Budget: 4500 USD Deadline: 30 days
Здравствуйте! Для адекватной оценки стоимости и сроков реализации проекта, прошу предоставить техзадание. Мой e-mail: [email protected]
разработка подсистемы обработки информации сигнала сенсоров различных типов для ретрансляции на систему автоматики предприятия
Budget: 4500 USD Deadline: 30 days
Здравствуйте! Для адекватной оценки стоимости и сроков реализации проекта, прошу предоставить техзадание. Мой e-mail: [email protected]
Budget: 5000 USD Deadline: 30 days
Здравствуйте.
Имею большой опыт разработки систем сбора/анализа данных в т.ч. распределенных, по радиоканалу и т.п. Есть наработки для нефтяной, энергетической промышленности, а также опыт с автомобильной отраслью ( в сфере датчиков газа), авиа производством (сенсоры + система обработки). В особенности по измерению параметров среды, состава вещества, концентрации газа
Вот мой профиль на джинне (для старта) http://djinni.co/q/605ad271/
Но необходимо больше информации о Вашем проекте - можно отправить личным сообщением прям здесь на сайте.
Спасибо, надеюсь на сторудничество.
I'm looking for a furniture designer for a small project. I need to develop furniture for a laundry room in a private house. What is needed: to propose practical furniture layout; to consider the placement of the washing and drying machines; to provide storage spaces for household chemicals, a laundry basket, an ironing board, and other items; to prepare drawings or a scheme for manufacturing the furniture. Available: dimensions of the room; an example of how the furniture should approximately look. Experience in designing built-in furniture (kitchens, wardrobes, etc.) will be an advantage. When responding, please send: examples of similar works; an estimated cost; the completion time. If everything goes well, we plan to establish a long-term collaboration.
It is necessary to design a cabinet with two drawers for the bathroom. White color. The drawers should have soft-close mechanisms. We will assemble it ourselves. The cabinet stands on legs.
Task: Designing an interior magnetic lock with forced retraction of the magnetic slider.Basic analog (reference for dimensions): AGB TouchCritical difference from the analog (Essence of the mechanics):In the original AGB Touch, the slider with the magnet is retracted only by the force of the door's locking/pulling. In the developed lock, it is necessary to implement forced mechanical retraction of the magnetic slider into the housing with a slight pull of the door handle towards oneself.Mechanism operation logic:In the initial position (handle in the initial position), the slider with the neodymium magnet is pushed forward by a built-in spring (towards the strike plate of the frame).When pulling the door handle towards oneself, the internal catch (lever finger) should slightly engage the magnetic slider and forcibly pull it inside the lock housing, completely hiding the magnet in the end.Upon releasing the handle, the return spring returns the magnetic slider to the initial (extended) position.A locking device should be provided to block the movement of the door handle towards oneself. Similar to a WC lock.Output requirements: Assembly in STEP or IGES format, suitable for test 3D printing on an SLA/FDM printer.
Develop for two devices: general assembly drawing of the metal frame; general assembly drawing of the service platforms; detailed drawings of ladders; detailed drawings of railings; detailed drawings of equipment supports; specification of metal products; St3 or 09g2s As a result of the design, it is necessary to obtain: 3D model of the frame. General assembly drawing. Specification of metal products. Calculation of the load-bearing capacity of the structure (will be a plus). Description of the device:ParameterValueType of deviceVertical reactor with a stirrerWorking volume2.0 m³Total volumeabout 2.36 m³Body diameterabout 1500 mmHeight of the deviceabout 4265 mmBody materialSteel with enamel coatingType of stirrerAnchorStirrer rotation frequencyabout 85 rpmHeat carrierThermal oil
Development of a mechanism for alternating the flipping of plastic cupsProject Goal It is necessary to develop only the mechanism for flipping plastic cups "every other one" for an automatic production line. The device must ensure the following sequence: 1st cup — without flipping (0°) 2nd cup — flip 180° 3rd — without flipping 4th — flip 180° and so on. As a result, the output should produce the sequence: 0° → 180° → 0° → 180° → ...What is already available The cups move along the conveyor in a single row. Before the mechanism, all cups have the same orientation (lid up). Only the flipping unit needs to be developed.Proposed Operating Principle The following scheme is considered: A dividing screw synchronizes the flow of cups. All cups gradually rotate to the position of 90°. Then, the cam mechanism acts only on every second cup. Every second cup returns from the position of 90° back to 0°. The others continue rotating to 180°. As a result, we get: 0° 180° 0° 180° If the performer offers a simpler, more reliable, or more technological solution — we are ready to consider it.Requirements1. Develop a complete 3D model in SolidWorks It is necessary to model: dividing screw; flipping mechanism; cams; guides; shafts; mountings; all necessary parts.2. Perform kinematic verification It is necessary to ensure that: the mechanism operates without jamming; there are no intersections of parts; the cups are flipped correctly; the mechanism is suitable for manufacturing.3. Conduct Simulation / Motion Study It is necessary to perform an animation of the mechanism's operation in SolidWorks Motion. It should be visible: the movement of the cups; the rotation of parts; the sequence of flipping every second cup.Work Result The performer must provide: source files SolidWorks (*.SLDPRT, *.SLDASM); assembly; Motion Study; animation video; STEP file of the assembly; drawings of the main parts.