CN108167281A - A kind of accessible guidance method of drop based on porous water absorbent fiber - Google Patents

Abstract

Translated fromChinese

本发明公开了一种基于多孔吸湿纤维的液滴无障碍导引方法，采用多孔纤维材料制作导引轨道，多孔纤维材料制成的轨道放置于吸湿饱和水溶液内，静置，使多孔纤维材料完全被溶液浸润，取出多孔纤维材料并烘干；将烘干的多孔纤维弯曲成预定形状后固定在待导引液滴的特定位置处。导引轨道的材料由于吸湿饱和水溶液处理可吸收空气中的水分子，使多孔纤维材料表面长久存在一层厚度为微米级尺度的水膜，使导引轨道的有效时间得以延长。当待导引液滴接触到多孔纤维表面的水膜后，产生强烈的分子间吸引力，使得液滴被牢牢束缚在多孔纤维上，保证液滴不脱轨的空间角度范围大，有效地扩大液滴的可导引场合；且操作便捷、方便推广使用。

The invention discloses an obstacle-free guiding method for liquid droplets based on porous moisture-absorbing fibers. Porous fiber materials are used to make guide rails. After being soaked by the solution, the porous fiber material is taken out and dried; the dried porous fiber is bent into a predetermined shape and fixed at a specific position to guide the droplet. The material of the guide track can absorb water molecules in the air due to the treatment of the hygroscopic saturated aqueous solution, so that a layer of water film with a thickness of micron scale exists on the surface of the porous fiber material for a long time, so that the effective time of the guide track can be extended. When the droplet to be guided touches the water film on the surface of the porous fiber, a strong intermolecular attraction force is generated, so that the droplet is firmly bound on the porous fiber, and the spatial angle range to ensure that the droplet does not derail is large, effectively expanding The place where the liquid droplets can be guided; and the operation is convenient and convenient for popularization and use.

Description

Translated fromChinese

一种基于多孔吸湿纤维的液滴无障碍导引方法A barrier-free guidance method for liquid droplets based on porous hygroscopic fibers

技术领域technical field

本发明涉及液滴行为控制领域，具体地说，涉及一种利用多孔吸湿纤维表面的稳定水膜层实现液滴无障碍定向导引的方法。The invention relates to the field of droplet behavior control, in particular to a method for realizing unobstructed orientation and guidance of droplets by using a stable water film layer on the surface of porous moisture-absorbing fibers.

背景技术Background technique

液滴行为控制，是对液滴的性质或者与液滴接触的表面的性质加以改造，使得液滴可以按照预定的轨道运动的研究。采用液滴行为控制方法，对液滴的运动路径加以控制，可以解决一系列工程实际问题；例如:为解决质子交换膜燃料电池促排水问题提供全新思路，为混合溶液的分离提供全新方法等。Droplet behavior control is the study of modifying the properties of the droplet or the surface in contact with the droplet so that the droplet can move according to a predetermined trajectory. Using the droplet behavior control method to control the movement path of the droplet can solve a series of practical engineering problems; for example, it can provide a new idea for solving the problem of proton exchange membrane fuel cell drainage, and provide a new method for the separation of mixed solutions, etc.

现有的液滴控制方法主要集中在通过电磁场实现对磁流体的控制，在一般液滴的运动控制方面，可实现对液滴小距离的导引。发明专利CN 104345140 A公开了“一种磁流体控制装置及其控制方法”，该装置无法实现对一般液滴进行控制；在专利CN 105833814 A“一种液滴自驱动式微反应器”中主要针对于微反应系统，该装置操作复杂，而且可导引距离有限；专利CN 1588090 A涉及“一种基于表面张力的低压微液滴控制器件”，该微液滴控制器件针对于微流体，且控制条件复杂；在发明专利CN 106053869 A中涉及“一种基于壁面润湿调控的液滴无质量损失的导引方法”，该方法需要液滴导引的环境洁净无较大灰尘。The existing droplet control methods mainly focus on the control of the magnetic fluid through the electromagnetic field. In terms of the motion control of the general droplet, it can guide the droplet at a small distance. Invention patent CN 104345140 A discloses "a magnetic fluid control device and its control method", which cannot control ordinary liquid droplets; in the patent CN 105833814 A "a self-driven microreactor for liquid droplets", it mainly For the micro-reaction system, the operation of the device is complicated, and the guiding distance is limited; the patent CN 1588090 A relates to "a low-pressure micro-droplet control device based on surface tension", which is aimed at micro-fluid, and controls The conditions are complex; in the invention patent CN 106053869 A, it is related to "a guiding method for droplet without mass loss based on wall surface wetting control", which requires the environment for droplet guidance to be clean and free of large dust.

现有的技术文献中给液滴的行为控制提供了很多非常有价值的方法，但也存在不足:如，对液滴性质要求有局限性；部分导引方法的控制系统复杂，不易操作和推广；导引方法对环境要求高。The existing technical literature provides many very valuable methods for the behavior control of droplets, but there are also deficiencies: for example, there are limitations in the requirements for the properties of droplets; the control system of some guidance methods is complicated, and it is not easy to operate and promote ; The guidance method has high requirements on the environment.

发明内容Contents of the invention

为了避免现有技术存在的不足，本发明提出一种基于多孔吸湿纤维的液滴无障碍导引方法。In order to avoid the deficiencies in the prior art, the present invention proposes a barrier-free guiding method for liquid droplets based on porous hygroscopic fibers.

本发明解决其技术问题所采用的技术方案是:基于多孔吸湿纤维的液滴无障碍导引方法，其特征在于包括以下步骤:The technical solution adopted by the present invention to solve the technical problems is: a droplet barrier-free guiding method based on porous moisture-absorbing fibers, which is characterized in that it comprises the following steps:

步骤1.对材料待处理表面进行清洗，待处理表面为任意形面；Step 1. Clean the surface of the material to be treated, and the surface to be treated is any shape;

步骤2.选择多孔纤维材料,并在多孔纤维材料上制成所需轨道路径；Step 2. select the porous fiber material, and make the required track path on the porous fiber material;

步骤3.将高纯度吸湿剂溶解水中,制成吸湿饱和水溶液；Step 3. Dissolving the high-purity hygroscopic agent in water to make a hygroscopic saturated aqueous solution;

步骤4.将多孔纤维材料制成的轨道放置于吸湿饱和水溶液内，静置6h，使多孔纤维材料完全被溶液浸润，取出多孔纤维材料，烘干；Step 4. Place the track made of the porous fiber material in a moisture-absorbing saturated aqueous solution, and let it stand for 6 hours, so that the porous fiber material is completely infiltrated by the solution, take out the porous fiber material, and dry;

步骤5.将轨道路径的多孔纤维材料固定在步骤1所处理的表面上，完成吸湿材料的水膜导引制作；Step 5. fixing the porous fiber material of the orbital path on the surface treated in step 1, and completing the water film guiding production of the hygroscopic material;

步骤6.在步骤5的轨道上添加液滴，并调节液滴轨道所在的平面与水平面的角度β，β角的取值范围为0～180°；施加外力，调节外力大小使液滴沿表面上的预定导引轨道匀速运动，实现任意方向的导引。Step 6. Add droplets on the track of step 5, and adjust the angle β between the plane where the drop track is located and the horizontal plane. The predetermined guide track on the track moves at a constant speed to achieve guidance in any direction.

有益效果Beneficial effect

本发明提出的一种基于多孔吸湿纤维的液滴无障碍导引方法，采用多孔纤维材料制作导引轨道，多孔纤维材料制成的轨道放置于吸湿饱和水溶液内，静置，使多孔纤维材料完全被溶液浸润，取出多孔纤维材料并烘干；将烘干的多孔纤维弯曲成预定形状后固定在待导引液滴的特定位置处。导引轨道的材料由于吸湿饱和水溶液处理可吸收空气中的水分子，使多孔纤维材料表面长久存在一层厚度为微米级尺度的水膜，使导引轨道的有效时间得以延长。当待导引液滴接触到多孔纤维表面的水膜后，产生强烈的分子间吸引力，使得液滴被牢牢束缚在多孔纤维上，保证液滴不脱轨的空间角度范围大，有效地扩大液滴的可导引场合；且操作便捷、方便推广使用。A barrier-free guiding method for droplets based on porous moisture-absorbing fibers proposed by the present invention uses porous fiber materials to make guide rails, and the rails made of porous fiber materials are placed in a moisture-absorbing saturated aqueous solution and left standing to make the porous fiber materials completely After being soaked by the solution, the porous fiber material is taken out and dried; the dried porous fiber is bent into a predetermined shape and fixed at a specific position to guide the droplet. The material of the guide track can absorb water molecules in the air due to the treatment of the hygroscopic saturated aqueous solution, so that a layer of water film with a thickness of micron scale exists on the surface of the porous fiber material for a long time, so that the effective time of the guide track can be extended. When the droplet to be guided touches the water film on the surface of the porous fiber, a strong intermolecular attraction force is generated, so that the droplet is firmly bound on the porous fiber, and the spatial angle range to ensure that the droplet does not derail is large, effectively expanding The place where the liquid droplets can be guided; and the operation is convenient and convenient for popularization and use.

本发明液滴无障碍导引方法对液滴导引表面的形状及粗糙度无特殊要求，可满足任何形状、宽度以及角度的需求。导引线的导引作用明显，导引线所形成的形状可根据需要改变。The barrier-free guidance method for droplets of the present invention has no special requirements on the shape and roughness of the droplet guiding surface, and can meet the requirements of any shape, width and angle. The guiding function of the guiding wire is obvious, and the shape formed by the guiding wire can be changed as required.

附图说明Description of drawings

下面结合附图和实施方式对本发明一种基于多孔吸湿纤维的液滴无障碍导引方法作进一步详细说明。A barrier-free guiding method for liquid droplets based on porous hygroscopic fibers of the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments.

图1为在二维平面内液滴在导引轨道上运动示意图。Figure 1 is a schematic diagram of the movement of droplets on the guide track in a two-dimensional plane.

图2为在三维空间内液滴在导引轨道上运动示意图。Fig. 2 is a schematic diagram of the movement of liquid droplets on the guide track in three-dimensional space.

图中:In the picture:

1.水滴 2.碳纸 3.导引线 4.甘油溶液滴 5.圆锥体1. Water drop 2. Carbon paper 3. Guide wire 4. Glycerol solution drop 5. Cone

β液滴导引线所在的平面与水平面的夹角Angle between the plane where the β droplet guide line is located and the horizontal plane

具体实施方式Detailed ways

本实施例是一种基于多孔吸湿纤维的液滴无障碍导引方法。This embodiment is a barrier-free guiding method for liquid droplets based on porous hygroscopic fibers.

溶解度相似相溶原理指出，结构相似的物质相互之间易于混溶，结构差异较大的物质难溶。物质的溶解是分子间的作用力，液体内部的分子间作用力决定液体之间溶解度的大小，所以，同一种液体之间绝对相互溶解，意味着溶液内部的分子间的吸引力相较于两种不同溶液绝对最大。所以用水膜导引液滴是较理想的导引方法。The principle of solubility like dissolves like states that substances with similar structures are easily miscible with each other, while substances with large structural differences are insoluble. The dissolution of a substance is an intermolecular force, and the intermolecular force in a liquid determines the solubility between liquids. Therefore, the absolute mutual dissolution of the same liquid means that the intermolecular attraction in a solution is stronger than that of two Absolute maximum for different solutions. Therefore, guiding droplets with water film is an ideal guiding method.

本实施例中，通过将多孔纤维材料在吸湿剂饱和溶液中进行浸泡，浸泡后的多孔纤维材料内部会充满饱和稀释溶液，然后将其取出烘干；将烘干的多孔纤维弯曲成预定形状后固定至待导引液滴的特定位置处。由于吸湿剂的吸湿作用，多孔纤维材料表面会从空气中吸湿水分，一直保持住一层微米级尺度的水膜层。当待导引液滴接触到多孔纤维表面的水膜后，会产生强烈的分子间吸引力，使得液滴被牢牢束缚在多孔纤维上。即使受到其它外力作用，也只能沿多孔纤维方向运动，展示出良好的液滴导引效果。利用多孔纤维的柔软性，可将其在空间上弯折成任意三维形状。因此，利用水膜和液滴之间的强束缚力，既能实现液滴在壁面上的导引，还可以实现液滴在三维空间上的导引。另外，由于吸湿剂出色的吸湿能力，可以保证水膜长久地存在于多孔纤维材料上，故该导引方法可长时间有效。但由于该导引方法本质是液滴的分子间作用力，故可导引的液滴类型仅限于与水的表面张力系数相近的溶液的液滴，水的表面张力系数为0.0732N/m。In this embodiment, by soaking the porous fiber material in the saturated solution of the hygroscopic agent, the inside of the soaked porous fiber material will be filled with a saturated diluted solution, and then it is taken out and dried; after the dried porous fiber is bent into a predetermined shape, Fixed to a specific location of the droplet to be guided. Due to the hygroscopic effect of the hygroscopic agent, the surface of the porous fiber material will absorb moisture from the air, and always maintain a layer of micron-scale water film. When the droplet to be guided touches the water film on the surface of the porous fiber, a strong intermolecular attraction will be generated, so that the droplet is firmly bound on the porous fiber. Even if it is affected by other external forces, it can only move along the direction of the porous fiber, showing a good droplet guiding effect. Utilizing the softness of the porous fiber, it can be bent into any three-dimensional shape in space. Therefore, by utilizing the strong binding force between the water film and the droplet, not only the guidance of the droplet on the wall surface, but also the guidance of the droplet in three-dimensional space can be realized. In addition, due to the excellent hygroscopic ability of the hygroscopic agent, it can ensure that the water film exists on the porous fiber material for a long time, so the guiding method can be effective for a long time. However, since the guidance method is essentially the intermolecular force of droplets, the type of droplets that can be guided is limited to droplets of a solution with a surface tension coefficient similar to water, and the surface tension coefficient of water is 0.0732N/m.

实施例1Example 1

参阅图1，本实施例以质子交换膜燃料电池内的多孔碳纸表面为测试表面，采用氯化锂制作吸湿饱和水溶液，通过调节液滴导引线所在的平面和水平面的夹角β值的方法，实现基于水膜导引线控制的无障碍导引,具体步骤如下:Referring to Fig. 1, the present embodiment takes the porous carbon paper surface in the proton exchange membrane fuel cell as the test surface, adopts lithium chloride to make a hygroscopic saturated aqueous solution, and adjusts the angle β value between the plane where the droplet guide line is located and the horizontal plane method to realize barrier-free guidance based on water film guide line control, the specific steps are as follows:

第一步,选择碳纸2，碳纸尺寸为200×200mm，将碳纸表面处理干净，并充分干燥；The first step is to select carbon paper 2, the size of the carbon paper is 200×200mm, clean the surface of the carbon paper and dry it fully;

第二步,将纯度为99％的吸湿剂氯化锂溶于水中制成吸湿饱和水溶液；In the second step, the hygroscopic agent lithium chloride with a purity of 99% is dissolved in water to make a hygroscopic saturated aqueous solution;

第三步,采用直径为1.5mm，长度为500mm的白色棉质线，放置在步骤二所提出的吸湿饱和水溶液内，静置6h，致使棉线完全被溶液浸润，取出烘干；The third step is to use a white cotton thread with a diameter of 1.5mm and a length of 500mm, place it in the saturated aqueous solution of moisture absorption proposed in step 2, and let it stand for 6 hours, so that the cotton thread is completely soaked by the solution, and then take it out and dry it;

第四步,将棉质线粘贴在碳纸表面，则被吸湿剂饱和水溶液处理过的水膜导引线3的导引系统制作完毕；The fourth step is to paste the cotton thread on the surface of the carbon paper, and then the guiding system of the water film guiding line 3 treated with the saturated aqueous solution of the hygroscopic agent is completed;

第五步,在导引线3上滴入体积为20μL水滴1，并调节液滴导引线所在的平面与水平面夹角的角度β，使液滴开始在导引线上运动；The fifth step is to drop water droplets 1 with a volume of 20 μL on the guide line 3, and adjust the angle β between the plane where the drop guide line is located and the horizontal plane, so that the droplets start to move on the guide line;

第六步,将液滴导引线所在的平面与水平面的夹角β从0°调节到180°，分别进行试验，测试水膜导引线导引效果的优劣；The sixth step is to adjust the angle β between the plane where the droplet guide line is located and the horizontal plane from 0° to 180°, and conduct experiments respectively to test the quality of the water film guide line’s guiding effect;

第七步骤七：将导引装置放置30天后，再进行步骤六的实验，测试导引装置的持久性。Seventh Step Seven: After placing the guidance device for 30 days, proceed to the experiment of step six to test the durability of the guidance device.

本实施例中，利用碳纸表面氯化锂的吸湿特性，以及对水滴具有超强束缚力的导引线，对水滴进行有效地束缚；体积为20μL的水滴沿着弯曲的导引线运动的启动夹角为20°；当液滴导引线所在的平面与水平面的夹角β值大于180°时，水滴仍然能够牢牢地被束缚在导引线上；将导引线放置一个月后，导引线的导引作用依然明显；实验中导引线所形成的形状可根据需要改变。In this embodiment, the moisture absorption characteristics of lithium chloride on the surface of carbon paper and the guide wire with super strong binding force to water droplets are used to effectively restrain the water droplets; the water droplet with a volume of 20 μL moves along the curved guide wire The starting angle is 20°; when the angle β between the plane where the droplet guide line is located and the horizontal plane is greater than 180°, the water droplet can still be firmly bound on the guide line; after placing the guide line for one month , the guiding function of the guide wire is still obvious; the shape formed by the guide wire in the experiment can be changed as needed.

实施例2Example 2

本实施例中,以聚苯乙烯材料制成圆锥体模型,制作三维空间螺旋导引轨道，采用氯化锂制作吸湿饱和水溶液浸泡处理，给出表面张力系数与水相近的10％的甘油溶液滴,实现甘油溶液滴在空间螺旋水膜导引线控制的无障碍导引,具体步骤如下:In this embodiment, a cone model is made of polystyrene material, a three-dimensional space spiral guide track is made, and lithium chloride is used to make a hygroscopic saturated aqueous solution for immersion treatment, and a 10% glycerin solution drop with a surface tension coefficient similar to that of water is obtained. , to realize the barrier-free guidance controlled by the glycerin solution drop on the space spiral water film guide line, the specific steps are as follows:

第一步,选择聚苯乙烯材料制成圆锥体，底座直径为200mm，高度为200mm，将表面处理干净，并充分干燥；The first step is to choose polystyrene material to make a cone, the diameter of the base is 200mm, and the height is 200mm. The surface is cleaned and fully dried;

第二步,将纯度为99％的吸湿剂氯化锂溶于水中制成吸湿饱和水溶液；In the second step, the hygroscopic agent lithium chloride with a purity of 99% is dissolved in water to make a hygroscopic saturated aqueous solution;

第三步,采用直径为1.5mm，长度为300mm的白色棉质线，放置在步骤二所提出的吸湿饱和水溶液内，静置6h，致使棉线完全被溶液浸润，取出烘干；The third step is to adopt a white cotton thread with a diameter of 1.5mm and a length of 300mm, place it in the moisture-absorbing saturated aqueous solution proposed in step 2, and let it stand for 6 hours so that the cotton thread is completely soaked by the solution, then take it out and dry it;

第四步,将棉质线粘贴在圆锥体表面，则被吸湿剂饱和水溶液处理过的水膜导引线的导引系统制作完毕；The fourth step is to paste the cotton thread on the surface of the cone, and the guide system of the water film guide thread treated with the saturated aqueous solution of the hygroscopic agent is completed;

第五步,在导引线的顶端上滴入体积为20μL的10％的甘油溶液滴，甘油溶液滴在重力作用下沿着导引线向下运动；In the fifth step, a 10% glycerol solution drop with a volume of 20 μL is dropped on the top of the guide wire, and the glycerol solution drop moves downward along the guide wire under the action of gravity;

第六步,将导引装置放置30天后，再进行步骤五的实验，测试导引装置的持久。The sixth step is to place the guide device for 30 days, and then carry out the experiment of step five to test the durability of the guide device.

本实施例中，在聚苯乙烯材料制成的圆锥体表面，利用氯化锂的吸湿特性，以及对液滴具有超强束缚力的导引线，对液滴束缚并使得液滴在空间被导引；将导引线放置30天后，导引线的导引作用明显；实验中导引线所形成的形状可根据需要改变。In this embodiment, on the surface of the cone made of polystyrene material, the hygroscopic characteristics of lithium chloride and the guide wire with super strong binding force on the droplet are used to bind the droplet and make the droplet be trapped in the space. Guidance; after placing the guide wire for 30 days, the guiding effect of the guide wire is obvious; the shape formed by the guide wire in the experiment can be changed as needed.

Claims (1)

1. the accessible guidance method of a kind of drop based on porous water absorbent fiber, it is characterised in that include the following steps:

Step 1. cleans material surface to be treated, and surface to be treated is arbitrary shape face；

Step 2. selects porous fibrous material, and required orbital path is made on porous fibrous material；

Step 3. dissolves high-purity hygroscopic agent in water, and moisture absorption saturated aqueous solution is made；

Track made of porous fibrous material is positioned in moisture absorption saturated aqueous solution by step 4., is stood 6h, is made porous fibre materialMaterial by solution impregnation, takes out porous fibrous material, drying completely；

The porous fibrous material of orbital path is fixed on the surface handled by step 1 by step 5., completes the water of hygroscopic materialFilm guiding makes；

Step 6. adds drop on the track of step 5, and adjusts the angle beta of the plane where drop trajectories and horizontal plane, β anglesValue range be 0~180 °；Apply external force, adjusting external force size makes drop at the uniform velocity be transported along the predetermined guide rails on surfaceIt is dynamic, realize the guiding of any direction.