 403 can drive the adjusting plugging column 4 to move up and down inside the quantitative conveying pipe 3 through the adjusting rack 401 and the adjusting gear 402, and further the adjusting plugging column 4 occupies the space inside the quantitative conveying pipe 3, namely the size of the residual space inside the quantitative conveying pipe 3, namely the single split amount can be determined, so that the single split amount can be adjusted according to requirements, the use is more convenient and flexible, the lifting rack 303 is vertically arranged on the outer side wall of the upper side of the quantitative conveying pipe 3, and the lifting gear 304 is arranged on the outer side of the lifting rack 303, the shaft end of the lifting gear 304 is provided with a lifting motor 305, the lifting rack 303 and the lifting gear 304 are engaged with each other to form a transmission structure, so that the lifting motor 305 can drive the quantitative delivery pipe 3 to move up and down through the lifting rack 303 and the lifting gear 304, the bottom end of the quantitative delivery pipe 3 is nested and arranged at the inner side of the vertical communication pipe 6, the outer side wall of the quantitative delivery pipe 3 is attached to the inner side wall of the vertical communication pipe 6, the vertical central line of the vertical communication pipe 6 and the vertical central line of the quantitative delivery pipe 3 are positioned on the same straight line, the vertical central line of the vertical communication pipe 6 and the vertical central line of the vertical delivery pipe 601 are positioned on the same straight line, the quantitative delivery pipe 3 can move downwards along the vertical communication pipe 6 after being loaded with powder, the vertical communication pipe 6 can synchronously seal the strip-shaped communication port 301 in the moving process, and prevent the powder from entering or leaking, then quantitative transport pipe 3 can continue to remove, move to vertical transport pipe 601 until the latter half, and vertical transport pipe 601's inside diameter is greater than quantitative transport pipe 3's outside diameter, thereby bar intercommunication mouth 301 can't seal this moment, the powder flows out by vertical transport pipe 601 through bar intercommunication mouth 301 naturally, and carry out through bottom delivery port 602, with the transportation work of accomplishing the ration, carry out the transportation process, can continuously keep 1 inside and the bottom delivery port 602 outside mutual interval of tapered container barrel, avoid the powder to leak or the gaseous entering of going out, it is more accurate reliable when carrying out the quantitative transportation partial shipment.

Referring to fig. 1 to 8, optionally, the device loads and stores polyaluminium chloride powder for quantitative subpackaging through a tapered charging barrel 1, the tapered charging barrel 1 loads and stores the polyaluminium chloride powder and can naturally flow into the quantitative conveying pipe 3 through a strip-shaped communication port 301 for quantitative subpackaging and conveying, a rotary stirring frame 2 arranged in the tapered charging barrel 1 can drive an inclined stirring rod 205 to rotate to stir and vibrate the powder inside, so as to avoid conglomeration and agglomeration of the polyaluminium chloride powder, an annular vent pipe 104 is arranged in the middle of the tapered charging barrel 1, the annular vent pipe 104 is arranged around the outer side of the quantitative conveying pipe 3, a plurality of air outlet holes 105 are uniformly arranged in the middle of the annular vent pipe 104 in a surrounding manner, a high-pressure air duct 106 is arranged above the annular vent pipe 104, so that high-pressure air can be filled into the annular vent pipe 104 through the high-pressure air duct 106, and the powder is sprayed out through the air outlet 105, so that the fluidity of the internally stored polyaluminium chloride powder is improved, the powder can be conveniently subjected to natural flow subpackage, the blockage is prevented, and the use is more reliable.

Referring to fig. 1 to 8, optionally, the device quantitatively dispenses polyaluminium chloride powder through the quantitative delivery pipe 3, and adjusts the size of the space occupied by the adjustable plugging column 4 inside the quantitative delivery pipe 3, i.e. the remaining space inside the quantitative delivery pipe 3, to determine the single dispensing amount, after the quantitative powder is filled in the quantitative delivery pipe 3, the powder naturally flows out and is unloaded when the quantitative delivery pipe 3 moves downwards to the vertical delivery pipe 601, the center of the adjustable plugging column 4 is provided with a central sleeve 404, the top end of the central sleeve 404 is provided with a connecting air duct 405, the outer end of the connecting air duct 405 is provided with an adjustable air pump 406, the central sleeve 404 is connected with the adjustable air pump 406 through the connecting air duct 405, the bottom end of the adjustable plugging column 4 is provided with a discharge tip 5, the top center of the discharge tip 5 is provided with a vertical connection column 502, a push piston 503 is arranged above the vertical connection column 502, the adjusting and blocking column 4 is slidably connected with the central sleeve 404 through a vertical connecting column 502 and a pushing piston 503, the pushing piston 503 and the central sleeve 404 are mutually matched in size, the air pressure inside the central sleeve 404 can be adjusted by adjusting the air pump 406 by connecting the air tube 405, thereby driving the discharging end 5 to move up and down along the quantitative conveying pipe 3 so as to push out the separated material in the quantitative conveying pipe 3, meanwhile, the bottom surface of the discharging end 5 is provided with a conical embedding groove 501, the top surface of the conical plugging block 302 is in a conical structure, the conical embedding groove 501 and the conical plugging block 302 are matched with each other in size, the conical plugging block 302 in the conical structure can avoid dead corners and facilitate the natural outflow of powder, and through 5 removal promotion of the end of unloading, can guarantee that 6 inside powder volumes of vertical communicating pipe are unloaded completely, avoid the adhesion to leave over, can improve the quantitative precision of carrying the packing.

When in use, the pipelines of the combined table are firstly connected, then the polyaluminium chloride powder to be filled is placed in the conical material containing barrel 1, the rotary motor 204 can drive the rotary stirring frame 2 to rotate through the driving gear ring 202 and the rotary gear 203, so as to drive all the inclined stirring rods 205 thereon to synchronously rotate, so as to stir the polyaluminium chloride powder loaded and stored in the conical material containing barrel 1, simultaneously, when the vibration motor 207 drives the eccentric vibration wheel 208 to rotate, the inclined stirring rods 205 are driven to integrally vibrate, so as to avoid the accumulation and caking of the polyaluminium chloride powder, the high-pressure air duct 106 is connected to an external high-pressure air pump, high-pressure air is filled into the annular air duct 104 and is ejected through the air outlet 105, so as to improve the fluidity of the polyaluminium chloride powder stored in the interior and prevent the blockage, when quantitative conveying is carried out, the conveying amount is firstly adjusted, the adjusting motor 403 drives the adjusting plunger 4 to move up and down in the quantitative conveying pipe 3 through the adjusting rack 401 and the adjusting gear 402, and then adjusts the size of the space occupied by the plunger 4 in the quantitative conveying pipe 3, namely the residual space in the quantitative conveying pipe 3, so as to determine the single split charging amount, after the adjusting work is completed, when the quantitative conveying is performed, the conical material containing barrel 1 loads and stores the polyaluminium chloride powder, the polyaluminium chloride powder naturally flows into the quantitative conveying pipe 3 through the strip-shaped communicating port 301, so as to fill the residual space in the quantitative conveying pipe 3, then the lifting motor 305 can drive the quantitative conveying pipe 3 to move downwards through the lifting rack 303 and the lifting gear 304, the quantitative conveying pipe 3 moves downwards along the vertical communicating pipe 6, the vertical communicating pipe 6 can synchronously seal the strip-shaped communicating port 301 in the moving process, so as to prevent the powder from entering or leaking, until the lower half part moves into the vertical conveying pipe 601, the inner diameter of the vertical conveying pipe 601 is larger than the outer diameter of the quantitative conveying pipe 3, so that the strip-shaped communication port 301 can not be closed at the moment, powder naturally flows out of the vertical conveying pipe 601 through the strip-shaped communication port 301 and is conveyed out through the bottom conveying port 602, while adjusting the air pump 406 to increase the air pressure inside the central sleeve 404 by connecting the air tube 405, further driving the discharging end 5 to move downwards along the inside of the quantitative conveying pipe 3, pushing out the divided material inside the quantitative conveying pipe 3, avoiding the adhesion and the leaving, when the powder inside the vertical communicating pipe 6 is completely discharged, the air pump 406 is adjusted to reduce the air pressure inside the central sleeve 404 by connecting the air duct 405, so that the discharging end 5 moves upwards to reset, then the lifting motor 305 can drive the quantitative conveying pipe 3 to move upwards and reset through the lifting rack 303 and the lifting gear 304, and the quantitative conveying and packaging work is completed once after the powder is refilled.

The invention provides a polyaluminium chloride quantitative conveying device, which can contain produced polyaluminium chloride powder through a conical material containing barrel 1, wherein a quantitative conveying pipe 3 in the conical material containing barrel 1 is communicated with the interior of the conical material containing barrel 1 through a strip-shaped communication port 301 arranged on the side wall, so that the powder can be filled into the quantitative conveying pipe 3 through the strip-shaped communication port 301, an adjusting blocking column 4 is also embedded in the quantitative conveying pipe 3, the size of the residual space in the quantitative conveying pipe 3 can be adjusted by adjusting the position of the blocking column 4, the quantity of the powder arranged in the quantitative conveying pipe 3 can be adjusted, the adjustment and the use are more flexible and convenient, the quantitative conveying pipe 3 can slide downwards after the filling is completed, the powder can move to a vertical conveying pipe 601 through a vertical communication pipe 6 for discharging, and a discharging end 5 on the adjusting blocking column 4 can slide downwards, the material distribution in the quantitative conveying pipe 3 is completely pushed out to complete single quantitative conveying work, so that the discharge of the material can be ensured, and the precision of quantitative conveying and packaging is improved.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to suggest that the scope of one or more embodiments of the present specification (including the claims) is limited to these examples; within the context of one or more embodiments of the present description, features from the above embodiments or from different embodiments may also be combined, steps may be performed in any order, and there are many other variations of the different aspects of one or more embodiments of the present description as described above, which are not provided in detail for the sake of brevity.

While one or more embodiments of the present specification have been described in conjunction with specific embodiments thereof, many alternatives, modifications, and variations of these embodiments will be apparent to those of ordinary skill in the art in light of the foregoing description.

It is intended that the one or more embodiments of the present specification embrace all such alternatives, modifications and variations as fall within the broad scope of the appended claims. Therefore, any omissions, modifications, substitutions, improvements, and the like that may be made without departing from the spirit and principles of one or more embodiments of the present disclosure are intended to be included within the scope of the one or more embodiments of the present disclosure.