This is a skitter prop inspired by the bananas we often eat. During the fishing process, fish are often found gathering under the shade of trees. One of the reasons is that fish eat fruits that fall from the trees. Based on this, I used bananas as prototypes and made a banana lure using 3D printing.
This skitter prop has the characteristics of large swing range and short distance when swinging, and can make a maneuvering posture during the movement, thanks to its special curved shape. Unlike ordinary surface pencils, this bait is more suitable for making richer swimming styles in short distances. Just use higher frequency twitching techniques to show off its unique swimming style. (Figure 1 shows the normal speed swimming posture display, and Figure 2 shows the slow down display)
应用场景及实战:Application scenarios and practical operations
1.Use swing casting or other casting methods to throw the bait into the water area covered by the shade of the trees. When the bait falls into the water, fish may feed it. The fish will mistakenly think that it is wild fruits falling from the trees, and they will compete for food. 2.Throw the bait normally and use high-frequency twitching techniques to show the effect of the dying fish escaping.
打印组装需知:Printing assembly requirements
打印件详情:Print details
香蕉lure主体
定位销
1.Banana lure body 2.Positioning pin
打印件后处理:Post processing of printed documents
支撑需拆除。
模型与pei板接触面较小,由于不同耗材收缩比率不同,打印件存在不同程度的翘曲,可使用砂纸打磨平整。
由于定位销孔位悬垂打印,存在少许塌陷 ,打磨修剪即可。
1.Supports need to be removed. 2.The contact surface between the model and the pei board is small. Due to the different shrinkage ratios of different consumables, the printed parts will have varying degrees of warpage, which can be smoothed with sandpaper. 3.Due to the hanging printing of the positioning pin hole, there is a slight collapse, which can be polished and trimmed.
A counterweight of about 7 grams is required, but the size is limited (Slot specifications: length 1.5 centimeters, width and diameter 0.8 centimeters). You can use bullet lead from the Texas fishing group, or inverted lead, and other suitable weights. The size of the counterweight should match the slot size as much as possible to avoid unstable swimming posture caused by unstable center of gravity.(I used 20 grams of inverted lead and cut it out to 1.5 centimeters, which is exactly about 7 grams)
3 figure-eight swivel rings (No. 1 in the picture, specifications: 4# or the main shaft diameter is less than 3.5 mm) or figure-eight hook rings (No. 2 in the picture, specifications: 8 mm long). (The stl file contains models of these two different hook and loop styles, you can choose according to your needs)
1.Insert the positioning pin into the hole and insert the connecting ring into the positioning pin. 2.Add a small amount of glue to the slot and card position, put the counterweight into the counterweight slot, and put in the wiring connection ring. 3.Use glue to fix the position of the counterweight and connecting ring first, then apply glue on both sides of the shell, align them together and fix them. (A clamp can be used in this process to facilitate tight bonding between the two shells) 4.After initial fixation, glue is used to reinforce the gap between the two shells. After the glue dries, it is placed in a body of water for a sealing test. If it is not completely sealed, continue to glue the gap for reinforcement.
1.Consumables need to be PLA, ABS, PETG and other consumables with certain mechanical strength.Recommended ABS, ASA. 2.The weight of the finished product after assembly should be controlled within the range of 20-24 grams, and consumables with lower density should be used as much as possible to obtain lighter printed parts, in order to reduce the impact on swimming posture.
3.Due to the different specific gravity of different types of printing filaments, the weight of the finished product will be different, which will have a certain impact on the swimming style. You can adjust the appropriate weight by yourself, and you can also assemble steel balls inside to adjust the weight while producing noise effects. 4.The default printing layer height is 0.2. Although better surface effects can be obtained with a smaller layer height, due to the particularity of overhang printing, the internal structure slots will be slightly deformed, and the printed product needs to be trimmed.