Method and device for preparing karst caves based on 3D printing technology

The invention claimed is: 1. A method for preparing a karst cave based on 3D printing technology, comprising the following steps: (1) determining the size of a sample according to test requirements, constructing a three-dimensional karst cave digital model based on a three-dimensional karst cave scanning result, and carrying out 3D printing by using an alloy to form a primary karst cave sample; (2) determining a proportioning scheme of an aggregate and a cementing material of a rock model according to the geometric similarity ratio, strength similarity ratio and elastic modulus similarity ratio of the rock sample and the model, and preparing a rock similar material mixture according to the proportioning scheme; (3) rock similar materials are weighed according to a proportion and uniformly mixed, the mixture is poured into a mold layer by layer while the karst cave model is buried into the mixture according to the position of a karst cave, with diversion holes being reserved; the interior of the mold is coated with a release agent, and vibration molding is carried out; (4) curing the sample together with the mold at room temperature until the rock similar materials are hardened, removing the mold, curing the formed karst cave rock sample at a constant temperature and a constant humidity and then baking the same to form a rock sample with a hollow karst cave; and (5) filling the hollow karst cave with different fillings to form a different type of karst cave sample; the preparation method of the muddy particle karst cave is that, after the set portion is printed in the karst cave printing process, the printed portion has an opening through which the fillings are poured into the karst cave, and the karst cave is further printed till the printing is completed and the fillings are sealed in the karst cave, wherein preparing a water-filled karst cave is to fill the karst cave with water through the diversion holes after the preparation of the karst cave rock mass, and the water filling pressure is adjusted according to the experimental requirements to obtain a water-filled karst cave with different water pressures. 2. The method for preparing a karst cave based on 3D printing technology according to claim 1 , wherein in step (1), the alloy comprises a low-melting-point metallic synthetic alloy having a melting point below 300° C. 3. The method for preparing a karst cave based on 3D printing technology according to claim 1 , wherein in step (3), the diversion holes are obtained from pre-buried small low-melting-point alloy strips communicating with the karst cave and the outside, where after the alloy strips are melted, the alloy melt flows out to form the diversion holes. 4. The method for preparing a karst cave based on 3D printing technology according to claim 1 , wherein in step (4), the sample is cured together with the mold at room temperature for a period of time until the rock similar materials are hardened; the mold is removed; and the formed karst cave rock sample is cured in a constant-temperature and constant-humidity curing box for a set time. 5. The method for preparing a karst cave based on 3D printing technology according to claim 1 , wherein in step (4), the curing temperature is 20-25° C., and the curing relative humidity is higher than 94%. 6. The method for preparing a karst cave based on 3D printing technology according to claim 1 , wherein in step (4), the formed test sample is baked or heated by electrifying a preset heating wire in the alloy; the karst cave made of the low-melting-point alloy and the alloy strips are fully melted; the alloy material flowing out after the karst cave is melted is recovered by virtue of the division holes of the sample during baking or electrified heating; and a rock test block with a hollow karst cave is obtained.