INSTALLATION FOR PRODUCTION OF ANHYDRITE FINISHING PANELS Russian patent published in 2024 - IPC B28B15/00 B28C9/00 B28B1/87 

Abstract RU 2812404 C1

FIELD: construction industry.

SUBSTANCE: invention relates to the production of anhydrite finishing panels. The installation for the production of anhydrite finishing panels contains a supply hopper with a dispenser, a vibration-forming installation, a roller conveyor and a frame formed by lower and upper horizontal channels connected to each other by tubes. At one end of the upper channel, from below, two bearings are coaxially attached, inside of which there is a drive shaft with two drive sprockets, connected to the shaft of the gear motor, and at the opposite end of the upper channel, from below, two bearings are attached, inside of which there is a driven shaft with two driven sprockets. On the lower channel, on vertical supports, there is an axis with a double-row sprocket in the middle. A corresponding closed chain is put on the corresponding drive, driven and double-row sprockets, to which horizontal shelves are attached through an equal number of links, directed towards each other in pairs. Partitions in the form of solid parallelepipeds are attached to the shelves. The distance between adjacent partitions corresponds to the length of the manufactured panel. Pallets are installed between adjacent partitions, on two parallel closed chains, the size of each pallet corresponds to the length and width of the panel being manufactured. The opposite ends of the upper channel and the ends of the tubes welded to the middle of the side walls of the upper channel are equipped with six vertically located rollers. Two closed belts are stretched onto the corresponding rollers, so that they form sides for pallets, the height of which corresponds to the thickness of the panel being manufactured. On the side of the closed belts forming the sides of the pallets, axles are installed vertically on the upper channel, on which rollers are mounted, securing the corresponding belts from horizontal displacement. In the middle part of the upper channel, above the belts, there is a hollow shaft mounted in four bearings, two of which are rigidly fixed to the upper channel through the corresponding plates. A corresponding plate is attached to the housing of the other two bearings from below, to each of which a downward pin is welded, onto which a plate with holes is mounted so that it is located above the electromagnet in the area of its field. The electromagnet is mounted on the plate attached to the lower surface of the upper channel using tubes. The middle part of the shaft is made thicker. The outer surface of the shaft is made of caprolon. A metal rod is inserted inside the shaft, the ends of which protruding from the shaft are fitted with shock-absorbing tips. The hopper on supports is installed on the upper horizontal channel so that the hopper funnel is oriented towards the central part of the shaft. The roller conveyor for receiving pallets with manufactured panels is located next to the upper channel, the end of which is equipped with a drive shaft.

EFFECT: expansion of the arsenal of means for the production of anhydrite finishing panels.

1 cl, 15 dwg

Similar patents RU2812404C1

Title Year Author Number
APPARATUS FOR FINISHING NETTING WEB OF SYNTHETIC FIBRE 0
  • Tyusov Nikolaj Ivanovich
SU1194926A1
SECTIONAL ROLLER DRYER WITH NOZZLE CASES, DRIVE AND LOADING AND UNLOADING MECHANISMS WITH BELT CONVEYOR 2009
  • Kuznetsov Vladislav Borisovich
  • Shirokov Vladimir Konstantinovich
  • Shirokov Aleksandr Vladimirovich
  • Toropov Andrej Jur'Evich
  • Chernitsyn Sergej Leonidovich
RU2430004C1
PLANT FOR MAKING BLOCKS FROM BRICKS 0
  • Ilchenko Eduard Valentinovich
  • Tarnovskij Konstantin Ivanovich
SU709789A1
SMALL-SIZED MULTIFUNCTIONAL POTATO HARVESTING COMBINE WITH SMALL TUBER SEPARATOR AND ACCUMULATOR 2004
  • Maksimov Leonid Mikhajlovich
  • Maksimov Pavel Leonidovich
  • Maksimov Lev Leonidovich
RU2295221C2
APPARATUS FOR MOULDING DECORATIVE FACING PANELS 0
  • Raev Mikhail Alekseevich
  • Zharov Maksim Nikolaevich
  • Kisilenko Nikolaj Grigorevich
  • Tsaritsyn Mikhail Alekseevich
  • Sergeev Yurij Nikolaevich
SU1381086A1
SCANNING THERMAL VISION FLAW SCOPE 2022
  • Chulkov Arsenij Olegovich
  • Vavilov Vladimir Platonovich
  • Nesteruk Denis Alekseevich
  • Shiryaev Vladimir Vasilevich
RU2786045C1
DRIVE FOR CONVERTING CONTINUOUS ROTARY MOTION TO STEPPED ROTATION 0
  • Stepanov Evgenij Arkadievich
  • Krupko Valerij Grigorevich
  • Bandaevskij Gennadij Ivanovich
  • Shnyukov Viktor Sergeevich
SU1234308A1
WHEEL-DRIVEN POWER TAKE OFF DEVICE 0
  • Klimov Vladislav Valerianovich
  • Selyanin Igor Evgenevich
  • Bannov Yurij Fedorovich
SU1678658A1
SELF-ALIGNING SAILING UNIT FOR OUTFEED OF FLOW ENERGY 2011
  • Orlov Viktor Fedorovich
  • Kamenshchikov Igor' Aleksandrovich
RU2518763C2
UNIT OF PNEUMATIC ROOF SUPPORT 0
  • Kolokolov Oleg Vasilevich
SU1164436A1

RU 2 812 404 C1

Authors

Fedorchuk Iurii Mitrofanovich

Rybin Aleksandr Sergeevich

Daneker Valerii Arkadevich

Leonova Liliia Aleksandrovna

Gritsai Sergei Ivanovich

Nosova Mariia Vladimirovna

Dates

2024-01-30Published

2023-07-24Filed