||WO||WO/2014/185761 - NOVEL 3,4-DIAMINOPYRIDINE COMPOSITION FOR TREATING MUSCLE FATIGABILITY ASSOCIATED WITH NEUROVEGETATIVE DISORDERS||20.11.2014||
||PCT/MA2013/000041||UNIVERSITÉ MOHAMMED V SOUISSI||HAMID, Benziane|
The subject matter of the invention relates to a novel composition of 3,4-diaminopyridine (3,4-DAP) rendering same stable and homogeneous, prepared in the form of a capsule for the treatment and control of paraneoplastic Lambert-Eaton myasthenic syndrome, characterised by muscle fatigability associated with neurovegetative disorders. Said drug is used in fatigability associated with multiple sclerosis, botulism and congenital myasthenic syndromes and Alzheimer's disease. The novelty also relates to the dosing protocol of the active agent and of the carriers. In the novel 3,4-DAP composition, the mixture is supplied in the form of a capsule, tablet or oral suspension, or other dosage forms.
||WO||WO/2014/185763 - REFILLABLE POCKET TOOTHBRUSH ENABLING THE TOOTHBRUSH AND THE TOOTHPASTE TO BE GROUPED TOGETHER||20.11.2014||
||PCT/MA2013/000043||UNIVERSITÉ MOHAMMED V SOUISSI||ALAOUI Lalla Latifa|
Nowadays, a large portion of Moroccans tend to spend the day away from home for various reasons, such as work, studies, travel, etc. Said people then find that they have to eat meals, which forces them to carry around the tools necessary for their own personal daily hygiene, namely toothpaste and a toothbrush. We therefore came up with an idea to solve this issue, which was the design of a pocket (portable) toothbrush having integrated toothpaste. The reduced format of this toothbrush enables optimal space management, and the person can keep same in his or her pocket. Furthermore, the toothbrush does not require any change in consumption habits, since said toothbrush can be refilled using the normal toothpaste each person uses at home. Said toothbrush contains a disposable single-serving pack of toothpaste. The person can then have additional single-serving packs as a reserve to refill the toothbrush if needed.
||WO||WO/2014/185760 - MECHANICAL DEVICE FOR HARVESTING CACTUS PRODUCTS BY TWISTING||20.11.2014||
||PCT/MA2013/000040||UNIVERSITÉ MOHAMMED V SOUISSI||OUBREK, Mohammed|
The invention relates to a novel mechanical device for harvesting cactus products by twisting. The invention relates specifically to a rod for harvesting cactus fruit. The rod is easy to use and provides better control over the operation, making it possible to grasp the fruit without damaging same and to separate the fruit from the pad (the cladode) by means of a twisting motion. At this time, no manual devices are commercially available for harvesting the fruit, the flower or the pad one by one.
||WO||WO/2014/185762 - DEVICE FOR CLEANING PRICKLY PEARS BY BRUSHING IN WATER||20.11.2014||
||PCT/MA2013/000042||UNIVERSITE MOHAMMED V SOUISSI||OUBREK, Moubrek|
The invention relates to a novel mechanical device for removing the glochids from prickly pears by brushing. The invention relates specifically to a vat (1) filled with water in which brushes (12) remove the glochids, enabling same to rise to the surface given that the density thereof is lower than that of water. A filtering system collects the glochids by preventing same from returning to the vat (1). The same result can be achieved more efficiently by means of a closed circuit for water flow. The movement of the brushes (12) mounted on parallel shafts (9) can be driven manually via a crank or using a gear motor.
||WO||WO/2014/185764 - INDOOR SHOOTING SIMULATOR FOR LIGHT WEAPONS AND ANTI-TANK ROCKET LAUNCHERS||20.11.2014||
||PCT/MA2014/000010||4°BUREAU DE L'ETAT-MAJOR GENERAL DES FORCES ARMEES ROYALES||ZHAR, Noureddine|
The present invention relates to a device for indoor shooting practice using light weapons and anti-tank rocket launchers (ATRL). Said device comprises at least one simulated weapon (6), provided with sensors (17) and a source of infrared radiation (18), pointed at a screen (8) onto which a firing range and three-dimensional targets generated by a graphic server (2) are projected, and an infrared camera (4) which continuously films the screen (8) and sends the video stream to a processor (1), characterised in that the video stream supplied by said camera (4) is processed by an image-processing algorithm dedicated to the detection of infrared spots and the automatic allocation of said spots to the positions that correspond to same, is deployed in the processor (1) which is connected to an electronic acquisition and control module (3) that is responsible for acquiring data from the sensors (17) provided in the weapons (16), for supplying power to the sources of infrared radiation (18), and for controlling the electric valves (9) that supply a pressure amplifier (19) with compressed air with a view to providing the pressure required to simulate the recoil of the weapons.
||WO||WO/2014/182146 - MOBILE DIGITAL MULTIMEDIA GUIDE WITH AN INTERACTIVE MAP AND GPS||13.11.2014||
||PCT/MA2014/000011||HANIN, Zouhair||HANIN, Zouhair|
A Mobile Digital Multimedia Guide with an Interactive map and GPS, operating without any connection to an external data source (Internet or other); for the digital broadcasting of informational and educational content that may or may not be geolocated, in the Text, Image, Audio and Video formats. This device can be used in a plurality of field and situations, in particular for promoting Areas, digitally broadcasting cultural and natural heritage information, broadcasting digital educational content; geolocated advertising, etc.
||WO||WO/2014/182145 - DESCRIPTION OF THE INVENTION||13.11.2014||
||PCT/MA2013/000032||BARID, Nabil||BARID, Nabil|
This invention is a type of sophisticated exhaust pipe. It is characterised in that it consists of two parts: a physical part (figure 7) and a chemical part (figure 5 or figure 6). It can be mounted on cars, trucks, motorcycles and various vehicles. It is suitable for any heat engine that operates with petrol or with diesel (Hydrocarbons). It consists of the solution NaOH (sodium hydroxide), and is characterised by the reaction of same with the CO2 released by heat engines, which will be eliminated at the end of the latter and makes it possible to reduce the rate of pollution to 98%.
||WO||WO/2014/178696 - WALL-MOUNTED POWER SOCKET COMPRISING A MOBILE TELEPHONE CHARGER||06.11.2014||
||PCT/MA2013/000012||GUESSOUS, Ahmed Karim||GUESSOUS, Ahmed Karim|
The invention concerns a built-in wall-mounted device (7) for charging mobile telephones and comprising in its front face a 100-240 V power socket (5) and a 30-pin connector (4). The 30-pin connector is fed by a voltage converter (2) which comprises an on/off switch (6) disposed in the front face of the device (7). The output voltage of the converter is between 3.6 and 6.8 V.
||WO||WO/2014/168464 - SURFACE-OPTIMISATION MECHANISM||16.10.2014||
||PCT/MA2014/000008||DADOUNE, Hamza||DADOUNE, Hamza|
The invention relates to a device for optimising the surface of a plot of land, thus making it possible to increase production and to use a plot of land fully. The invention relates to a mechanism which enables optimal use of a surface for agricultural or other reasons, and to facilitate the task of the labourers, which allows for better yields and saves time. Said device comprises two platforms (1) and (2) pivotably linked about the shaft (12), which are raised vertically by the rod cylinder (3) secured to the shaft (12) and four wheels (5) allowing the two platforms to slide on the rails (4), thus creating an angle Φ of inclination of the platforms, as well as a corridor having a width X on both sides of the mechanism (see figure 6) in which a scaffolding system (13) is provided such as to allow labourers or machinery to pass for harvesting or tending. The device according to the invention is intended for agriculture but can also be used for other previously cited fields.
||WO||WO/2014/163470 - SYSTEM FOR CONTROLLING THE ROTATION OF AIRCRAFT WHEELS BEFORE LANDING HAVING VARIABLE GEOMETRY||09.10.2014||
||PCT/MA2013/000028||AICHA, Farid||AICHA, Farid|
A system for controlling the rotation of aircraft wheels before landing having variable geometry. This system consists of using the relative wind to rotate the wheels using a plurality of mobile aerodynamic fins (N°l) that can be retracted into the free space located in the hollow of the wheel rim. They make translational movements between the hollow of the rim and the outside of the wheel (figure 1), guided by a bar mechanism (N°2 and N°3).