CN216825993U - Multi-medicine mixing equipment - Google Patents

Multi-medicine mixing equipment Download PDF

Info

Publication number
CN216825993U
CN216825993U CN202123003484.XU CN202123003484U CN216825993U CN 216825993 U CN216825993 U CN 216825993U CN 202123003484 U CN202123003484 U CN 202123003484U CN 216825993 U CN216825993 U CN 216825993U
Authority
CN
China
Prior art keywords
port
stirring
adjusting device
acid
alkali
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN202123003484.XU
Other languages
Chinese (zh)
Inventor
申英杰
刘继东
陈俊杰
郑阳
刘明
王森
陈润生
胡佳晨
王加华
王湘徽
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Shanghai Sus Environment Restoration Co ltd
Original Assignee
Shanghai Sus Environment Restoration Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shanghai Sus Environment Restoration Co ltd filed Critical Shanghai Sus Environment Restoration Co ltd
Priority to CN202123003484.XU priority Critical patent/CN216825993U/en
Application granted granted Critical
Publication of CN216825993U publication Critical patent/CN216825993U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Apparatuses For Bulk Treatment Of Fruits And Vegetables And Apparatuses For Preparing Feeds (AREA)

Abstract

The utility model provides a multi-medicine mixing device, which comprises an acid adjusting device, an alkali adjusting device, a stirring and mixing device and a crushing device; the reagent needing acid regulation firstly enters the acid regulation device and then enters the stirring and blending device, the reagent needing alkali regulation firstly enters the alkali regulation device and then enters the stirring and blending device, and the reagent needing acid-base treatment directly enters the stirring and blending device. And after all the reagents are fully mixed and stirred, crushing by using a ball mill, and finally drying and bagging to meet the use requirements. The utility model discloses on integrating acid-base adjusting device, stirring mixing arrangement and crushing unit to a production line, require according to actual production that selectivity drops into sour and changes medicament, alkali and change one or more in medicament and the former medicament and carry out broken drying bagging-off, improve working effect greatly.

Description

Multi-medicine mixing equipment
Technical Field
The utility model belongs to the medicament field of mixing, especially a many medicaments acid changes, alkali changes or does not change the mixing apparatus who carries out many medicaments mixed technology adoption.
Background
In the existing medicament production process, a plurality of medicaments are required to be rapidly mixed, crushed, dried and bagged. Before mixing, part of the medicament needs to be modified by an acid reagent, part of the medicament needs to be modified by an alkali reagent, and part of the medicament is directly mixed without modification. Therefore, it is very important how to mix, crush, dry and pack one or more medicaments according to the actual production requirements. There is currently no associated apparatus dedicated to the mixing of medicaments.
Disclosure of Invention
In view of the above, the present invention is directed to a device for rapidly mixing a plurality of drugs, which can modify a predetermined drug and mix, crush, dry, and pack the drug in a short time.
In order to achieve the above purpose, the technical scheme of the utility model is realized as follows:
a multi-drug mixing device comprises an acid adjusting device, an alkali adjusting device, a stirring and mixing device and a crushing device;
the acid adjusting device 5 is composed of a first belt pulley 1, a first motor 2, an acid feeding port 3, a first thermometer port 4, a first medicament feeding port 6, a first pH meter port 7, a first liquid level meter port 8, a first stirring device 9 and a first discharge port 10. The first motor 2 is connected with the first stirring device 9 through the first belt pulley 1, and the first belt pulley 1 is connected with the first stirring device 9 through a bearing. The acid feeding port 3 is positioned at the right upper part of the acid adjusting device 5; the first medicament adding port 6 is positioned above the left side of the acid adjusting device 5; the first temperature measuring port 4 is positioned in the middle of the right side of the acid adjusting device 5; the first pH meter port 7 is positioned in the middle of the left side of the acid adjusting device 5; the first liquid level meter port 8 is positioned below the first pH meter port 7; the first discharge hole 10 is located at the lower right of the acid adjusting device.
The alkali adjusting device 15 is composed of a second belt pulley 11, a second motor 12, an alkali feeding port 13, a second thermometer port 14, a second medicament feeding port 16, a second pH meter port 17, a second liquid level meter port 18, a second stirring device 19 and a second discharging port 20. The second motor 12 is connected with the second stirring and mixing device 19 through a second belt pulley 11, and the second belt pulley 11 is connected with the second stirring and mixing device 19 through a bearing. The alkali feeding port 13 is positioned at the upper right of the alkali adjusting device 15; the second medicament adding port 16 is positioned at the upper left of the alkali adjusting device 15; the second temperature measuring port 14 is positioned in the middle of the right side of the alkali adjusting device; the second pH meter port 17 is positioned in the middle of the left side of the alkali adjusting device; the second liquid level meter port 18 is positioned below the second pH meter port 7; the second discharge hole 20 is located at the lower right of the alkali adjusting device.
The mixing device 24 is composed of a third feeding port 21, a third belt pulley 22, a third motor 23, a fourth feeding port 25, a fifth feeding port 26, a third stirring device 27 and a third discharging port 28. The third motor 23 is connected with the third stirring device 27 through a third belt pulley 22, and the third belt pulley 22 is connected with the third stirring device 27 through a bearing. The third feed port 21, the fourth feed port 25 and the fifth feed port 26 are respectively positioned on the left side of the device; the third outlet 28 is located at the lower right of the apparatus.
The crushing device consists of a ball milling tank 31 and a discharge port 30. All the mixed medicaments are placed in a ball milling tank 31 for crushing, collected by a fourth discharge port 30, dried and bagged.
Further, the first discharge port 10 of the acid adjusting device is connected with the third feed port 21 of the mixing device through a pipeline; the second discharge hole 20 of the alkali adjusting device is connected with the fifth feed hole 26 through a pipeline; the third discharge port 28 collects the mixed chemicals and places them in the ball mill tank 31.
Further, all the products are uniformly collected at a fourth discharge port 30 after being crushed, dried and bagged.
The utility model feeds one or more medicaments into the stirring and mixing device for stirring and mixing each time according to the actual production requirement;
the acid adjusting device modifies and stirs the medicament by adding a certain proportion of medicament and acid, and the modified medicament is conveyed to the mixing device through a discharge port and a pipeline;
the alkali adjusting device modifies and stirs the medicament by adding a certain proportion of medicament and alkali, and the modified medicament is conveyed to the mixing device through a discharge port and a pipeline;
the utility model can be directly added into the stirring and mixing device without modifying the medicament;
further, all the mixed medicaments are fully stirred and uniformly mixed in a mixing device, collected through a discharge port, introduced into a crushing device and placed in a ball milling tank for crushing treatment; all broken doses were dried and bagged.
The utility model discloses an useful part lies in:
(1) can simultaneously meet the requirement of rapid mixing and crushing of various medicaments.
(2) Acid modification or alkali modification can be simultaneously carried out according to requirements, and the components are uniformly collected, stirred and uniformly mixed.
(3) In each step of the processing unit, a stirring and mixing device or function is arranged, so that the medicaments are fully mixed.
Drawings
FIG. 1 is a schematic diagram of a multi-reagent hybrid manufacturing process flow.
In the figure: 1-a first belt pulley, 2-a first motor, 3-an acid feed port, 4-a first thermometer port, 5-an acid adjusting device, 6-a first medicament adding port, 7-a first pH meter port, 8-a first liquid level meter port, 9-a first stirring and mixing device, 10-a first discharge port, 11-a second belt pulley, 12-a second motor, 13-an alkali feed port, 14-a second thermometer port, 15-an alkali adjusting device, 16-a second medicament adding port, 17-a second pH meter port, 18-a second liquid level meter port, 19-a second stirring and mixing device, 20-a second discharge port, 21-a third feed port, 22-a third belt pulley, 23-a third motor, 24-a mixing device, 25-a fourth feed port, 26-a fifth feeding hole, 27-a third stirring device, 28-a third discharging hole, 29-a crushing device, 30-a fourth discharging hole and 31-a ball milling tank.
Detailed Description
The workflow of the present pharmaceutical composition will be further described with reference to specific examples.
Example 1
A multi-reagent mixing preparation process flow is characterized in that materials to be treated are iron-based minerals, apatite and bentonite, the iron-based minerals, the apatite and the bentonite are directly added into a stirring and mixing device in a dry powder mode according to a certain proportion, the iron-based minerals, the apatite and the bentonite are fully and uniformly mixed and then are added into a ball mill to be crushed, and the materials are dried and bagged after being fully crushed.
Example 2
A multi-reagent mixing preparation device is characterized in that materials to be treated are sodium polyacrylate loaded dolomite and a weakly crystalline iron mineral material-nano ferrihydrite, wherein the weakly crystalline iron mineral material-nano ferrihydrite needs to be subjected to alkali modification before being uniformly mixed. Firstly, adding a weak crystalline iron mineral material, namely nano ferrihydrite, into an alkali adjusting device to be fully mixed with alkali liquor, then adding a wet sample into a stirring and mixing device, and simultaneously adding sodium polyacrylate loaded dolomite into the stirring and mixing device directly as dry powder. After fully and uniformly mixed, the mixture is collected and placed in a ball milling tank for crushing treatment. And finally, drying and bagging.
Example 3
A multi-reagent mixing preparation device is provided, wherein the materials to be processed are ferro-manganese bimetallic oxide materials and modified clay mineral materials. Firstly, adding two metal solutions of iron and manganese into an acid regulating device, adding an acidic reagent for modification, fully stirring and mixing, and then adding into a stirring and mixing device. Simultaneously, throwing the modified clay mineral material into an alkali adjusting device according to production requirements, adding an alkaline reagent for modification, fully stirring and mixing, and then throwing into a stirring and mixing device. And after all the materials are fully stirred and mixed uniformly, putting the materials into a ball mill for full crushing, and finally drying and bagging.
Example 4
A multi-reagent mixing preparation device is characterized in that materials to be treated are magnesium oxide modified zero-valent iron, weak crystalline iron mineral materials, namely nano ferrihydrite and ferro-manganese double-metal oxide materials. Firstly, according to production requirements, respectively putting weak crystalline iron mineral materials, namely nano ferrihydrite and ferro-manganese double-metal oxide materials into an alkali adjusting device and an acid adjusting device. And after all the materials are fully and uniformly mixed, respectively putting the materials into a stirring and mixing device, and simultaneously putting the magnesium oxide modified zero-valent iron into the stirring and mixing device. After all the materials are fully stirred and mixed, uniformly collecting the materials to a ball mill for crushing. And finally, drying and bagging all the materials.

Claims (3)

1. A multi-drug mixing device is characterized by comprising an acid adjusting device, an alkali adjusting device, a stirring and mixing device and a crushing device;
the acid adjusting device consists of a first belt pulley, a first motor, an acid feeding port, a first thermometer port, a first medicament feeding port, a first pH meter port, a first liquid level meter port, a first stirring device and a first discharge port; the first motor is connected with the first stirring device through a first belt pulley, and the first belt pulley is connected with the first stirring device through a bearing; the acid feeding port is positioned at the right upper part of the acid adjusting device; the first medicament adding port is positioned at the upper left of the acid adjusting device; the first thermometer port is positioned in the middle of the right side of the acid adjusting device; the first pH meter port is positioned in the middle of the left side of the acid adjusting device; the first liquid level meter port is positioned below the first pH meter port; the first discharge hole is positioned at the right lower part of the acid regulating device;
the alkali adjusting device consists of a second belt pulley, a second motor, an alkali feeding port, a second thermometer port, a second medicament feeding port, a second pH meter port, a second liquid level meter port, a second stirring device and a second discharge port; the second motor is connected with the second stirring and mixing device through a second belt pulley, and the second belt pulley is connected with the second stirring and mixing device through a bearing; the alkali feeding port is positioned at the upper right part of the alkali adjusting device; the second medicament adding port is positioned at the upper left of the alkali adjusting device; the second thermometer port is positioned in the middle of the right side of the alkali adjusting device; the second pH meter port is positioned in the middle of the left side of the alkali adjusting device; the second liquid level meter port is positioned below the second pH meter port; the second discharge hole is positioned at the right lower part of the alkali adjusting device;
the mixing device consists of a third feeding hole, a third belt pulley, a third motor, a fourth feeding hole, a fifth feeding hole, a third stirring device and a third discharging hole; the third motor is connected with the third stirring device through a third belt pulley, and the third belt pulley is connected with the third stirring device through a bearing; the third feed port, the fourth feed port and the fifth feed port are respectively positioned on the left side of the device; the third discharge hole is positioned at the right lower part of the device;
the crushing device consists of a ball milling tank and a discharge port; all mixed medicaments are placed in a ball milling tank for crushing, collected by a fourth discharge hole, dried and bagged.
2. A multi-dose mixing apparatus according to claim 1, wherein the first outlet of the acid adjusting means is connected to the third inlet of the mixing means via a pipe; the second discharge hole of the alkali adjusting device is connected with the fifth feed inlet through a pipeline; the third discharge port collects the mixed medicament and places the mixed medicament in the ball milling tank.
3. A multi-dose mixing apparatus as claimed in claim 1, wherein all of the above products are crushed and then collected at a fourth outlet and dried for bagging.
CN202123003484.XU 2021-12-02 2021-12-02 Multi-medicine mixing equipment Active CN216825993U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202123003484.XU CN216825993U (en) 2021-12-02 2021-12-02 Multi-medicine mixing equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202123003484.XU CN216825993U (en) 2021-12-02 2021-12-02 Multi-medicine mixing equipment

Publications (1)

Publication Number Publication Date
CN216825993U true CN216825993U (en) 2022-06-28

Family

ID=82104759

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202123003484.XU Active CN216825993U (en) 2021-12-02 2021-12-02 Multi-medicine mixing equipment

Country Status (1)

Country Link
CN (1) CN216825993U (en)

Similar Documents

Publication Publication Date Title
Pietsch Agglomeration processes: phenomena, technologies, equipment
KR100680742B1 (en) A pellet compost manufacturing apparatus and method by using live stock excretions compost
CN102701171B (en) Production method of feed-grade granular calcium hydrogen phosphate III-type product
CN108853038A (en) A kind of paracetamol tablets and its preparation process
CN101508607B (en) Process for producing long-acting sustained-release complex fertilizer of urea sulfuric acid
CN216825993U (en) Multi-medicine mixing equipment
CN208771373U (en) A kind of double roller compaction granulator
CN112408343A (en) Processing system of low-grade ground phosphate rock pelletizing
CN207357101U (en) Bio-feritlizer granulation machine
CN201516335U (en) High-efficiency liquid mixing stirrer
CN107442021A (en) A kind of new type hot-melt adhesive mechanized production system
CN217550748U (en) Soil remediation equipment
CN208003881U (en) A kind of processing unit of industrial solid waste residue
CN207324554U (en) A kind of chemical fertilizer mixing mechanism
CN207478734U (en) A kind of feeding-distribution device of band premix
RU2556724C2 (en) Production line of combined feed additives and premixes
CN108582552A (en) A kind of intelligent weight measuring mixing machine for plastic manufacturing
CN209778681U (en) Automatic organic waste treatment system
CN210528806U (en) Deodorant adding device
CN211098800U (en) Agitating unit is used in leather auxiliary agent production convenient to ration is reinforced
CN207680428U (en) A kind of Horizontal feeds stirrer
CN206463680U (en) A kind of dust guard for processing feed addictive mixer
CN206103930U (en) Reation kettle for chemical production with reducing mechanism
CN212051224U (en) System for preparing soil conditioner
CN219334019U (en) Multistage homogenizing device for producing water-soluble fertilizer

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant