SE437337B - Device for activating cement - Google Patents

Abstract

The device, according to the invention, for the activation of cement involves at least one electromagnetic fine distribution device (18) with a mutual feeder container (12) arranged at its inlet side for the fine distribution device, which ensures that cement, via gravity, is fed into the fine distribution device (18), as well as, in series, a reception container (4) with a crusher (3) and a transport screw (8) in a housing (7) with a selection unit (9), in the form of a deployed at the screw's (8) outlet side and connected with the feeder container (12), which is equipped with an sloping bottom part (14). The selection unit's (9) sieve (11) has the shape of a rotation body which is rigidly secured on the transport screw's (8) axle, coaxially with this, and arranged together with a part of the screw (8) and the casing (7) in the container (12) for the fine distribution device above the inlet in the electromagnetic fine distribution device (18).<IMAGE>

Description

t aoos71s-s _ 2 _ transport screw (transport screw), partly a classifying means arranged at the end of the transport screw in the form of a flat screen with a body arranged in the housing, and partly a storage container, the inlet side of which is connected to the atomizing means. houses and whose outlet side for cement is connected to the common food container for the atomizing means.

The transport screw and classifying means of this known device are each provided with an independent drive device and a common means for guiding them in order for cement to be able to continuously flow out of the receiving container to the outlet side of the electromagnetic atomizing means.

The electromagnetic atomizing means of this known device comprises a working chamber of non-magnetic material, the outlet of which is closed by a net intended to pin work bodies into the chamber, which are in the form of magnetized granules of magnetically hard material, for example barium hexaferrite. _. I 20i The Chamber of Commerce's working chamber is surrounded by. an electromagnetic coil in the form of an AC-supplied solenoid, the electromagnetic field of which acts so that the magnetized, spherical (granular) working bodies atomize, tear and stir cement particles by. 25d they are caused to perform a_cootic motion; g Using the combined mechanical and magnetic influence in this known device contributes to better restoring the properties of cement. This known device is intended to operate under stationary operating conditions in industrial production departments for the production of cement or finished concrete products, since the presence of several separate drive devices, i.e. design units which do not participate in the actuation process and which act as auxiliary transport means.as well as passive intermediate construction elements, make the construction of this known device complicated and space-consuming_ and make it impossible to move this device quickly at places for. _ _- -_________ ¿. l Poon cllmuïlvr -10 '15 20 25 50 35. eoos? 1z-6 _ 3 _ immediate use of cement on construction sites and at drilling rigs. u In order to be able to continuously and uniformly transport cement through all the Lransport channels of the device, a means for additional mechanical impact on all passive intermediate construction units is also required, ie. container, which also complicates the construction of this known device. The known device for activating cement is also complicated to work with, as it requires continuous checking that the separate construction units of the device are adapted to each other with regard to efficiency. If the physical and mechanical properties of the starting cement change, this may, for example, lead to the working process of the crusher in the mounting container not being adapted to the function of the classification member arranged at the outlet side of the transport screw. As the moisture content of the starting cement, for example, increases, the efficiency of the crusher becomes higher, at the same time as the efficiency of the classifier becomes lower.

Nor does the cement flow in the known device flow uniformly through the electromagnetic atomizer as a result of not automatically checking (sensing) the cement level in the inlet container of the electromagnetic atomizer. The non-uniform cement flow through the working chamber adversely affects the degree of cement activation in the electromagnetic atomizer, reduces its service life and in separate cases leads to its cessation of function.

The main object of the present invention is to provide a device for activating cement, in which the need for all auxiliary and intermediate construction units is eliminated as far as possible by a new constructive design of the means for connecting the classification means to the feed container for the atomizing means. simplified the construction, at the same time as the device becomes easier to work with and can move in the desired way. This is achieved by means of a device for activating cement, which device comprises on the one hand at least one electromagnetic atomizing means with a common, at its inlet-arranged macar container for the fine-grinding means, which ensures that cement is fed by gravity into the atomizing means, partly a neat receiving container with a crusher and partly a transport screw arranged in series with the receiving container, in a housing arranged with a classifying means in the form of a screen, which is arranged at the outlet side of the transport screw and connected to the sloping bottom part formed with inclined bottom part for the atomizing means, wherein the view of the classifying means, according to the invention, has the shape of a rotating body which is rigidly attached to the shaft of the conveying screw coaxially therewith and arranged together with the conveying screw part the housing unit the feed container for the atomizing means above the inlet of the electromagnetic atomizer ingsorganet.

It is suitable that the transport screw with the housing is inserted into the inner cavity of the feed container for the atomizing means via a hall accommodated in the sloping bottom part of the feed container, which is formed above the inlet hole of the receiving container, the device in this being provided with a pipe socket. which is intended to connect the inner cavities of the legs to each other and inserted into the feed container for the atomizing means above the hole for the passage of the transport screw with the housing.

It is further appropriate; that the pipe socket is so designed that it is possible to change the height of the pipe socket above the sloping bottom part of the feed container for the atomizing means. The construction of the device proposed according to the present invention is substantially simplified by eliminating as far as possible all auxiliary and intermediate construction units, whereby the device becomes easier to use; can be moved in the desired direction, at the same time as the device ensures a uniform and continuous cement transport through the device- ÜÜÅUTYW 'eoos71z-6 _ 5 _ even all transport channels, i.a. through the working chamber of the electromagnetic atomizer.

The invention is described in more detail below with reference to the accompanying drawing, in which the fin shows one. Fig. 5 is a perspective view of the device according to the invention for activating cement, a partially sectioned view of the zones of the device, where the crusher and the feed container for the atomizing means are arranged, and a section through W the electromagnetic atomizing means, Fig. 2 shows a longitudinal section by a second embodiment of the device according to the invention, in which the electromagnetic atomizing means is arranged in a different way in relation to the feed container for the atomizing means, Qfig. Fig. 5 shows a partially sectioned perspective view of a possible embodiment of the feed container for the atomizing means and the relative position of the atomizing means, Fig. 4 shows a perspective view of an embodiment of the feed container for the atomizing means and their position if several electromagnetic atomizing means were used. Fig. 5 shows a front view of a further embodiment of the feed container for the atomizing means and the mutual position of the transport screw in the housing, the electromagnetic atomizing means and the feed container for the same, Fig. 6 shows a top view of that in Fig. 5. Fig. 7 shows a top view of the transport screw in the housing, the electromagnetic fine-graining member and the natural bone member of the fine-grained members at a different relative position for these structural nets, and Fig. 8 shows a longitudinal section through 50, the one with a pipe socket provided with the device according to the invention for activating cement. The device for activating cement is arranged on foundation 1 (Fig. 1). There is arranged a crushing chamber 2 with a crushing 5, which is arranged in a lower part - 55 of a receiving container 4 with a restriction grid. 5.

The crushing chamber 2 is connected through a passage channel 6 to an inner cavity in a transport screw (a transport screw) 8 housing 7, which has the shape of a tube. // / p on o ___ '“NSÅÅTY ~ _ g 10 15¶ 20 25 50 55 eaods71z-6 _ 5 _ At the outlet side of the transport screw ö, a classifying member 9 is arranged, which consists of a stationary screw (a screw) 10 and a. sieve ll in the form of a rotating body. The view shown in the drawing ll has the shape of a cylinder.and is rigidly attached to the shaft 8 of the transport screw coaxial therewith.

The screen 11, together with a part of the crane screw e down nueet 7 enerdned 1, is a neterbenaiiere 12 for atomizing means, which is provided with vertical walls 15 and an inclined bottom part 14. An opening 15 received in the inclined bottom part 14, through which the transport screw e down the nose 7 'is inserted into the inner nair of the neterbenaiiarene 12, is sealed. In the lower part of the feed container 12 an opening 16 is accommodated, through which the inner needle space of the food container l2 is connected to a network sensor 17 in a single electromagnetic fine distribution means 18. The opening 15 for passage of the transport screw 8 with the housing 7 is accommodated in the inclined bottom part 14 above the inlet (opening 16) in the working chamber 17 of the atomizing member 18, which houses working bodies 19 in the form of magnetized granules of magnetically hard material, for example barium hexaferrite. .

The working chamber 17 of the atomizing member 18 is surrounded by electromagnetic coils 20 and bridged at the outlet side by a net 21, which is intended to hold the working bodies 19 in the chamber 17.

The electromagnetic coils 20 are supplied with alternating current.

The crusher 5, the conveying screw 8 and the classifying means 9 have a single common drive device 22, which is connected to these movable structural elements by means of a mechanical transmission 25.

Fig. 2 shows that in this embodiment the atomizing means 18 is arranged coaxially with the housing 7 of the conveyor screw 8, while its coils 20k are arranged around the conveyor screw 8 with the housing 7 and are supplied from the AC mains via a voltage regulator 24. in Figs. 5 shows somewhat closer to the relative position of the rejection / ÄV * in the bottom part 14 of the food container 12, the chamber 17 and coil 20 of the atomizing means. The food container 12 for the atomizing means shown in Fig. 5 has a conical lower part . . the bottom part 14 of the food container 12 can also be built up in the form of several, for example four, as can be seen from fig. 4, cones, which are connected by means of an armhole in the form of four interconnected half-cylinders.

The bottom part 14 of the feed container 12 thus formed makes it possible to arrange at the outlet of the container 12 several - (four) atomizing means 18, the outlets of which are further connected by means of a common manifold.

The cones of the bottom part 14 of the feed container 12 are arranged symmetrically with respect to each other and the longitudinal axis of the screw island. The constructive design of the hot part 14 of the feed leg 12, which consists of two cones, which are also arranged symmetrically with respect to each other and the longitudinal axis of the screw 8, is shown in Figs. 5 and 6. In this embodiment, the atomizing means 18 can be combined. , horizontally and vertically are arranged on separate outlet pipes and on a common manifold. In addition, the two cones of the bottom part 14 of the feed container 12 can be arranged asymmetrically with respect to the longitudinal axis of the transport screw 8, as can be seen from Fig. 7.

The device for activating cement shown in Fig. 8 is provided with a pipe socket 25, which is intended to connect the inner cavities of the receiving container 4 and the feed container 12 for the atomizing means to each other. one end of the nosseueen 25 is inserted into the cavity of the feed container 12 through an opening 26 which is received above the opening 15 for passage of the screw 8 with the housing 7 and above the inlet hole in the receptacle, 4, while the other, lower end of the pipe nozzle 25 is inserted into the lid 27 of the container 4. The pipe nozzle 25 can, as shown in the drawing, be made so that its pleasure above the feed leg 12 E | 11hÅ1IT \ {10 _15 20 25 EQ _55. _ 80054713-6 _ 32- inclined This is ensured by the tube nozzle 25 being designed as a composite telescopic construction unit consisting of a lower stationary pipe nozzle 28, an upper movable pipe nozzle 29 and a mounting bracket 50. The device according to the invention for activating cement operates in the following manner .

The cement to be activated is fed into the container 4 (fig. 1), in the form of pieces, the size of which is not greater than the mesh width of the net 4 of the container 4. After the cement pieces have passed through the net 5, they are inserted into the crushing chamber 2 in the zone where the crusher 5 is active. After the cement has been crushed, it flows through the passage channel 6 into the housing 7 hbs transport screw 8, by means of which the cement is fed upwards to the classifying means 9, at the same time as it is demolished and comminuted. The cement particles, the size of which is not greater than the mesh size in the cylindrical screen 11, pass through the meshes 11 of the screen 11 and are fed into the container 12 for the atomizing means, which ensures that the cement is fed by gravity (weight) into the working chamber of the electromagnetic atomizing means 18. 1? along the sloping bottom part 14 of the container 12 and further through the opening 16. 2 After corresponding treatment by means of the working bodies 19, the activated cement is removed through the net 21 from the device. . The function of all rotating mechanisms, i.e. the crusher 5, the conveyor screw 8 and the sight 11 of the classification unit 11, is ensured by the common drive device 22 via the mechanical transmission 25. '.

The function of the atomizing means 18 is ensured by electromagnetic action of the players 20 (Fig. 2); 2 which are fed from the AC mains via the voltage regulator 24, which makes it possible to control the cement treatment quality. e_ _ By the conveyor screw 8 and the mechanical transfer 25 transmitting vibrations to the walls of the containers 4 and 10 15 20 25 50 55 8005713-6 _9 .. l2, the cement passage through the said.organ is considerably facilitated, so that it is possible to do without extra vibrators.

The cement activation quality and the continuous operation of the device are affected by the fact that the cement layer is continuous in the container 12 from the opening 16, in that the efficiency of the crusher 5 of the transport screw 8 and the classifying means 11 (Fig. 1) is considerably higher than that of the electromagnetic atomizer 8. For example, the cement may be collected and compressed in the container 12, which may lead to a possible interruption of operation of the device due to the cessation of the feeding of the material into the working chamber 17 in the electromagnetic atomizing means 18. The arrangement of the pipe nozzle 25 (Fig. 8), which connects the cavities of the containers 4 and 12 to each other, makes it possible to preset the thickness of the cement layer above the opening 16 depending on the height of the upper end of the pipe nozzle 25 above the inclined bottom part of the container 12. 14.

Because the pipe socket 25 is made telescopically, the thickness of the cement layer above the opening 16 can be adjusted.

If you want to produce a mixture of powder material in parallel with cement activation, you can arrange receiving containers 4, which are connected to the common transport screw 8 by means of the channels 6.

The components of the mixture meet in the vicinity of the underlying screw thread of the screw 8 and are mixed with each other. The mixing process is continued at the same time as the materials move upwards via the screw 8 in the housing 8, in the classifying means 11 and in the electromagnetic atomizing means 18.

The device according to the invention can preferably be used for activating cement, which has been transferred to lump form during storage, which has partially lost a number of physical and mechanical properties. 8 fííí "___.__ l 1 Pooí” c QUALITY

Claims (3)

eoosv1ö + s 10 15 20 25 30 _ 10 _ PArENTmAv 5 Device for activating cement comprising at least one electromagnetic atomizing means (18) with a common feed container (12) arranged at its inlet for the atomizing means, which ensures that cement is introduced by gravity into the atomizing means (18), and in series with each other connected receiving containers (4) with a crusher (5) and transport screw (o) in a housing (V) with a classifying means (9) in the form of a screen (11), which is arranged at the outlet of the screw (8) and connected to the container (12), which is provided with an inclined bottom part (14), characterized in that the sieve (9) of the classifying member (9) has the shape of a rotating body, which is rigidly attached to the shaft (8) axis_coaxially with this and arranged together with a part of the screw (8) with the housing (7) in the lowering means (12) for the atomizing means above the inlet of the electromagnetic atomizing means (18). 2 'n Device according to Claim 1, characterized in that the transport screw (8) with the housing (7) is inserted into the inner cavity of the feed container (12) through an opening (15) accommodated in the bottom part (14) of the container (12) which is formed above the opening of the pipe opening (n), and in that it is provided with a pipe socket (25), which is intended to connect the inner cavities of the containers (4 and 12) to each other and inserted into the container (12) above the hole (15) for passage of the transport screw (8) with the housing (7). Device according to cartridge nozzles 2, core node in that the pipe socket (25) is so designed that one can change the door above the bonaiiorono (12) iorando oorrondoio (14). -