The Vortex Fill Pass Diverter is specifically engineered to handle dry bulk solids in vacuum or dilute phase pneumatic conveying systems with pressures up to 15 psig (1 barg) depending on size. It provides a versatile and reliable solution for filling one or more in-line weigh hoppers when material is conveyed pneumatically through a closed loop system. The design of the Fill Pass Diverter utilizes spread hopper inlet/outlet stacks for improved air and material separation reducing fill time and down line material carryover.

Lots of volume - small footprint Filler towers consist of two silos, which are placed one above the other. They are usually used in asphalt mixing plants and normally used for storage of natural and foreign filler. The foreign filler silo is arranged at the top and is pneumatically filled by truck. The bottom filler silo is filled with the accumulating filter dust. Filler towers are usually built in diameters from 2,900 mm to 3,800 mm. Even larger diameters with more volume are possible. All components such as filters, overfill prevention devices, inspection facilities and discharge aids are part of the delivery offer of Kurz Silosysteme.

• Filling equipment for bagging into valve sacks or open sacks • Filling into big bags, drums, containers or octabins also possible • Special equipment for filling under inert atmosphere • Small-package filling

The STANELLE - CONNEX® Pipe - Coupling System provides the economically most favorable sealing and joining of conveyor pipelines. Pipelines for the pneumatic conveying of bulk materials are subject to heavy wear. Flanged joints, with their seals and off - centered construction, create turbulence and wear. The CONNEX® pipe couplings center the pipes offset - and vortex - free and the exterior gaskets seal the pipeline tightly. An inlaid stainless steel tape ensures potential equalization against the build - up of static electricity. For extreme application conditions, e.g. high temperatures or heavy vibration, we provide pipe couplings with special extension arms which enforce the connection.

YANPAI™ belt fabric are mainly below 4 types: 1. Dewatering Belt (Polyester dehydrates the net product): With fine and even meshes, high breaking strength,it is widely used in printing, mining sellection,and food industry, etc 2. Polyester Dry Belt for Drying: for paper making and Pulp concentration 3. Polyester Forming Fabrics: for pulp, board, writing paper printing and tissue paper industry. 4. Polyester Pulping Belt: usd in Vacuum belt pulping machine and drum belt pulping machine. Yanpai Belts are: Large treatment capacity Uniform sludge feeding High efficiency dehydration Easy maintenance Light weight and compact Capacity range: 2 -25 m3/hr

The in-house star filter production offers unlimited possibilities for pleat geometry and filter medium. One of ts-systemfillter patented inventions is the tubular star filter. The star filter is screwed into the filter plate complete with a reusable support tube. Sealing from the raw gas side to the clean gas side is achieved by end discs cast onto the star filter. Large maintenance openings in the filter housing on the raw gas side facilitate the replacement of the filter elements and prevent contamination of the clean gas side. A modified variation of the star filter is the multi-functional star filter »ts-x« with self-sealing plug-in connection. It can be installed from the dirty air side and from the clean air side. An additional support body is not necessary. The hose filter »ts-s« was developed for applications with particularly sticky bulk material. A patented vibrating spring serves as a supporting body. It can be mounted from the raw gas side and the clean gas side. • Star filters made of cellulose PES, PP, PPS optionally with PTFE-membrane, conductive optionally with hydrophobic, oleophobic finish optional for high temperatures up to approx. 190°C Separation efficiency up to ≥ 99,95 % (H13) • Star filter: with separate metal support tube, with integrated metal or plastic support tube, without support tube • Plug-in-filter • Conical filter elements • Hose filters made of PES, PTFE, m-Aramid optionally with PTFE-membrane, conductive optionally for high temperatures up to 250°C • Mini-metal filter elements • Customized designs

Lanz-Anliker AG is operating a clothing room for making filter under clean room conditions, since 2013. The filter manufacturing room corresponds to class 7 according to EN ISO 14644-1 Clean room or class C according to Pharma Guide. The clean room consist to actually a manufacturing room of 32 m2 and a cleanroom air-shower of 5 m2 for dressing up and hand disinfection of our staff. Four powerful fans ensure that the air of the clean room corresponds to at least class 7 of EN ISO 14644-1. The rooms consist of modular system partition walls from visible aluminium supports and frame profiles. The glazing is made of 5 mm thick crystal mirror glass. The used material and devices comply with the current standard of clean room technology. To ensure the quality of the clean room atmosphere, a measuring device (brand Aero TRAK) is installed in addition to measure and logs the present particles in the clean room. On customer request, we are pleased to enclose a copy of the report to the filter manufactured in the clean room.

• For dust removal/collection equipment and equipment for separating solids and liquids • Filter tubes, pockets and bags made of fibre polymer or filter fabric • Materials include PP / PES / PAN / PPS / AR / PI / PTFE • Various equipment including water- and oil-repellent, anti-static, spark arresting, or with PTFE coating / PTFE membrane • Accessories such as filter support baskets and filter frames

YANPAI™ mesh fabric Material available:polyamide; polyester Certificate: ISO Material: Nylon 1010, nylon66, polyamide and polyester fiber. Usage: Screening and filtering of pharmacy, chemical industry, dyestuff, fishing and foodstuff Mesh opening: 40 microns -1500 microns

In vacuum conveying, filters are critical for maintaining system performance and product quality. Over time, filters become clogged. This can lead to reduced conveying capacity and subsequently inefficient energy consumption as the vacuum pump still consumes the same amount of compressed air or electricity while material transportation has decreased. Users gain real-time insight into the condition of their filters with the help of Filter Monitoring. This allows them to optimize equipment use and intervene only when necessary. This ensures the conveyor maintains optimal capacity without increased air or energy use, resulting in measurable energy savings and reduced environmental footprint. Unplanned downtime and reactive maintenance can be both costly and resource-intensive. Filter Monitoring addresses this by enabling predictive maintenance. Users are informed about the filter status, so they can schedule maintenance before problems arise. This proactive approach minimizes the risk of sudden stoppages, and reduces downtime. This helps facilities avoid resource-heavy interventions and keep the production running smoothly. An unnoticed clogged or broken filter may result in several hours of downtime. Even a single instance of an unexpected equipment failure can result in significant production and financial losses. Filter Monitoring pays for itself by preventing just one such incident. Well-maintained filters help sustain the designed conveying capacity, maximizing throughput and minimizing the risk of reduced performance. Filter Monitoring supports a consistent, reliable output and ensures that filter servicing happens before clogging impacts production. Support your zero-waste and ESG goals with Filter Monitoring! Automated alerts and real-time monitoring avoid unnecessary filter changes and emergency maintenance, leading to lower maintenance costs and fewer wasted resources.

Filter receiver for pneumatic conveying and applications with high dust load