Disclosed is a filtrate collection unit (104) having a wear nozzle (108). The wear nozzle (108) includes a tubular portion (202) that is provided with a first aperture (208) and a second aperture (210). The first aperture (208) is adapted to receive fluid from a filter plate (100). The first aperture (208) has an elliptical profile. The second aperture (210) is disposed opposite to the first aperture (208) along a longitudinal axis (A-A') of the tubular portion (202) such that the second aperture (210) ejects filtrate of the fluid received via the first aperture (208) out of the tubular portion (202).
Provided is a slurry conveying hose (100) including a base layer (203) that forms the innermost layer of the hose (100) and an optical fiber cable (OFC) (102) wrapped around the base layer (203) extending throughout the length of the hose (100). The 5 optical cable (102) configured to detect puncture from an inner diameter (ID) to the outer diameter (OD) of the hose (100) by using an optical time domain reflectometer (OTDR) (302).
G01M 3/38 - Investigating fluid tightness of structures by using light
G01D 5/353 - Mechanical means for transferring the output of a sensing memberMeans for converting the output of a sensing member to another variable where the form or nature of the sensing member does not constrain the means for convertingTransducers not specially adapted for a specific variable using optical means, i.e. using infrared, visible or ultraviolet light with attenuation or whole or partial obturation of beams of light the beams of light being detected by photocells influencing the transmission properties of an optical fibre
3.
Flexible impact bed and a conveyor belt system thereof
The present subject matter relates to an impact bed system with an integrated shock absorber component (100) and a conveyor belt system thereof. The system (200) includes a flexible impact bed (202) including a plurality of cuboidal elements (204) arranged in an array, wherein the plurality of cuboidal elements are spatially coupled to each other; at least four extending elements (206) coupled to two opposite sides of the impact bed, wherein at least two extending elements are placed at each of the opposite sides of the impact bed; a pair of elongated cuboidal blocks (208) coupled to a mounting base plate (210), when in operation; at least four upright elongated components (214) coupled to the pair of elongated cuboidal blocks and the at least two support members; at least four shock absorber components coupled between the at least four upright elongated components and the at least four extending elements.
B65G 15/60 - Arrangements for supporting or guiding belts, e.g. by fluid jets
B65G 15/08 - Conveyors having endless load-conveying surfaces, i.e. belts and like continuous members, to which tractive effort is transmitted by means other than endless driving elements of similar configuration the load-carrying surface being formed by a concave or tubular belt, e.g. a belt forming a trough
The present invention provides an air blaster 100 for removing jammed materials. The air blaster 100 includes a tank 110 filled with compressed air and a dual piston assembly 400 inside the tank 110 for triggering a blast with minimum energy loss and high impact force. The piston assembly 400 includes an inlet piston 320 connected to an outlet piston 250 with a coupling mechanism such that the inlet piston 320 and the outlet piston 250 move in tandem and pressure acting on the inlet piston 320 and outlet piston 250 pushes the assembly 400 towards top of the tank 110 thereby compressing a dampening device/spring 360. The force produced by the instant discharge of air creates a strong blast of air in the tank 110.
The various embodiments of the present invention disclose an apparatus, modular tracking unit and a method for conveyor belt alignment. The apparatus provides alignment sustenance and wide-angle coverage. The apparatus includes a plurality of modular tracking units, a linking mechanism including a connecting rope passing through a link of each of the modular tracking units and a pair of guide rollers. The invention triggers the pair of guided rollers on misalignment of the conveyor belt from original path. The guided roller activates the linking mechanism to move the modular tracking units in tandem for re-aligning the conveyor belt.
B65G 39/16 - Arrangements of rollers mounted on framework for aligning belts or chains
B65G 15/64 - Arrangements for supporting or guiding belts, e.g. by fluid jets for automatically maintaining the position of the belts
B65G 15/08 - Conveyors having endless load-conveying surfaces, i.e. belts and like continuous members, to which tractive effort is transmitted by means other than endless driving elements of similar configuration the load-carrying surface being formed by a concave or tubular belt, e.g. a belt forming a trough
B65G 23/44 - Belt- or chain-tensioning arrangements
6.
RETURN BELT TRACKING APPARATUS, TRACKING UNIT AND A METHOD OF RE-ALIGNMENT OF CONVEYOR BELT
The present invention relates to a conveyor tracking apparatus, modular tracking unit and a method of re-alignment of conveyor belt. The apparatus is self-adjusting for the return or non-carrying side of conveyor belt. The tracking apparatus provides a mechanism for a quick re-centering of the return conveyor belt and eliminates lateral mis-tracking and is designed such that it is installed on top of the return belt thereby completely eliminating the possibility of carry back material coming in contact with the tracking system and jamming of the pivots. The tracking apparatus is provided with an inverted V-design d so that more tension is exerted at the edges which enables better tracking of the belt.
The various embodiments of the present invention disclose an apparatus, modular tracking unit and a method for conveyor belt alignment. The apparatus provides alignment sustenance and wide-angle coverage. The apparatus incudes a plurality of modular tracking units, a linking mechanism including a connecting rope passing through a link of each of the modular tracking units and a pair of guide rollers. The invention triggers the pair of guided rollers on mis-alignment of the conveyor belt from original path. The guided roller activates the linking mechanism to move the modular tracking units in tandem for re-aligning the conveyor belt.
An automatic control unit for field vulcanizing press is provided. The control unit helps to monitor and control all three essential vulcanizing parameters viz. temperature, pressure and time, either locally or through remote access. Data logging, local monitoring & control of vulcanizing parameters or remote monitoring and control of vulcanizing parameters using a smart device are the major features of this control unit in which remote monitoring and control of vulcanizing parameters is the unique feature of this control unit. A video recording unit is also provided to record entire splicing operation and also there is option for online video streaming facility and it will help to monitor the entire splicing operation from a remote-control station.
The present invention provides an air blaster 100 for removing jammed materials. The air blaster 100 includes a tank 110 filled with compressed air and a dual piston assembly 400 inside the tank 110 for triggering a blast with minimum energy loss and high impact force. The piston assembly 400 includes an inlet piston 320 connected to an outlet piston 250 with a coupling mechanism such that the inlet piston 320 and the outlet piston 250 move in tandem and pressure acting on the inlet piston 320 and outlet piston 250 pushes the assembly 400 towards top of the tank 110 thereby compressing a dampening device/spring 360. The force produced by the instant discharge of air creates a strong blast of air in the tank 110.
A 3-D belt tracking assembly to bring the mis-tracked conveyor belt (24) back on track is disclosed herein. The 3-D belt tracking assembly comprises a support frame assembly fixed across conveyor belt width to support conveyor belt, a sensing assembly to detect any deviation of the belt from its central path on conveyor structure, a plate (7), a tracking idler (25) and a connecting link mechanism/linkage. When guide rollers of the sensing assembly move towards mis-tracked belt direction, causing ball bush of the connecting link mechanism/linkage to swivel the plate (7). This further causing the tracking idler (25) to swivel and tilt, making the plate and the tracking idler (25) to raise on the side of mis-tracked belt, thereby steering mis-tracked belt back to track.
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