Abstract: An approach is disclosed for preventing splashing of a liquid under a splashing area from a liquid source utilizing a barrier. The barrier includes a base, a top side of the base, a bottom side of the base, a first side of the base, a second side of the base, suction cups integrated into the bottom side of the base, a first angled foot is attached to the first side of the base, and a second angled foot is attached to the second side of the base. The first angled foot and the second angled foot are designed angled to allow a limited compression of the suction cups. When the barrier is placed on the splashing are, the suction cups are compressed to adhere to the area to form a seepage guard by the first angled foot preventing the liquid from seeping under the first angled foot.

Abstract: An approach is disclosed for preventing splashing of a liquid under a splashing area from a liquid source utilizing a barrier. The barrier includes a base, a top side of the base, a bottom side of the base, a first side of the base, a second side of the base, suction cups integrated into the bottom side of the base, a first angled foot is attached to the first side of the base, and a second angled foot is attached to the second side of the base. The first angled foot and the second angled foot are designed angled to allow a limited compression of the suction cups. When the barrier is placed on the splashing are, the suction cups are compressed to adhere to the area to form a seepage guard by the first angled foot preventing the liquid from seeping under the first angled foot.

Abstract: An approach is disclosed for preventing splashing of a liquid under a splashing area from a liquid source utilizing a barrier. The barrier includes a base, a top side of the base, a bottom side of the base, a first side of the base, a second side of the base, suction cups integrated into the bottom side of the base, a first angled foot is attached to the first side of the base, and a second angled foot is attached to the second side of the base. The first angled foot and the second angled foot are designed angled to allow a limited compression of the suction cups. When the barrier is placed on the splashing are, the suction cups are compressed to adhere to the area to form a seepage guard by the first angled foot preventing the liquid from seeping under the first angled foot.

Abstract: The invention provides an intelligent quantitative microscopic identification system for whole rock polished sections, which can greatly improve the collection efficiency of whole rock polished sections by adopting a microscopic collecting apparatus. In a preferable technical solution, the microscopic collecting apparatus is combined with the production line for the automatic preparation of whole rock polished sections to form an integrated system, which realizes an automatic solution from preparation to collection, therefore further improves the production and collection efficiency of whole rock polished sections, and which can cope with production, image collection and automatic scanning and splicing of mass whole rock polished sections, so it greatly improves the collection efficiency of the microscopic images of organic components for whole rock polished sections. People can collect 500 to 1000 sample pieces of whole rock polished sections in 12 hours by adopting the solution of the invention.

Abstract: The invention provides an intelligent quantitative microscopic identification system for whole rock polished sections, which can greatly improve the collection efficiency of whole rock polished sections by adopting a microscopic collecting apparatus. In a preferable technical solution, the microscopic collecting apparatus is combined with the production line for the automatic preparation of whole rock polished sections to form an integrated system, which realizes an automatic solution from preparation to collection, therefore further improves the production and collection efficiency of whole rock polished sections, and which can cope with production, image collection and automatic scanning and splicing of mass whole rock polished sections, so it greatly improves the collection efficiency of the microscopic images of organic components for whole rock polished sections. People can collect 500 to 1000 sample pieces of whole rock polished sections in 12 hours by adopting the solution of the invention.

Abstract: Provided is a gas discharge tube, including at least two electrodes and an insulating tube body, which is connected in a sealing manner with the electrodes to form a discharge inner cavity. A low-temperature sealing adhesive for sealing the discharge inner cavity is arranged in the gas discharge tube. The low-temperature sealing adhesive is melted at a specific low temperature to cause gas leakage in the discharge inner cavity.