CN220283766U - Integrated continuous dosing device - Google Patents

Integrated continuous dosing device Download PDF

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Publication number
CN220283766U
CN220283766U CN202322216202.7U CN202322216202U CN220283766U CN 220283766 U CN220283766 U CN 220283766U CN 202322216202 U CN202322216202 U CN 202322216202U CN 220283766 U CN220283766 U CN 220283766U
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China
Prior art keywords
mixing box
water outlet
water
pipeline
ball valve
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Active
Application number
CN202322216202.7U
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Chinese (zh)
Inventor
解萍
杨旭明
杨启双
曹磊
宋克成
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Jiangsu Geruite Pipe Network Engineering Co ltd
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Jiangsu Geruite Pipe Network Engineering Co ltd
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Priority to CN202322216202.7U priority Critical patent/CN220283766U/en
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Abstract

The utility model discloses an integrated continuous dosing device, wherein a mixing box A, a mixing box B and a mixing box C are arranged in a container, one sides of the mixing box A and the mixing box B, which are close to each other, are mutually attached to form a shared side panel, overflow outlets which can enable the interiors of the mixing box A and the mixing box B to be communicated are formed in the side panel, stirring devices are arranged on the mixing box A, the mixing box B and the mixing box C, the mixing box A and the mixing box C are communicated with clear water pipelines, the mixing box A, the mixing box B and the mixing box C are communicated with a water outlet pipeline, a quantitative feeding mechanism for feeding is arranged on the mixing box A, and a feeding hole is formed in the mixing box C. The device has the advantages of integration, standardization, convenient transportation, and convenient maintenance and installation.

Description

Integrated continuous dosing device
Technical Field
The utility model relates to an integrated continuous dosing device, and belongs to the field of muddy water treatment equipment.
Background
Along with the wide application of slurry shield, slurry treatment becomes a very important part of slurry shield construction, and chemical agents are needed to be added in slurry treatment, more than one agent is needed to be added, and the agents are needed to be added and mixed according to a certain proportion, so that the conventional agent adding structure is generally provided with a plurality of large agent boxes, a whole set of powder conveying belt and a water supply tank, and the devices are placed and dispersed, cannot be managed in a centralized manner, and are difficult to transport in the later period. There is therefore an urgent need for an integrated continuous dosing device.
Disclosure of Invention
The utility model aims to solve the problems of large occupied space, complex structure, troublesome installation, dispersion and difficult management and maintenance of the traditional medicine adding device in the prior art, and provides an integrated continuous medicine adding device.
In order to achieve the above object, the technical scheme of the present utility model is as follows:
the utility model provides a continuous charge device of integrated form, be provided with mixing box A in the container, mixing box B and mixing box C, mixing box A, the mutual laminating of one side that is close to of mixing box B to form shared side board, seted up the overflow mouth that can make mixing box A and mixing box B inside be linked together on the side board, mixing box A, mixing box B and mixing box C all are equipped with agitating unit, mixing box A and mixing box C all are linked together with the clear water pipeline, and mixing box A, mixing box B and mixing box C all are linked together with the outlet pipe way, are equipped with the ration feeding mechanism of feeding on the mixing box A, are equipped with the charge door on the mixing box C.
Specifically, clear water pipeline includes total water pipeline, and clear water pipeline A and clear water pipeline C that all are linked together with total water pipeline, is provided with total ball valve on the total water pipeline.
Specifically, a plurality of water inlet ball valves A, electromagnetic flow meters and electromagnetic valves A are arranged on the clear water pipeline A. Be equipped with the branch road AII that intakes on the clear water pipeline A, the terminal of branch road AII that intakes stretches into mixing box A, be provided with the upper portion on the mixing box A and be open-ended feeding case, the feeding incasement is provided with the feed hopper that is linked together with mixing box A inside, the terminal of clear water pipeline A stretches into the feed box internal to be located the upside of feed hopper.
Specifically, ball valve A that intakes includes ball valve AII, ball valve AII intakes, according to the water flow direction, be equipped with ball valve AII intakes on the clear water pipeline A in proper order, electromagnetic flowmeter, ball valve AII intakes, solenoid valve A, ball valve AII intakes, it is these two branch lines of intaking to still be connected with branch line AII intakes and branch line AII intakes on the clear water pipeline A, the one end and electromagnetic flowmeter of branch line AII intakes, the clear water pipeline A intercommunication between ball valve AII intakes, the other end and solenoid valve A of branch line AII intakes and the clear water pipeline A intercommunication between ball valve AII intakes of branch line AII, the one end (terminal) of branch line AII intakes stretches into inside the mixing box A.
Specifically, a plurality of water inlet ball valves C and a plastic float flowmeter are arranged on the clear water pipeline C, and the other end of the clear water pipeline C extends into the mixing box C.
Specifically, according to the direction of intaking, intake ball valve C is including intake ball valve CII, be equipped with intake ball valve CII, intake ball valve CII and plastics float flowmeter on the clear water pipeline C in proper order, in clear water pipeline C's the other end (terminal) stretches into mixing box C, still the intercommunication has intake branch road C on intake ball valve CII, intake ball valve CII between clear water pipeline C, intake branch road C's the other end and intake ball valve CII and plastics float flowmeter between clear water pipeline C intercommunication, be equipped with branch road ball valve CII and branch road solenoid valve C on the branch road C of intaking in proper order.
Specifically, according to the water flow direction, outlet pipe way includes water outlet branch way A, water outlet branch way B, outlet pipe way A and outlet pipe way C, and water outlet branch way A, water outlet branch way B's end all is linked together with outlet pipe way A, and water outlet branch way A, water outlet branch way B's top stretches into the bottom in mixing box A and the mixing box B respectively, and outlet pipe way C is linked together with mixing box C one side.
Specifically, according to the water flow direction, be equipped with play water ball valve AI, play water ball valve BI on play water branch road A, the play water ball valve BI respectively, be equipped with screw pump A and play water ball valve AII on the water outlet pipeline A in proper order, and still communicate on the water outlet pipeline A between screw pump A and the play water ball valve AII and have play water branch pipe A, the end and the clear water pipeline A intercommunication of water outlet pipeline A, be equipped with play water ball valve CI and screw pump C on the water outlet pipeline C in proper order.
Specifically, the quantitative adding mechanism is a spiral quantitative dosing mechanism, and a discharge hole of the spiral quantitative dosing mechanism faces to an opening of the feeding funnel.
Specifically, a charging cover is arranged on the charging opening.
Specifically, the volume of the mixing box C is larger than that of the mixing box a or the mixing box B, and the mixing box a is located between the mixing box B and the mixing box C. Because the water outlet pipeline and the water inlet pipeline that mixing box A and mixing box C set up are many most, mixing box A and mixing box C are close to each other, and the pipeline is concentrated the overall arrangement like this, reduces pipeline laying's engineering and cost.
The utility model has the beneficial effects that:
the traditional medicine adding structure generally needs to be provided with a plurality of big medicine boxes, a whole set of medicine powder conveying belt and a water supply tank, and the various devices are placed and are scattered relatively, so that centralized management is not possible, and later transportation is difficult. The mixing box A, the mixing box B, the mixing box C, the clean water passage, the water outlet passage and the like are integrally arranged in the container, so that the container has the advantages of integration, standardization, convenience in transportation and convenience in maintenance and installation, the mixing box A and the mixing box B can be used for mixing and stirring liquid medicine for multiple times, and the mixing box C can be used for stirring and dissolving some large-capacity liquid medicine, so that the container has strong practical applicability.
Drawings
Fig. 1 is a schematic view of the overall structure of the present utility model.
Fig. 2 is an internal plan view of the present utility model.
FIG. 3 is a schematic structural view of the quantitative adding mechanism in the present utility model.
Fig. 4 is a schematic diagram of the working principle in the present utility model.
In the figure, 1 mixing box A,1-1 quantitative adding mechanism, 1-2 stirrer A,1-3 overflow outlet, 1-4 feeding box, 1-41 feeding funnel, 2 mixing box B,2-1 stirrer B,3 clear water pipeline, 3-1 total water pipeline, 3-11 total ball valve, 3-2 clear water pipeline A,3-21 electromagnetic flowmeter, 3-22 electromagnetic valve A,3-3 clear water pipeline C,3-31 plastic float flowmeter, 3-32 branch electromagnetic valve C,3-33 water inlet ball valve CI, 3-34 water inlet ball valve CII, 4 water outlet pipeline, 4-1 water outlet pipeline A,4-11 screw pump A,4-12 water outlet branch pipe A,4-2 water outlet pipeline C,4-21 screw pump C,5 mixing box C,5-1 stirrer C,5-2 feeding cover, 6 control electric box and 7 container.
Detailed Description
The utility model is further described below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and are not intended to limit the scope of the present utility model.
The integrated continuous dosing device as shown in fig. 1-2 comprises a container 7, wherein a mixing box A1, a mixing box B2 and a mixing box C5 are arranged in the container 7, one sides of the mixing box A1 and the mixing box B2, which are close to each other, are mutually attached to form a shared side panel, overflow ports 1-3 which can enable the inside of the mixing box A1 and the inside of the mixing box B2 to be communicated are formed in the side panel, stirring devices are respectively arranged in the mixing box A1, the mixing box B2 and the mixing box C5, and each stirring device comprises a stirrer A1-2, a stirrer B2-1 and a stirrer C5-1 which are respectively arranged in the mixing box A1, the mixing box B2-2, the stirrer B2-1 and the stirrer C5-1, and driving motors on the mixing box A1, the mixing box B2 and the mixing box C5 are respectively connected. The mixing box A1 and the mixing box C5 are communicated with a clean water pipeline 3, the mixing box A1, the mixing box B2 and the mixing box C5 are all communicated with a water outlet pipeline 4, a quantitative feeding mechanism 1-1 for feeding is arranged on the mixing box A1, a feeding opening is arranged on the mixing box C5, and a feeding cover 5-2 is arranged on the feeding opening. The clean water pipeline 3 is provided with a plurality of water inlet ball valves (a total ball valve 3-11, a branch ball valve A, a water inlet ball valve A and a water inlet ball valve C), water inlet electromagnetic valves (an electromagnetic valve A3-22, a branch electromagnetic valve C3-32), electromagnetic flow meters 3-21, plastic float flow meters 3-31 and the like, and the water outlet pipeline 4 is provided with a plurality of water outlet ball valves (a water outlet ball valve AI, a water outlet ball valve BI, a water outlet ball valve AII, a water outlet ball valve C) and the like.
Regarding the layout of the clean water pipeline 3 and the water outlet pipeline 4, as shown in fig. 4 in detail, the clean water pipeline 3 includes a total water pipeline 3-1, a clean water pipeline A3-2 and a clean water pipeline C3-3 both communicated with the total water pipeline 3-1, and a total ball valve 3-11 is arranged on the total water pipeline 3-1.
Regarding the clear water pipeline A3-2, a plurality of water inlet ball valves A, electromagnetic flow meters 3-21 and electromagnetic valves A3-22 are arranged on the clear water pipeline A3-2. A water inlet branch line AII is arranged on the clear water pipeline A3-2, the terminal end of the water inlet branch line AII extends into the mixing box A1, the mixing box A1 is provided with a feeding box 1-4 with an opening at the upper part, a feeding funnel 1-41 communicated with the inside of the mixing box A1 is arranged in the feeding box 1-4, and the terminal end of the clear water pipeline A3-2 extends into the water inlet box and is positioned at the upper side of the feeding funnel 1-41.
Specifically, the water inlet ball valve A comprises a water inlet ball valve AII, a water inlet ball valve AII and a water inlet ball valve AII, the electromagnetic flowmeter 3-21, the water inlet ball valve AII, the electromagnetic valve A3-22 and the water inlet ball valve AII are sequentially arranged on the clear water pipeline A3-2 according to the water flow direction, the clear water pipeline A3-2 is also connected with two water inlet branches of a water inlet branch AII and a water inlet branch AII, one end of the water inlet branch AII is communicated with the electromagnetic flowmeter 3-21 and the clear water pipeline A3-2 between the water inlet ball valve AII, the other end of the water inlet branch AII is communicated with the clear water pipeline A3-2 between the other end of the water inlet branch AII and the water inlet ball valve AII, and the other end (terminal) of the water inlet branch AII extends into the water inlet mixing box A1.
For the clear water pipeline C3-3, a plurality of water inlet ball valves C and plastic float flowmeters 3-31 are arranged on the clear water pipeline C3-3, and the other end of the clear water pipeline C3-3 extends into the mixing box C5. Specifically, according to the water inlet direction, the water inlet ball valve C comprises a water inlet ball valve C I3-33 and a water inlet ball valve C II 3-34, a water inlet ball valve C I3-33, a water inlet ball valve C II 3-34 and a plastic float flowmeter 3-31 are sequentially arranged on a clear water pipeline C3-3, the other end (terminal) of the clear water pipeline C3-3 stretches into the mixing box C5, a water inlet branch C is further communicated on the clear water pipeline C3-3 between the water inlet ball valve C I3-33 and the water inlet ball valve C II 3-34, the other end of the water inlet branch C is communicated with the clear water pipeline C3-3 between the water inlet ball valve C II 3-34 and the plastic float flowmeter 3-31, and a branch ball valve C I and a branch electromagnetic valve C3-32 are sequentially arranged on the water inlet branch C.
For the water outlet pipeline 4, according to the water flow direction, the water outlet pipeline 4 comprises a water outlet branch A, a water outlet branch B, a water outlet pipeline A4-1 and a water outlet pipeline C4-2, wherein the tail ends of the water outlet branch A and the water outlet branch B are communicated with the water outlet pipeline A4-1, the starting ends of the water outlet branch A and the water outlet branch B respectively extend into the bottom ends in the mixing box A1 and the mixing box B2, and the water outlet pipeline C4-2 is communicated with one side of the mixing box C5.
Specifically, according to the water flow direction, the water outlet branch A and the water outlet branch B are respectively provided with a water outlet ball valve AI and a water outlet ball valve BI, a screw pump A4-11 and a water outlet ball valve AII are sequentially arranged on a water outlet pipeline A4-1, a water outlet branch pipe A4-12 is also communicated with a water outlet pipeline A4-1 between the screw pump A4-11 and the water outlet ball valve AII, the tail end of the water outlet pipeline A4-1 is communicated with a clear water pipeline A3-2, and a water outlet ball valve C I and a screw pump C4-21 are sequentially arranged on a water outlet pipeline C4-2.
As shown in FIG. 3, the quantitative adding mechanism 1-1 is a spiral quantitative dosing mechanism, and a discharge hole of the spiral quantitative dosing mechanism faces to an opening of the feeding funnel 1-41.
As shown in fig. 2, the volume of mixing tank C5 is larger than the volume of mixing tank A1 or mixing tank B2, and mixing tank A1 is located between mixing tank B2 and mixing tank C5. Because mixing box A1 and mixing box C5 set up the pipeline at most, mixing box A1 and mixing box C5 are close to each other, and the pipeline is more concentrated to set up like this, reduces the engineering of pipeline laying.
The container 7 is internally provided with a control electric box 6, and the control electric box 6 is respectively and electrically connected with a stirring device, a quantitative adding mechanism 1-1, each water inlet ball valve, each water outlet ball valve, each water inlet electromagnetic valve, an electromagnetic flowmeter 3-21, a screw pump A4-11, a screw pump C4-21 and the like. The control electric box 6 can control the dosing amount of the quantitative adding mechanism 1-1, can control the stirring speed of a stirring device, and can also control the start and stop of each electromagnetic valve, each ball valve, an electromagnetic flowmeter, a plastic float flowmeter 3-31, a screw pump A4-11 and a screw pump C4-21 on the clear water pipeline 3 and the water outlet pipeline 4. The container 7 is a standard type container 7, is convenient to purchase and is also convenient to transport.
The using method comprises the following steps: for example, in actual use, the polyacrylamide liquid medicine is generally prepared by a mixing box A1 and a mixing box B2, the polyaluminium chloride liquid medicine is prepared by a mixing box C5, the main body of the quantitative adding mechanism 1-1 is made of stainless steel materials, the quantitative adding mechanism is corrosion-resistant, a spiral dosing structure is adopted, and dosing is stable. The mixing box A1 and the mixing box B2 are customized according to the length and the width of the container 7, and are made of stainless steel by welding, so that the container is corrosion-resistant. When the liquid medicine in the mixing box A1 is mixed to a certain amount, the liquid medicine flows into the mixing box B2 through the overflow ports 1-3 for secondary stirring, is cured for a long time, and is extracted after curing, so that the liquid medicine and the water can be prevented from being mixed incompletely, and the concentration of the liquid medicine is prevented from reaching the standard. The stirrer A1-2, the stirrer B2-1 and the stirrer C5-1 are formed by combining a right-angle shaft reducing motor and three rows of blades, and the rotating speed can be controlled by controlling the electric box 6. The screw pumps A4-11 and C4-21 can pump out the polyacrylamide liquid medicine in the mixing box A1 and B2 and the polyaluminium chloride liquid medicine in the mixing box C5. The water outlet branch pipes A4-12 can be used for independently discharging polyacrylamide liquid medicine or directly discharging water. The outlet of the water outlet pipeline C4-2 is used for independently discharging the polyaluminum chloride liquid medicine. The material of the mixing box C5 is formed by welding stainless steel, and is corrosion-resistant. The clear water pipeline 3 is formed by adopting PVC pipe adhesive bonding, and the other water outlet pipelines 4 are all formed by adopting PVC pipe adhesive bonding, so that the device is corrosion-resistant and easy to replace and maintain. Because the medicinal quantity of the polyaluminium chloride in the mixing box C5 is large, the charging cover 5-2 of the mixing box C5 is only required to be opened, and then the whole bag of medicinal powder is poured into the mixing box C5 for mixing and then is extracted.
The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and variations could be made by those skilled in the art without departing from the technical principles of the present utility model, and such modifications and variations should also be regarded as being within the scope of the utility model.

Claims (10)

1. The utility model provides an integrated form adds medicine device in succession, its characterized in that, includes the container, be provided with mixing box A in the container, mixing box B and mixing box C, mixing box A, mixing box B are close to one side each other laminating each other to form shared side board, seted up the overflow mouth that can make mixing box A and mixing box B inside be linked together on the side board, mixing box A, mixing box B and mixing box C all are equipped with agitating unit, mixing box A and mixing box C all are linked together with the clear water pipeline, and mixing box A, mixing box B and mixing box C all are linked together with outlet pipe way, are equipped with the ration feeding mechanism of feeding on the mixing box A, are equipped with the charge door on the mixing box C.
2. The integrated continuous dosing device of claim 1, wherein the clear water line comprises a total water line, and a clear water line a and a clear water line C both in communication with the total water line, the total water line being provided with a total ball valve.
3. The integrated continuous dosing device according to claim 2, wherein the clean water pipeline a is provided with a plurality of water inlet ball valves a, electromagnetic flow meters and electromagnetic valves a.
4. An integrated continuous dosing device according to claim 3, wherein the clean water pipeline a is provided with a water inlet branch passage aii, the terminal end of the water inlet branch passage aii extends into the mixing box a, the mixing box a is provided with a feeding box with an opening at the upper part, the feeding box is internally provided with a feeding funnel communicated with the inside of the mixing box a, and the terminal end of the clean water pipeline a extends into the water inlet box and is positioned at the upper side of the feeding funnel.
5. An integrated continuous dosing device according to claim 2, characterized in that the clear water pipeline C is provided with a plurality of water inlet ball valves C and a plastic float flowmeter, and the terminal end of the clear water pipeline C extends into the mixing tank C.
6. The integrated continuous dosing device according to claim 1, wherein the water outlet pipeline comprises a water outlet branch A, a water outlet branch B, a water outlet pipeline A and a water outlet pipeline C, wherein the tail ends of the water outlet branch A and the water outlet branch B are communicated with the water outlet pipeline A, the starting ends of the water outlet branch A and the water outlet branch B respectively extend into the bottoms of the mixing box A and the mixing box B, and the water outlet pipeline C is communicated with one side of the mixing box C.
7. The integrated continuous dosing device according to claim 6, wherein the water outlet branch A and the water outlet branch B are respectively provided with a water outlet ball valve AI and a water outlet ball valve BI, the water outlet pipeline A is sequentially provided with a screw pump A and a water outlet ball valve AII, the water outlet pipeline A between the screw pump A and the water outlet ball valve AII is also communicated with a water outlet branch pipe A, the tail end of the water outlet pipeline A is communicated with a clear water pipeline A, and the water outlet pipeline C is sequentially provided with a water outlet ball valve CI and a screw pump C.
8. The integrated continuous dosing device of claim 4, wherein the dosing mechanism is a screw type dosing mechanism, and wherein a discharge port of the screw type dosing mechanism is opposite to an opening of the feed hopper.
9. An integrated continuous dosing device as claimed in claim 1, wherein the feed inlet is provided with a feed cap.
10. An integrated continuous dosing device according to claim 1, wherein the volume of mixing tank C is greater than the volume of mixing tank a or mixing tank B, mixing tank a being located between mixing tank B and mixing tank C.
CN202322216202.7U 2023-08-17 2023-08-17 Integrated continuous dosing device Active CN220283766U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202322216202.7U CN220283766U (en) 2023-08-17 2023-08-17 Integrated continuous dosing device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202322216202.7U CN220283766U (en) 2023-08-17 2023-08-17 Integrated continuous dosing device

Publications (1)

Publication Number Publication Date
CN220283766U true CN220283766U (en) 2024-01-02

Family

ID=89325402

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202322216202.7U Active CN220283766U (en) 2023-08-17 2023-08-17 Integrated continuous dosing device

Country Status (1)

Country Link
CN (1) CN220283766U (en)

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Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant
PE01 Entry into force of the registration of the contract for pledge of patent right
PE01 Entry into force of the registration of the contract for pledge of patent right

Denomination of utility model: An integrated continuous dosing device

Granted publication date: 20240102

Pledgee: Bank of China Limited by Share Ltd. Nanjing Xuanwu sub branch

Pledgor: JIANGSU GERUITE PIPE NETWORK ENGINEERING CO.,LTD.

Registration number: Y2024980011752