PL240294B1 - Tranfer unit for screw conveyors with parallel shafts, for quick-hardening semi-liquid or plastic material, especially fast-setting concrete - Google Patents

Description

PL 240 294 B1

Description of the invention

The subject of the invention is a transfer unit of screw conveyors with parallel shafts, used in the transport line of fast-hardening semi-liquid or plastic material, especially fast-setting concrete.

Transport of fast-hardening materials, even under the conditions of pumping through a pipeline, is fraught with the problem of rapid growth of the boundary layer with throttling of the flow and the necessity of cyclical cleaning. For example, in the construction industry, when transporting fast-setting concrete forced through a steel pipeline with pumps, cleaning of the pipeline must be performed every several minutes, and most often it consists in the following steps: gravitational emptying of an inclined, vertical pipeline or after its inclination and with a significant narrowing of the pipeline cross-section, its mechanical cleaning from hardening concrete, washing the internal surface with water and for additional mechanical cleaning using, for example, a ball elastic element, pushed several times along the length with the energy of compressed air. In the unloading device according to US6722489A, intended for loose materials, the rotary transfer unit between the screw conveyors has a hollow internal space, because there is no problem of material sticking to the surface and throttling the flow by the growing hardened layer of material. In the conditions of transport of fast-hardening materials through series-connected screw conveyors, the problem of cleaning is less important for the lengths of the troughs, which are continuously cleaned with the edges of rotating screws, screw bands or blades, while cleaning of the stationary internal surfaces in the hopper housings is troublesome and difficult. This problem cannot be solved - similarly to the solution according to the description of PL180840B1 - by the use of a flexible sleeve of a length enabling external deformation at the discharge point with simultaneous crushing of the hardened material inside, because the concrete binds very tightly to the wall of the sleeve and hardens rapidly. The solution is used in specialized, mobile machines for the construction and repair of road pavements, in which the transport and preparation of the bituminous or concrete pavement mixture is carried out with the use of combined screw conveyors - for example, presented in the descriptions EP0467255A1, FR1435083A, US2019010667A1 and US8167513B2 - transfer units between screw conveyors their housings are empty inside, without elements preventing or facilitating their cleaning. When transporting concrete, openings covered by a hinged cover can be made in the pouring housing, which allows access to and washing the interior with a stream of water.

In the technology of transport with screw conveyors, there are also known solutions - for example, according to the patent description FR1435083A and the Polish utility model PL67472Y - in which two screw conveyors connected in series through the overfill housing have parallel shafts and are connected by a non-skid mechanical, toothed or chain transmission - which enables the drive of both conveyors by one of the dikes.

The solution of the transfer unit according to the present invention is to simultaneously fulfill the functions of transmitting the drive between the shafts of both screw conveyors and continuous cleaning of the walls of the transfer space in the conditions of transport of rapidly hardening materials, especially concrete.

The transfer unit according to the invention has a cover for the transfer space and the ends of the shafts of the feeding and receiving conveyors mounted in opposite side walls, which are coupled to each other by a mechanical transmission. The invention is distinguished by the fact that the mechanical transmission is a toothed gear with a bearing in the housing - between the shafts of the feeding conveyor and the receiving conveyor - with an intermediate shaft. At both ends of the intermediate shaft and at both side walls of the housing, cylindrical intermediate gears are mounted, respectively connected to the upper gear and lower gear fixed at the ends of the shafts of both conveyors. All gears have the same pitch diameters. The spaces of cooperation of both meshed pairs of gears are separated in the housing by two internal walls, between which there is a transfer space. In the transfer space, flat blades rotate in one plane: a feeding blade mounted on the shaft of the feeding conveyor, a transfer blade on the intermediate shaft and a collecting blade on the shaft of the receiving conveyor. All the vanes have widths equal to the width of the pouring space, while the feeding and collecting vanes have lengths equal to the outer diameters of the thrusting elements mounted on the shafts of both

Claims (5)

PL 240 294 B1 conveyors. The transfer vane has a longer length, its outer edges delineate a circular trajectory penetrating the circular trajectories of the edges of the feeding and receiving vanes. The meshing of the gears determines the passing of the blades in the penetration zones in mutually perpendicular positions. The front walls of the housing in the area of the transfer space preferably have an internal surface formed according to the contour of the circular trajectories of the blades. It is also preferred that the rake surfaces of the cross-sections through the feeding and transfer vanes are parallel to the axis of the shafts of the feed conveyor and the intermediate shaft, while the collecting vane has rake surfaces inclined in the direction of the helix of the thrusters mounted on the shaft of the receiving conveyor. An embodiment is also preferred in which the feed vane and the transfer vane have wings deflected against the direction of the angular velocity. The solution of the transfer unit having the above-mentioned technical features ensures continuous mechanical cleaning with the rotating blades of the entire inner surface of the walls of the transfer space from the particles of fast-setting concrete adhering to it, with the effect of preserving the entire transfer space for material transport. A full understanding of the invention will enable the description of an exemplary embodiment of a transfer unit in a mobile concrete paver for the load bearing layer of the road pavement located below. The transfer unit is shown schematically in the drawing, Fig. 1 shows the unit in a vertical axial section, and Figures 2 and 3 show the sections in succession by lines A-A and B-B in Fig. 1. The transfer unit has a housing 1 for a transfer space 5 between a worm feed conveyor and a vane receiving conveyor, the shafts 2 and 3 of which are arranged in a parallel horizontal plane. The ends of the shafts 2 and 3 are introduced into the housing 1 and bearing in the opposite side walls 1a and are connected by a cylindrical gear to the intermediate shaft 4 situated between them. At the ends of the intermediate shaft 4, at both side walls 1a of the housing 1, toothed wheels z2 are attached, respectively connected to the upper gear wheel z1 and the lower gear wheel z3 fixed at the ends of the shafts of both conveyors 2 and 3. All gears z1, z2, z3 of the transmission have the same pitch diameters. The spaces of cooperation of meshed pairs of gears z1, z2 and z2, z3 on both sides of the housing 1 are separated by two internal walls 1b, between which there is a transfer space 5. In the transfer space 5 three flat blades rotate in one plane: feeding blade 5a - mounted on the shaft of the feeding conveyor 2, the transfer vane 5b - fixed on the intermediate shaft 4 and the collecting vane 5c on the shaft of the receiving conveyor 3. All the blades 5a, 5b, 5c have a width equal to the width b of the transfer space 5b, and its front walls 1c have an inner surface shaped according to the outline of the circular trajectories of the blades 5a, 5b and 5c. The feeding vane 5a and the collecting vane 5c have lengths equal to the outer diameters of the pushing elements da and dc mounted on the shafts of both conveyors 2 and 3. The transfer vane 5b has a length db greater than the blades 5a and 5c and its outer edges define a circular trajectory penetrating the circular trajectories da and dc for feed vane 5a and discharge vane 5c. The meshing of the toothed wheels z1, z2, z3 determines the passing positions of the blades in the penetration zones at mutually perpendicular positions. In transverse sections, the feed vanes 5a and 5b have rake surfaces parallel to the axis of the shafts of the feed conveyor 2 and the intermediate shaft 4, and their wings are moreover deflected against the direction of angular velocity ω. This configuration promotes the centrifugal ejection of material towards the collecting vane 5c, which in turn has a rake face inclined in the direction of the helix of the blades fixed on the shaft of the collecting conveyor 3. The drive of the screw conveyors connected by the transfer unit according to the invention can be supplied by one of the selected shafts: the feed conveyor 2, through the intermediate shaft 4 or the shaft of the receiving conveyor 3 - which allows for spatial optimization of the structure. Patent claims 1. A transfer unit for screw conveyors with parallel shafts, for fast-hardening semi-liquid or plastic material, especially fast-setting concrete, containing a transfer space housing and the ends of the shafts of the feeding and receiving conveyors, bearing in the opposite side walls of the housing, which are coupled They are connected with each other by a mechanical transmission, characterized in that the mechanical transmission is a toothed transmission with a bearing in the housing (1) between the shafts of the feeding conveyor (2) and the receiving conveyor (3) by an intermediate shaft (4), which at the ends at both side walls of the housing (1a) there are intermediate cylindrical gears (z2) connected to the upper gear wheel (z1) and lower gear wheel (z3) fixed at the ends of the shafts of both conveyors (2, 3), and all gear wheels (z1, z2, z3) have the same pitch diameters, while the spaces of cooperation of both meshed pairs of gears (z1, z2 and z2, z3) are separated in the housing (1) by two internal walls (1b), between which there is a transfer space (5), in which the flat blades rotate in one plane: - the feeding blade (5a) mounted on the shaft of the feeding conveyor (2), the transfer blade (5b) on the intermediate shaft (4) and the receiving conveyor shaft (3) collecting blade (5c) - all with a width equal to the width of the transfer space (b), while the feeding (5a) and collecting blades (5c) have lengths equal to the external diameters of the pushing elements (da, dc) mounted on the shafts of both conveyors (2 and 3), while the transmitting vane (5b) has a length (db), the outer edges of which define a circular trajectory penetrating the circular trajectories (da, dc) of the feeding (5a) and receiving (5c) blades - at the meshing of the toothed wheels (z1, z2, z3) constituting the passing of the blades (5a, 5b, 5c) in the penetration zones in mutually perpendicular positions. 2. A transfer unit according to claim A method as claimed in claim 1, characterized in that the face walls (1c) of the housing (1) in the area of the transfer space (5) have an inner surface formed according to the contour of the circular trajectories of the blades (5a, 5b, 5c). 3. A transfer unit according to claim The rake surface according to claim 1, characterized in that, in cross-sections through the feeding (5a) and transmitting (5b) vanes, the rake surfaces are parallel to the axis of the shafts of the feeding conveyor (2) and the intermediate shaft (4), while the collecting vane (5c) has an inclined rake face. in the direction of the helix of the thrusting elements mounted on the shaft of the receiving conveyor (3). 4. A transfer unit according to claim The method of claim 1, characterized in that the feed vane (5a) and the transfer vane (5b) have wings deflected in the opposite direction to the sense of their angular velocities (ω). List of symbols in the drawing 1. Housing 1a. Sidewall 1b. Inner wall 1c. The front wall 2. The shaft of the feed conveyor 3. Shaft of the receiving conveyor 4. Intermediate shaft 5. Transfer space 5a. Feeding paddle 5b. Transfer paddle 5c. Collecting vane z1. Upper gear wheel z2. Intermediate gear z3. The lower toothed wheel will give. The diameter of the db. The diameter of the dc transfer vane. The diameter of the collecting vane b. Width of the discharge space ω. The angular velocity of the blade