WO2022036855A1 - Mixing device supporting multi-point viscosity measurement - Google Patents

Mixing device supporting multi-point viscosity measurement Download PDF

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Publication number
WO2022036855A1
WO2022036855A1 PCT/CN2020/124177 CN2020124177W WO2022036855A1 WO 2022036855 A1 WO2022036855 A1 WO 2022036855A1 CN 2020124177 W CN2020124177 W CN 2020124177W WO 2022036855 A1 WO2022036855 A1 WO 2022036855A1
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WIPO (PCT)
Prior art keywords
pipe
cylinder cover
rotating
connecting pipe
branch pipe
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Application number
PCT/CN2020/124177
Other languages
French (fr)
Chinese (zh)
Inventor
赵伟东
李正国
Original Assignee
广东奥瑞特新能源设备科技有限公司
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Priority to CN202010844417.1 priority Critical
Priority to CN202010844417.1A priority patent/CN111871254A/en
Application filed by 广东奥瑞特新能源设备科技有限公司 filed Critical 广东奥瑞特新能源设备科技有限公司
Publication of WO2022036855A1 publication Critical patent/WO2022036855A1/en

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F27/00Mixers with rotary stirring devices in fixed receptacles; Kneaders
    • B01F27/60Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a horizontal or inclined axis
    • B01F27/70Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a horizontal or inclined axis with paddles, blades or arms
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F27/00Mixers with rotary stirring devices in fixed receptacles; Kneaders
    • B01F27/60Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a horizontal or inclined axis
    • B01F27/72Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a horizontal or inclined axis with helices or sections of helices
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F35/00Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
    • B01F35/20Measuring; Control or regulation
    • B01F35/21Measuring
    • B01F35/2136Viscosity
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J19/00Chemical, physical or physico-chemical processes in general; Their relevant apparatus
    • B01J19/0006Controlling or regulating processes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J19/00Chemical, physical or physico-chemical processes in general; Their relevant apparatus
    • B01J19/18Stationary reactors having moving elements inside
    • B01J19/20Stationary reactors having moving elements inside in the form of helices, e.g. screw reactors

Abstract

A mixing device supporting multi-point viscosity measurement comprises an inclined mixing barrel (300). A material feeding pipe (340) is provided at the higher end of the inclined mixing barrel (300), and a discharging pipe (360) is provided at the lower end of the inclined mixing barrel (300). A mixing structure (400) is provided in and passes through the mixing barrel (300). The mixing structure (400) comprises a rotary pipe (410). An electrical box (420) is mounted on an end portion of the rotary pipe (410) protruding from the mixing barrel (300). The rotary pipe (410) is driven by a driving motor (430). Multiple evenly spaced connecting pipe groups are provided on an outer side of the rotary pipe (410). Each connecting pipe group comprises two connecting pipes (440). The connecting pipe (440) and the rotary pipe (410) internally communicate with each other. A branch pipe (450) is provided on each connecting pipe (440). A first viscosity sensor (460) and a second viscosity sensor (470) are inserted in each branch pipe (450). Each first viscosity sensor (460) and second viscosity sensor (470) are connected to the electrical box (420) by means of electrically conductive wires. The electrically conductive wires are distributed along an inner wall of the rotary pipe (410). The electrical box (420) is wirelessly communicatively connected to a controller (200).

Description

一种带有多点位粘度检测的搅拌设备A stirring device with multi-point viscosity detection
技术领域technical field
本发明涉及搅拌设备领域,更具体的,涉及一种带有多点位粘度检测的搅拌设备。The invention relates to the field of stirring equipment, and more particularly, to a stirring equipment with multi-point viscosity detection.
背景技术Background technique
目前,在制作锂离子电池的过程,涂布面密度对电池电性能及一致性有重要的影响,而涂布工序面密度控制又与电池浆料粘度密切相关。At present, in the process of manufacturing lithium ion batteries, the coating areal density has an important influence on the electrical performance and consistency of the battery, and the control of the coating process areal density is closely related to the viscosity of the battery slurry.
在电池制造工艺流程中,涂布工序一般要求控制浆料粘度为8000-9000mPaIn the battery manufacturing process, the coating process generally requires the control of the slurry viscosity to be 8000-9000mPa •s•s ,但由于电池浆料沉降和分子间作用力,当浆料长时间放置过后,上层浆料和下层浆料粘度差距较大(, but due to battery slurry sedimentation and intermolecular forces, when the slurry is placed for a long time, the viscosity difference between the upper slurry and the lower slurry is large ( 上层6000mPaUpper layer 6000mPa •s•s 左右,下层14000-20000mPaLeft and right, the lower layer 14000-20000mPa •s)•s) ,此时输出的浆料粘度过高或者过低,不能满足涂布工序的需求,导致涂布面密度过大或者过小,影响电池性能。At this time, the viscosity of the output slurry is too high or too low to meet the requirements of the coating process, resulting in too high or too low coating surface density, which affects the performance of the battery.
发明内容SUMMARY OF THE INVENTION
为了克服现有技术的缺陷,本发明所要解决的技术问题在于提出一种带有多点位粘度检测的搅拌设备,其结构新颖,可对浆料进行粘度多点位的检测,根据检测情况而进行相应的搅动,防止浆料搅拌不均匀而导致粘度不符合要求的情况,保证输出符合要求的浆料,保证产品质量。In order to overcome the defects of the prior art, the technical problem to be solved by the present invention is to propose a stirring device with multi-point viscosity detection, which has a novel structure and can perform multi-point viscosity detection on the slurry. Corresponding stirring is carried out to prevent the uneven stirring of the slurry and the viscosity does not meet the requirements, to ensure the output of the slurry that meets the requirements, and to ensure the quality of the product.
为达此目的,本发明采用以下的技术方案:For this purpose, the present invention adopts following technical scheme:
本发明提供了一种带有多点位粘度检测的搅拌设备,包括机架,安装在所述机架上的控制器,倾斜架设于所述机架上的搅拌桶,所述搅拌桶包括筒体及分别安装于所述筒体两端的第一筒盖及第二筒盖,所述第一筒盖位于所述筒体倾斜较高一端,所述第一筒盖的顶部安装有投料管,所述投料管的端口安装有第一端盖,所述第二筒盖的底部安装有排出管,所述排出管的端口安装有第二端盖;所述搅拌桶内部穿设有搅拌结构,所述搅拌结构包转动管,所述转动管通过轴承架设于所述第一筒盖及第二筒盖之间,所述转动管的倾斜较高端突出于所述第一筒盖,且端部安装有电气盒,所述转动管与驱动电机通过链轮链条组件传动连接;所述转动管的外侧上设有多个连接管组,多个所述连接管组沿所述转动管的长度方向线性阵列分布,各所述连接管组包括两个连接管,所述连接管与所述转动管内部连通、且两所述连接管关于所述转动管的轴线对称设置,各所述连接管上均固定安装有支管,各所述支管远离所述转动管的端部嵌设安装有第一粘度传感器,所述支管靠近所述转动管的一端侧壁嵌设安装有第二粘度传感器,所述电气盒内部安装有控制电路板、储电池、无线传输模块,所述无线传输模块、所述储电池均与所述控制电路板电连接,各所述第一粘度传感器、所述第二粘度传感器与所述控制电路板通过导电线连接,所述导电线沿所述转动管内壁分布;所述电气盒经所述无线传输模块与所述控制器信号传输连接,所述驱动电机与所述控制器通过导线连接。The present invention provides a stirring device with multi-point viscosity detection, comprising a frame, a controller installed on the frame, and a mixing barrel tilted and erected on the frame, wherein the mixing barrel includes a barrel a cylinder body and a first cylinder cover and a second cylinder cover respectively installed at both ends of the cylinder body, the first cylinder cover is located at the inclined higher end of the cylinder body, and a feeding pipe is installed on the top of the first cylinder cover, A first end cover is installed at the port of the feeding pipe, a discharge pipe is installed at the bottom of the second cylinder cover, and a second end cover is installed at the port of the discharge pipe; a stirring structure is provided inside the mixing barrel, The stirring structure includes a rotating pipe, the rotating pipe is erected between the first cylinder cover and the second cylinder cover through a bearing, the inclined higher end of the rotating pipe protrudes from the first cylinder cover, and the end portion of the rotating pipe is An electrical box is installed, and the rotating pipe and the drive motor are connected through a sprocket chain assembly; a plurality of connecting pipe groups are arranged on the outside of the rotating pipe, and the plurality of connecting pipe groups are along the length direction of the rotating pipe Linear array distribution, each connecting pipe group includes two connecting pipes, the connecting pipes communicate with the inside of the rotating pipe, and the two connecting pipes are symmetrically arranged about the axis of the rotating pipe, and each connecting pipe is on the A branch pipe is fixedly installed, the end of each branch pipe away from the rotating pipe is embedded with a first viscosity sensor, and the side wall of one end of the branch pipe close to the rotating pipe is embedded with a second viscosity sensor. A control circuit board, a storage battery, and a wireless transmission module are installed inside the electrical box. The wireless transmission module and the storage battery are all electrically connected to the control circuit board. Each of the first viscosity sensor and the second viscosity sensor It is connected with the control circuit board through conductive lines, and the conductive lines are distributed along the inner wall of the rotating tube; the electrical box is connected with the controller for signal transmission through the wireless transmission module, and the drive motor is connected with the control connected by wires.
在本发明较佳的技术方案中,所述连接管为方管结构,所述支管与所述连接管形状相适配,所述支管与所述连接管插接配合;所述支管的各侧壁均设有第一螺纹孔,所述连接管对应所述第一螺纹孔开设有沉头孔,所述支管与所述连接管通过螺钉加固连接。In a preferred technical solution of the present invention, the connecting pipe is a square pipe structure, the branch pipe is adapted to the shape of the connecting pipe, and the branch pipe and the connecting pipe are inserted and matched; Each wall is provided with a first threaded hole, the connecting pipe is provided with a countersunk hole corresponding to the first threaded hole, and the branch pipe and the connecting pipe are reinforced and connected by screws.
在本发明较佳的技术方案中,所述支管的密封端端部、所述支管靠近所述转动管的端部侧壁均开设有第二螺纹孔,所述第一粘度传感器及所述第二粘度传感器分别与对应的第二螺纹孔螺纹连接配合,且通过防水胶布于连接处进行密封。In a preferred technical solution of the present invention, the sealed end of the branch pipe and the side wall of the end of the branch pipe close to the rotating pipe are provided with second threaded holes, and the first viscosity sensor and the second The two viscosity sensors are respectively threaded and matched with the corresponding second threaded holes, and are sealed at the joints with a waterproof tape.
在本发明较佳的技术方案中,各所述支管远离所述第二筒盖的侧壁上安装有导料条,所述导料条远离所述支管的壁面为弧形凸起面,所述导料条焊接固定于所述支管上。In a preferred technical solution of the present invention, a material guide strip is installed on the side wall of each branch pipe away from the second cylinder cover, and the wall surface of the material guide strip away from the branch pipe is an arc-shaped convex surface, so The material guide strip is welded and fixed on the branch pipe.
在本发明较佳的技术方案中,所述支管与所述连接管配合时,所述导料条靠近所述连接管的一端与所述连接管端面抵持。In a preferred technical solution of the present invention, when the branch pipe is matched with the connecting pipe, one end of the material guide bar close to the connecting pipe abuts against the end surface of the connecting pipe.
在本发明较佳的技术方案中,任意相邻两所述连接管组之间的所述转动管上固定设有螺旋搅拌叶。In a preferred technical solution of the present invention, a spiral stirring blade is fixed on the rotating pipe between any two adjacent connecting pipe groups.
在本发明较佳的技术方案中,所述筒体的两端外壁均设有螺纹,所述第一筒盖的内壁、所述第二筒盖的内壁均设有螺纹,所述第一筒盖及所述第二筒盖分别与所述筒体的两端螺纹连接配合。In a preferred technical solution of the present invention, the outer walls of both ends of the cylinder body are provided with threads, the inner wall of the first cylinder cover and the inner wall of the second cylinder cover are provided with threads, and the first cylinder cover is provided with threads. The cover and the second cylinder cover are respectively screwed and matched with both ends of the cylinder body.
在本发明较佳的技术方案中,突出于所述第一筒盖的所述转动管外部固定设有第一链轮,所述驱动电机安装在所述筒体的底部,所述驱动电机的输出轴上固定设有第二链轮,所述第二链轮与所述第一链轮之间通过链条传动连接。In a preferred technical solution of the present invention, a first sprocket is fixed on the outside of the rotating tube protruding from the first cylinder cover, the driving motor is installed on the bottom of the cylinder, and the driving motor is mounted on the bottom of the cylinder. A second sprocket is fixed on the output shaft, and the second sprocket and the first sprocket are connected by a chain drive.
在本发明较佳的技术方案中,所述控制器为PLCIn a preferred technical solution of the present invention, the controller is a PLC 控制器,且所述控制器上设有触摸显示屏。The controller is provided with a touch display screen.
本发明的有益效果为:The beneficial effects of the present invention are:
本发明提供的一种带有多点位粘度检测的搅拌设备,其结构新颖,搅拌结构的设置,可对内部浆料进行充分的搅动,加速物料的混合及反应;搅拌结构中的转动管、连接管、支管之间的连通配合,可方便在支管的外壁安装第一粘度传感器及第二粘度传感器,并且在管内进行导线的布置,配合电气盒的设置,可在搅拌结构转动的过程中也可对浆料进行多点位的粘度检测,并且通过无线传输模块与控制器进行信号传递,方便查看检测数据;整体结构的配合,可对浆料进行粘度多点位的检测,根据检测情况而进行相应的正向搅动或反向搅动,防止浆料搅拌不均匀而导致粘度不符合要求的情况,保证输出符合要求的浆料,提高产品质量。The invention provides a stirring device with multi-point viscosity detection, which has a novel structure, and the setting of the stirring structure can fully agitate the internal slurry and accelerate the mixing and reaction of the materials; the rotating pipe in the stirring structure, The communication and cooperation between the connecting pipe and the branch pipe can facilitate the installation of the first viscosity sensor and the second viscosity sensor on the outer wall of the branch pipe, and the arrangement of the wires in the pipe, and the setting of the electrical box can be used during the rotation of the stirring structure. It can conduct multi-point viscosity detection on the slurry, and transmit signals through the wireless transmission module and the controller, which is convenient to check the detection data; with the cooperation of the overall structure, it can conduct multi-point viscosity detection on the slurry, according to the detection situation. Corresponding forward stirring or reverse stirring is carried out to prevent the uneven stirring of the slurry and the viscosity does not meet the requirements, ensure the output of the slurry that meets the requirements, and improve the product quality.
附图说明Description of drawings
图1figure 1 是本发明的具体实施例中提供的一种带有多点位粘度检测的搅拌设备的结构示意图;It is a schematic structural diagram of a stirring device with multi-point viscosity detection provided in a specific embodiment of the present invention;
图2figure 2 是本发明的具体实施例中提供的搅拌结构的结构示意图;is the structural schematic diagram of the stirring structure provided in the specific embodiment of the present invention;
图3image 3 是本发明的具体实施例中提供的转动管、连接管及支管的配合结构示意图。It is a schematic diagram of the matching structure of the rotating pipe, the connecting pipe and the branch pipe provided in the specific embodiment of the present invention.
图中:In the picture:
100100 、机架;200, rack; 200 、控制器;300, controller; 300 、搅拌桶;310, mixing bucket; 310 、第一筒盖;320, the first cylinder cover; 320 、第二筒盖;330, the second cylinder cover; 330 、筒体;340, cylinder; 340 、投料管;350, feeding pipe; 350 、第一端盖;360, the first end cap; 360 、排出管;370, discharge pipe; 370 、第二端盖;400, the second end cap; 400 、搅拌结构;410, stirring structure; 410 、转动管;420, rotating tube; 420 、电气盒;421, electrical box; 421 、控制电路板;422, control circuit board; 422 、储电池;423, storage battery; 423 、无线传输模块;430, wireless transmission module; 430 、驱动电机;440, drive motor; 440 、连接管;450, connecting pipe; 450 、支管;460, branch pipe; 460 、第一粘度传感器;470, the first viscosity sensor; 470 、第二粘度传感器;480, the second viscosity sensor; 480 、导料条;490, guide strip; 490 、螺旋搅拌叶;510, spiral stirring blade; 510 、第一链轮;520, the first sprocket; 520 、第二链轮;530, the second sprocket; 530 、链条。, chain.
具体实施方式detailed description
下面结合附图并通过具体实施方式来进一步说明本发明的技术方案。The technical solutions of the present invention are further described below with reference to the accompanying drawings and through specific embodiments.
如图1Figure 1 至图3to Figure 3 所示,本发明的具体实施例中公开了一种带有多点位粘度检测的搅拌设备,包括机架100As shown, a specific embodiment of the present invention discloses a stirring device with multi-point viscosity detection, including a frame 100 ,安装在所述机架100, mounted on the rack 100 上的控制器200on the controller 200 ,倾斜架设于所述机架100, which is inclined and erected on the rack 100 上的搅拌桶300on the mixing bucket 300 ,所述搅拌桶300, the mixing tank 300 包括筒体330Including barrel 330 及分别安装于所述筒体330and are respectively installed on the cylinder 330 两端的第一筒盖310The first cylinder cover 310 at both ends 及第二筒盖320and the second cylinder cover 320 ,所述第一筒盖310, the first cylinder cover 310 位于所述筒体330located in the barrel 330 倾斜较高一端,所述第一筒盖310Tilting the higher end, the first cylinder cover 310 的顶部安装有投料管340The top of the feeding tube 340 is installed ,所述投料管340, the feeding pipe 340 的端口安装有第一端盖350The port is fitted with the first end cap 350 ,所述第二筒盖320, the second cylinder cover 320 的底部安装有排出管360The bottom of the discharge pipe 360 is installed ,所述排出管360, the discharge pipe 360 的端口安装有第二端盖370The port is fitted with a second end cap 370 ;所述搅拌桶300; The mixing barrel 300 内部穿设有搅拌结构400A stirring structure 400 is penetrated inside ,所述搅拌结构400, the stirring structure 400 包转动管410Package Rotary Tube 410 ,所述转动管410, the rotating tube 410 通过轴承架设于所述第一筒盖310Set up on the first cylinder cover 310 through a bearing 及第二筒盖320and the second cylinder cover 320 之间,所述转动管410between, the rotating tube 410 的倾斜较高端突出于所述第一筒盖310The inclined higher end protrudes from the first cylinder cover 310 ,且端部安装有电气盒420, and an electrical box 420 is installed at the end ,所述转动管410, the rotating tube 410 与驱动电机430with drive motor 430 通过链轮链条组件传动连接;所述转动管410Drive connection through sprocket chain assembly; the rotating tube 410 的外侧上设有多个连接管组,多个所述连接管组沿所述转动管410A plurality of connecting pipe groups are arranged on the outer side of the rotating pipe 410 的长度方向线性阵列分布,各所述连接管组包括两个连接管440distributed in a linear array in the length direction, each connecting pipe group includes two connecting pipes 440 ,所述连接管440, the connecting pipe 440 与所述转动管410with the rotating tube 410 内部连通、且两所述连接管440Internal communication, and the two connecting pipes 440 关于所述转动管410About the rotating tube 410 的轴线对称设置,各所述连接管440The axes are symmetrically arranged, and each of the connecting pipes 440 上均固定安装有支管450The branch pipes 450 are fixedly installed on the ,各所述支管450, each of the branch pipes 450 远离所述转动管410away from the rotating tube 410 的端部嵌设安装有第一粘度传感器460The end of the embedded and installed first viscosity sensor 460 ,所述支管450, the branch pipe 450 靠近所述转动管410close to the rotating tube 410 的一端侧壁嵌设安装有第二粘度传感器470A second viscosity sensor 470 is embedded in the sidewall of one end of the ,所述电气盒420, the electrical box 420 内部安装有控制电路板421Internally installed control circuit board 421 、储电池422, storage battery 422 、无线传输模块423, wireless transmission module 423 ,所述无线传输模块423, the wireless transmission module 423 、所述储电池422, the storage battery 422 均与所述控制电路板421Both with the control circuit board 421 电连接,各所述第一粘度传感器460Electrically connected, each of the first viscosity sensor 460 、所述第二粘度传感器470, the second viscosity sensor 470 与所述控制电路板421with the control circuit board 421 通过导电线连接,所述导电线沿所述转动管410Connected by conductive lines that run along the rotating tube 410 内壁分布;所述电气盒420Inner wall distribution; the electrical box 420 经所述无线传输模块423Via the wireless transmission module 423 与所述控制器200with the controller 200 信号传输连接,所述驱动电机430signal transmission connection, the drive motor 430 与所述控制器200with the controller 200 通过导线连接。Connect by wire.
上述的一种带有多点位粘度检测的搅拌设备,其结构新颖,搅拌结构400The above-mentioned stirring equipment with multi-point viscosity detection has a novel structure, and the stirring structure is 400 的设置,可对搅拌桶300The setting can be used for mixing tank 300 内部浆料进行充分的搅动,加速物料的混合及反应;搅拌结构400The internal slurry is fully stirred to accelerate the mixing and reaction of materials; stirring structure 400 中的转动管410Rotary tube in 410 、连接管440, connecting pipe 440 、支管450, branch pipe 450 之间的连通配合,可方便在支管450The communication fit between the 450 的外壁安装第一粘度传感器460The outer wall mounts the first viscosity sensor 460 及第二粘度传感器470and the second viscosity sensor 470 ,并且在管内进行导线的布置,配合电气盒420, and arrange the wires in the tube, with the electrical box 420 的设置,可在搅拌结构400The settings are available in the Stirring Structure 400 转动的过程中也可对浆料进行多点位的粘度检测,并且通过无线传输模块423During the rotation process, the viscosity of the slurry can also be detected at multiple points, and through the wireless transmission module 423 与控制器200with controller 200 进行信号传递,方便查看检测数据;整体结构的配合,可对浆料进行粘度多点位的检测,根据检测情况而进行相应的正向搅动或反向搅动,防止浆料搅拌不均匀而导致粘度不符合要求的情况,保证输出符合要求的浆料,提高产品质量;,其中无线传输模块为WiFiCarrying out signal transmission, it is convenient to check the detection data; with the cooperation of the overall structure, the viscosity of the slurry can be detected at multiple points, and the corresponding forward or reverse agitation can be performed according to the detection situation to prevent the slurry from being unevenly stirred and causing viscosity. If it does not meet the requirements, ensure the output of the slurry that meets the requirements and improve the product quality; wherein the wireless transmission module is WiFi 模块或蓝牙模块,均是市面上常见的无线信号传送元件。Modules or Bluetooth modules are common wireless signal transmission components on the market.
进一步地,所述连接管440Further, the connecting pipe 440 为方管结构,所述支管450It is a square tube structure, the branch pipe 450 与所述连接管440with the connecting pipe 440 形状相适配,所述支管450shape to fit, the branch pipe 450 与所述连接管440with the connecting pipe 440 插接配合;所述支管450Plug fit; the branch pipe 450 的各侧壁均设有第一螺纹孔,所述连接管440Each side wall of the 对应所述第一螺纹孔开设有沉头孔,所述支管450A countersunk hole is provided corresponding to the first threaded hole, and the branch pipe 450 与所述连接管440with the connecting pipe 440 通过螺钉加固连接;该结构设计方便支管450The connection is reinforced by screws; the structure is designed to facilitate the branch pipe 450 与连接管440with connecting pipe 440 的配合拆装,便于生产组装或后续的检修拆装。The matching and disassembly is convenient for production assembly or subsequent maintenance and disassembly.
进一步地,所述支管450Further, the branch pipe 450 的密封端端部、所述支管450The sealed end of the end, the branch pipe 450 靠近所述转动管410close to the rotating tube 410 的端部侧壁均开设有第二螺纹孔,所述第一粘度传感器460The side walls of the end parts are provided with second threaded holes, the first viscosity sensor 及所述第二粘度传感器470and the second viscosity sensor 470 分别与对应的第二螺纹孔螺纹连接配合,且通过防水胶布于连接处进行密封;该结构设计可方便第一粘度传感器460They are screwed and matched with the corresponding second threaded holes respectively, and are sealed at the joints with waterproof tape; this structural design can facilitate the first viscosity sensor 460 及第二粘度传感器470and the second viscosity sensor 470 的拆装,并且可防止液体经第二螺纹孔进入支管450disassembly and assembly, and can prevent liquid from entering the branch pipe 450 through the second threaded hole 内部。internal.
进一步地,各所述支管450Further, each of the branch pipes 450 远离所述第二筒盖320away from the second cartridge cover 320 的侧壁上安装有导料条480A guide bar 480 is installed on the side wall of the ,所述导料条480, the guide strip 480 远离所述支管450away from the branch 450 的壁面为弧形凸起面,所述导料条480The wall surface is an arc-shaped convex surface, the guide strip 480 焊接固定于所述支管450Welded and fixed to the branch pipe 450 上;因支管450on; due to branch pipe 450 为方管结构,导料条480For the square tube structure, the guide bar 480 的设置可将支管450The setup can be branched to 450 远离第二筒盖320away from the second cylinder cover 320 的壁面弧度化,方便后续浆液物料的排放;并且导料条480The wall surface is curved to facilitate the discharge of subsequent slurry materials; and the guide bar 480 还可起到方向引导的效果,方便支管450It can also play the effect of direction guidance, which is convenient for branch pipes 450 的对位安装。alignment installation.
进一步地,所述支管450Further, the branch pipe 450 与所述连接管440with the connecting pipe 440 配合时,所述导料条480When mated, the guide strip 480 靠近所述连接管440near the connecting pipe 440 的一端与所述连接管440one end with the connecting pipe 440 端面抵持;该结构设计可进一步方便支管450End face resistance; this structural design can further facilitate branch pipe 450 安装时的对位,导料条480Alignment during installation, guide bar 480 抵持连接管440Against the connecting pipe 440 时,第二螺纹孔与沉头孔位置对应。, the second threaded hole corresponds to the position of the countersunk hole.
进一步地,任意相邻两所述连接管组之间的所述转动管410Further, the rotating pipe 410 between any two adjacent connecting pipe groups 上固定设有螺旋搅拌叶490There is a spiral stirring blade 490 fixed on the upper ;螺旋搅拌叶490; Spiral stirring blade 490 的设计一方面可加速物料的搅拌,另一方面则可带动浆液往第一筒盖310On the one hand, the design can accelerate the stirring of materials, and on the other hand, it can drive the slurry to the first cylinder cover 310 或第二筒盖320or second cylinder cover 320 的方向移动,配合第一粘度传感器460move in the direction of the first viscosity sensor 460 、第二粘度传感器470, the second viscosity sensor 470 ,可协调驱动电机430, can coordinate the drive motor 430 进行正转或反转,推动浆料往粘度较低的方向移动。Perform forward or reverse rotation to push the slurry to move in the direction of lower viscosity.
进一步地,所述筒体330Further, the barrel 330 的两端外壁均设有螺纹,所述第一筒盖310Both ends of the outer wall are provided with threads, the first cylinder cover 310 的内壁、所述第二筒盖320The inner wall of the second cylinder cover 320 的内壁均设有螺纹,所述第一筒盖310The inner wall is provided with threads, the first cylinder cover 310 及所述第二筒盖320and the second cylinder cover 320 分别与所述筒体330respectively with the cylinder 330 的两端螺纹连接配合;该结构设计可方便搅拌桶300The two ends of the screw are connected and matched; 的生产及组装。production and assembly.
进一步地,突出于所述第一筒盖310Further, protruding from the first cylinder cover 310 的所述转动管外部固定设有第一链轮510A first sprocket 510 is fixed on the outside of the rotating tube ,所述驱动电机430, the drive motor 430 安装在所述筒体330mounted on the barrel 330 的底部,所述驱动电机430the bottom of the drive motor 430 的输出轴上固定设有第二链轮520A second sprocket 520 is fixed on the output shaft of ,所述第二链轮520, the second sprocket 520 与所述第一链轮510with the first sprocket 510 之间通过链条530Between through the chain 530 传动连接。drive connection.
进一步地,所述控制器200Further, the controller 200 为PLCfor PLC 控制器,且所述控制器200controller, and the controller 200 上设有触摸显示屏。There is a touch screen on the display.
本发明是通过优选实施例进行描述的,本领域技术人员知悉,在不脱离本发明的精神和范围的情况下,可以对这些特征和实施例进行各种改变或等效替换。本发明不受此处所公开的具体实施例的限制,其他落入本申请的权利要求内的实施例都属于本发明保护的范围 The present invention has been described in terms of preferred embodiments, and those skilled in the art will appreciate that various changes or equivalent substitutions may be made to these features and embodiments without departing from the spirit and scope of the present invention. The present invention is not limited by the specific embodiments disclosed herein, and other embodiments falling within the claims of the present application all belong to the protection scope of the present invention .

Claims (9)

  1. 一种带有多点位粘度检测的搅拌设备,其特征在于:包括机架(100),安装在所述机架(100)上的控制器(200),倾斜架设于所述机架(100)上的搅拌桶(300),所述搅拌桶(300)包括筒体(330)及分别安装于所述筒体(330)两端的第一筒盖(310)及第二筒盖(320),所述第一筒盖(310)位于所述筒体(330)倾斜较高一端,所述第一筒盖(310)的顶部安装有投料管(340),所述投料管(340)的端口安装有第一端盖(350),所述第二筒盖(320)的底部安装有排出管(360),所述排出管(360)的端口安装有第二端盖(370);所述搅拌桶(300)内部穿设有搅拌结构(400),所述搅拌结构(400)包转动管(410),所述转动管(410)通过轴承架设于所述第一筒盖(310)及第二筒盖(320)之间,所述转动管(410)的倾斜较高端突出于所述第一筒盖(310),且端部安装有电气盒(420),所述转动管(410)与驱动电机(430)通过链轮链条组件传动连接;所述转动管(410)的外侧上设有多个连接管组,多个所述连接管组沿所述转动管(410)的长度方向线性阵列分布,各所述连接管组包括两个连接管(440),所述连接管(440)与所述转动管(410)内部连通、且两所述连接管(440)关于所述转动管(410)的轴线对称设置,各所述连接管(440)上均固定安装有支管(450),各所述支管(450)远离所述转动管(410)的端部嵌设安装有第一粘度传感器(460),所述支管(450)靠近所述转动管(410)的一端侧壁嵌设安装有第二粘度传感器(470),所述电气盒(420)内部安装有控制电路板(421)、储电池(422)、无线传输模块(423),所述无线传输模块(423)、所述储电池(422)均与所述控制电路板(421)电连接,各所述第一粘度传感器(460)、所述第二粘度传感器(470)与所述控制电路板(421)通过导电线连接,所述导电线沿所述转动管(410)内壁分布;所述电气盒(420)经所述无线传输模块(423)与所述控制器(200)信号传输连接,所述驱动电机(430)与所述控制器(200)通过导线连接。A stirring device with multi-point viscosity detection, characterized in that it comprises a frame (100), a controller (200) mounted on the frame (100), and inclinedly erected on the frame (100). The mixing barrel (300) on the , the first cylinder cover (310) is located at the inclined higher end of the cylinder body (330), and a feeding tube (340) is installed on the top of the first cylinder cover (310). A first end cover (350) is installed on the port, a discharge pipe (360) is installed at the bottom of the second cylinder cover (320), and a second end cover (370) is installed at the port of the discharge pipe (360); The stirring barrel (300) is provided with a stirring structure (400) inside, and the stirring structure (400) includes a rotating pipe (410), and the rotating pipe (410) is erected on the first cylinder cover (310) through a bearing. and the second cylinder cover (320), the inclined higher end of the rotating pipe (410) protrudes from the first cylinder cover (310), and an electrical box (420) is installed at the end, and the rotating pipe (410) 410) is connected with the drive motor (430) through a sprocket chain assembly; a plurality of connecting pipe groups are arranged on the outside of the rotating pipe (410), Distributed in a linear array in the length direction, each connecting pipe group includes two connecting pipes (440), the connecting pipes (440) communicate with the interior of the rotating pipe (410), and the two connecting pipes (440) are related to all the connecting pipes (440). The axes of the rotating pipes (410) are symmetrically arranged, and branch pipes (450) are fixedly installed on each of the connecting pipes (440), and the ends of the branch pipes (450) away from the rotating pipes (410) are embedded and installed. There is a first viscosity sensor (460), a second viscosity sensor (470) is embedded in the side wall of one end of the branch pipe (450) close to the rotating pipe (410), and a control system is installed inside the electrical box (420). A circuit board (421), a storage battery (422), and a wireless transmission module (423), the wireless transmission module (423) and the storage battery (422) are all electrically connected to the control circuit board (421), and each The first viscosity sensor (460), the second viscosity sensor (470) and the control circuit board (421) are connected by conductive wires, and the conductive wires are distributed along the inner wall of the rotating tube (410); the electrical The box (420) is connected with the controller (200) for signal transmission via the wireless transmission module (423), and the drive motor (430) is connected with the controller (200) by wires.
  2. 根据权利要求1所述的一种带有多点位粘度检测的搅拌设备,其特征在于:所述连接管(440)为方管结构,所述支管(450)与所述连接管(440)形状相适配,所述支管(450)与所述连接管(440)插接配合;所述支管(450)的各侧壁均设有第一螺纹孔,所述连接管(440)对应所述第一螺纹孔开设有沉头孔,所述支管(450)与所述连接管(440)通过螺钉加固连接。A stirring device with multi-point viscosity detection according to claim 1, characterized in that: the connecting pipe (440) is a square pipe structure, and the branch pipe (450) and the connecting pipe (440) The shape of the branch pipe (450) is matched with the connecting pipe (440); each side wall of the branch pipe (450) is provided with a first threaded hole, and the connecting pipe (440) corresponds to the The first threaded hole is provided with a countersunk hole, and the branch pipe (450) and the connecting pipe (440) are reinforced and connected by screws.
  3. 根据权利要求1所述的一种带有多点位粘度检测的搅拌设备,其特征在于:所述支管(450)的密封端端部、所述支管(450)靠近所述转动管(410)的端部侧壁均开设有第二螺纹孔,所述第一粘度传感器(460)及所述第二粘度传感器(470)分别与对应的第二螺纹孔螺纹连接配合,且通过防水胶布于连接处进行密封。The stirring device with multi-point viscosity detection according to claim 1, characterized in that: the sealed end of the branch pipe (450), the branch pipe (450) is close to the rotating pipe (410) The side walls of the end parts of the battery are all provided with second threaded holes, the first viscosity sensor (460) and the second viscosity sensor (470) are screwed and matched with the corresponding second threaded holes respectively, and are connected by waterproof tape. sealed at the place.
  4. 根据权利要求1所述的一种带有多点位粘度检测的搅拌设备,其特征在于:各所述支管(450)远离所述第二筒盖(320)的侧壁上安装有导料条(480),所述导料条(480)远离所述支管(450)的壁面为弧形凸起面,所述导料条(480)焊接固定于所述支管(450)上。The stirring device with multi-point viscosity detection according to claim 1, characterized in that: a material guide bar is installed on the side wall of each branch pipe (450) away from the second cylinder cover (320). (480), the wall surface of the material guide strip (480) away from the branch pipe (450) is an arc-shaped convex surface, and the material guide strip (480) is welded and fixed on the branch pipe (450).
  5. 根据权利要求4所述的一种带有多点位粘度检测的搅拌设备,其特征在于:所述支管(450)与所述连接管(440)配合时,所述导料条(480)靠近所述连接管(440)的一端与所述连接管(440)端面抵持。The stirring device with multi-point viscosity detection according to claim 4, characterized in that: when the branch pipe (450) is matched with the connecting pipe (440), the material guide bar (480) is close to One end of the connecting pipe (440) abuts against the end surface of the connecting pipe (440).
  6. 根据权利要求1 所述的一种带有多点位粘度检测的搅拌设备,其特征在于:任意相邻两所述连接管组之间的所述转动管(410 )上固定设有螺旋搅拌叶(490 A stirring device with multi-point viscosity detection according to claim 1 , characterized in that: a spiral stirring blade is fixed on the rotating pipe (410) between any two adjacent connecting pipe groups (490 ) .
  7. 根据权利要求1所述的一种带有多点位粘度检测的搅拌设备,其特征在于:所述筒体(330)的两端外壁均设有螺纹,所述第一筒盖(310)的内壁、所述第二筒盖(320)的内壁均设有螺纹,所述第一筒盖(310)及所述第二筒盖(320)分别与所述筒体(330)的两端螺纹连接配合。The stirring device with multi-point viscosity detection according to claim 1, characterized in that: the outer walls of both ends of the cylinder body (330) are provided with threads, and the first cylinder cover (310) has a screw thread. The inner wall and the inner wall of the second cylinder cover (320) are provided with threads, and the first cylinder cover (310) and the second cylinder cover (320) are respectively threaded with two ends of the cylinder body (330). Connection mate.
  8. 根据权利要求1所述的一种带有多点位粘度检测的搅拌设备,其特征在于:突出于所述第一筒盖(310)的所述转动管外部固定设有第一链轮(510),所述驱动电机(430)安装在所述筒体(330)的底部,所述驱动电机(430)的输出轴上固定设有第二链轮(520),所述第二链轮(520)与所述第一链轮(510)之间通过链条(530)传动连接。A stirring device with multi-point viscosity detection according to claim 1, characterized in that: a first sprocket (510) is fixed outside the rotating tube protruding from the first cylinder cover (310). ), the drive motor (430) is installed at the bottom of the cylinder (330), the output shaft of the drive motor (430) is fixedly provided with a second sprocket (520), the second sprocket ( 520) and the first sprocket (510) are connected by a chain (530).
  9. 根据权利要求1所述的一种带有多点位粘度检测的搅拌设备,其特征在于:所述控制器(200)为PLC控制器,且所述控制器(200)上设有触摸显示屏。The stirring device with multi-point viscosity detection according to claim 1, characterized in that: the controller (200) is a PLC controller, and the controller (200) is provided with a touch display screen .
PCT/CN2020/124177 2020-08-20 2020-10-27 Mixing device supporting multi-point viscosity measurement WO2022036855A1 (en)

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Citations (6)

* Cited by examiner, † Cited by third party
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JP2008212888A (en) * 2007-03-07 2008-09-18 Kyc Machine Industry Co Ltd Double-shaft mixer for kneading viscous fluid
US20140321232A1 (en) * 2013-04-26 2014-10-30 Buss-Sms-Canzler Gmbh Double shaft reactor/mixer and system including an end cap for a reactor/mixer and a discharge screw connector block
CN205412787U (en) * 2015-12-10 2016-08-03 天津冰利蓄冷科技有限公司 Intelligent cold -storage agent manufacture equipment
CN108079821A (en) * 2017-12-19 2018-05-29 闵卫 A kind of slurry stirring device for lithium battery production
CN208032423U (en) * 2018-02-07 2018-11-02 上海加美实业有限公司 A kind of Lubricating oil mixing device
CN208340584U (en) * 2018-04-27 2019-01-08 深圳市新泰盈电子材料有限公司 A kind of viscosity regulating device of UV glue

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2008212888A (en) * 2007-03-07 2008-09-18 Kyc Machine Industry Co Ltd Double-shaft mixer for kneading viscous fluid
US20140321232A1 (en) * 2013-04-26 2014-10-30 Buss-Sms-Canzler Gmbh Double shaft reactor/mixer and system including an end cap for a reactor/mixer and a discharge screw connector block
CN205412787U (en) * 2015-12-10 2016-08-03 天津冰利蓄冷科技有限公司 Intelligent cold -storage agent manufacture equipment
CN108079821A (en) * 2017-12-19 2018-05-29 闵卫 A kind of slurry stirring device for lithium battery production
CN208032423U (en) * 2018-02-07 2018-11-02 上海加美实业有限公司 A kind of Lubricating oil mixing device
CN208340584U (en) * 2018-04-27 2019-01-08 深圳市新泰盈电子材料有限公司 A kind of viscosity regulating device of UV glue

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