WO2014166772A1 - Mixing and conveying device - Google Patents

Abstract

The invention relates to a mixing and conveying device which essentially consists of a chassis (10), which has a tow bar (14) pointing in a towing direction (12), and a plurality of functional units from the group comprising a mixing vessel (18) having a rotating mixer (20), a cooler (24), a cooling-air fan (26), and a drive motor (16). The drive motor (16) is designed as an internal combustion engine, preferably as a diesel engine, which has a crankshaft (38). Furthermore, a housing (32) for accommodating the functional units is provided. The housing is fixed with respect to the chassis, cooling air (48) can flow through the housing, and the housing has an air inlet (28) and an air outlet (30) for the cooling air (48). The mixing vessel (18) having the mixer (20) is arranged on the side of the chassis (10) opposite the side of the tow bar (14). In order to achieve optimal cooling for a given cooling-air flow, the air inlet is arranged in front of the drive motor (16) and the compressor (22) in the towing direction (12), on the side of the tow bar (14). The cooler (24) and the cooling-air fan (26) are located behind the drive motor (16) in the compressor (22) in the towing direction (12). The air outlet (30) is arranged between the cooler (24) and the mixing vessel (18) at a distance above the mixing vessel (18), the air outlet pointing upward. It is especially advantageous if the cooling-air fan (26) has a fan shaft (54) that is arranged at a lateral offset and height offset from the cooler-side end (36) of the crankshaft (38), which fan shaft can be driven by means of a second belt drive (56) coupled to the cooler-side end (36) of the crankshaft (38).

Description

 The invention relates to a mixing and conveying device for liquid mortar or liquid concrete mixed and conveyed, with a chassis which has a drawbar pointing in the direction of pull, with a plurality of functional units from the group mixing vessel with rotating agitator, liquid cooler, cooling air fan and drive motor, wherein the drive motor is designed as a combustion engine with a crankshaft, wherein a chassis fixed arranged, through which cooling air flowed through housing for receiving the functional units is provided, which has an air inlet and an air outlet for the cooling air, the compressor via a first reduction gear is coupled to one end of the crankshaft and the agitator via a belt drive and a second reduction gear to the other end of the crankshaft and wherein the mixing vessel with agitator on the side of the drawbar opposite S side of the chassis is arranged. Mixing and conveying equipment of this type are used in the construction industry for mixing and conveying of thick materials, such as liquid mortar, liquid screed, liquid concrete or the like. The mixed and conveyed material consisting, for example, of sand and a binder is fed to the mixing vessel with the addition of water via a filling opening. There, the mixing and conveying material is thoroughly mixed while the agitator is running. After completion of the mixture, the mixed and conveyed material is conveyed under the action of compressed air through a delivery line to a discharge point.

Known mixing and conveying devices of this type leave much to be desired both in terms of ease of maintenance and in terms of cooling air flow. In order to access the individual functional units in the event of maintenance, it is often necessary first to install the radiator and the cooling air unit. expand it. As far as the cooling air flow is concerned, it has not yet been sufficiently taken into account that a thermal short circuit can occur even in the outer space and that the efficiency of the cooling depends not insignificantly on the order in which the individual functional units are flown by the cooling air inside the housing.

Proceeding from this, the object of the invention is to develop a mixing and conveying device which ensures improved serviceability and improved cooling air guidance.

To solve this problem, the feature combinations specified in the claims 1 and 2 are proposed. Advantageous embodiments and modifications of the invention will become apparent from the dependent claims.

The solution according to the invention is based on the idea that the installation space within the housing is subdivided so that the individual functional units are easily accessible for maintenance purposes. Another solution is that optimal cooling air flow is only guaranteed if the following criteria are met:

The cooling air should be sucked in a dust-free area, which is arranged sufficiently far away from the filling opening of the mixer. The blowing out of the cooling air should also be sufficiently far away from the mixer opening so that no dust is whirled up and the operator is not exposed to any hot exhaust air flow. Further, the heated cooling air should be blown away as far as possible from the suction point, so that a thermal short circuit is avoided. The cooling air flow inside the housing should be optimized so that as much waste heat as possible can be absorbed and transported away into the ambient air. To achieve all of this, it is proposed according to the invention that the air inlet is arranged on the side of the drawbar in the pulling direction in front of the drive motor and the compressor, that the radiator and the cooling air fan are in the pulling direction behind the drive motor and the compressor, and that the air outlet is disposed upwardly between the radiator and the mixing vessel at a distance above the mixing vessel. Further, it is proposed according to a first variant of the solution that the cooling air fan is driven by a hydraulic motor or an electric motor and the hydraulic or electric motor is powered by a driven by the drive motor hydraulic pump or alternator. In this case, the hydraulic motor or the electric motor should be mounted fixed to the frame at a distance from the compressor in order to keep sufficient space for the accommodation and maintenance of further functional units.

A second solution variant provides that the cooling air fan has a relative to the radiator side crankshaft end offset laterally and in height arranged fan shaft which is drivable via a coupled on the radiator side crankshaft end second belt drive.

With the measures according to the invention, on the one hand, the cooling air within the housing, after entering the air inlet, is first led past the surfaces of the drive motor and the compressor in order to be able to absorb sufficient heat despite the low temperature difference. Only then is the preheated cooling air, with the aid of the cooling air fan, forced through the heat exchanger surfaces of the cooler before it is discharged via the air outlet into the outside space. Temperature measurements have shown that with such a cooling air duct, the removal of heat can be optimized. Furthermore, owing to the measures according to the invention, increased ease of maintenance is achieved in that the accessibility of the functional units is achieved in particular by the cooling air fan and its drive mechanism not disturbed. This applies both to the case of the electric or hydraulic drive of the cooling air fan as well as in the event that the cooling air fan has a relative to the radiator side crankshaft end offset laterally and in height arranged fan shaft which is drivable via a second belt drive.

An advantageous embodiment of the invention provides that the second belt drive at the same time can drive an alternator or a hydraulic pump, which may be required for the supply of further functional units nen. The fan shaft can be mounted on a steep or motor-mounted console on which the alternator can be arranged. On the other hand, the hydraulic pump can be mounted in a particularly simple manner on the crankshaft and supported by a torque arm fixed motor. The air outlet is expediently arranged above the mixing boiler, that forms an area of the filling opening of the mixing bowl shielding exhaust air curtain.

In the following the invention will be explained in more detail with reference to the embodiments schematically illustrated in the drawing. Show it

1 shows a schematic block diagram of a first embodiment variant of a mixing and conveying device in a side view;

Fig. 2 is a schematic block diagram corresponding to FIG. 1 for a second embodiment variant.

In Figs. 1 and 2, two embodiments of a designed as a screed mixing and conveying device are shown, which is intended for liquid mortar as mixed and conveyed. In both embodiments, the mixing and conveying device comprises a chassis 10, which has a drawbar 14 pointing in the pulling direction 12. The functional units of the mixing and conveying device are a drive motor designed as an internal combustion engine. tor 16, a mixing vessel 18 with a rotating agitator 20 for mixing the mixed and conveyed material, a compressor 22 for generating compressed air for the removal of the mixed and conveyed material from the mixing vessel 18, a cooler 24 for the liquid cooling of the drive motor 16 and the Compressor 22, a cooling air fan 26 and provided with an air inlet 28 and an air outlet 30, arranged on the chassis 10 housing 32 for receiving a major part of the functional units described above. The compressor 22 is connected via a first reduction gear 34 to the one end 36 of the crankshaft 38 of the drive motor 16, while the agitator 20 is coupled in the mixing vessel 18 via a belt drive 40 and a second reduction gear 42 to the other end 44 of the crankshaft 38 , In both variants, the mixing vessel 18 is located with the agitator 20 on the side of the drawbar 14 opposite side of the chassis 10. The air inlet 28 is located on the drawbar side of the housing 32 in the pulling direction 12 in front of the drive motor 16 and the compressor 22. Next the radiator 24 and the cooling air fan 26 in the pulling direction 12 behind the drive motor 16 and the compressor 22, while the air outlet 30 is disposed on the housing 32 facing up between the radiator 24 and the mixing vessel 18 above the mixing vessel. With these measures, it is achieved that the still cold cooling air 48 first flows around the functional units of the compressor 22 and the drive motor 16, which are at an elevated operating temperature, and is then forced through the heat exchanger of the cooler 24 via the cooling air fan 26. The air inlet 28 is sufficiently far away from the mixing vessel 18 and its filling opening 46, so that a dust load of the reaching into the housing 32 cooling air 48 is avoided. On the other hand, the upward-pointing air outlet arranged above the mixing vessel produces an air curtain 50 which prevents the dust which inevitably occurs when filling the mixing tank 18 from being whirled up. 1 and 2 differ mainly in the positioning of the drive motor 16 and the compressor 22. In the embodiment of FIG. 1, the compressor 22 is arranged in the pulling direction 12 in front of the drive motor 16. Accordingly, the crankshaft end 44 projecting counter to the pulling direction 12 via the drive motor 16 is free for attachment of the belt pulley 40 'of the belt drive 40, which can be connected with its second belt pulley 40 "via a short drive shaft 52 to the reduction gear 42 of the agitator 20. Another special feature of this arrangement is that the cooling air fan 26 has a relative to the radiator side crankshaft end 44 laterally and in height staggered fan shaft 54 which is drivable via a coupled on the radiator side crankshaft 44 second belt drive 56. The fan shaft 54 may be at a The second belt drive 56 can at the same time drive an unillustrated alternator or hydraulic pump, which can also be arranged on the console the crankshaft 44 end free enough space to perform maintenance on the functional units located there.

In the embodiment shown in Fig. 2, the drive motor 16 is in the pulling direction 12 in front of the compressor 22 on the chassis 10. The free end of the crankshaft 44 of the drive motor 16 is here in the pulling direction 12 forward. Accordingly, the agitator drive via the drawbar side arranged belt drive 40 and a propeller shaft 58 is somewhat more expensive than in the case of the embodiment of FIG. 1st Another special feature of the embodiment according to FIG. 2 is that the cooling air fan 26 is driven by means of a hydraulic motor 60 or an electric motor. The hydraulic motor 60 or electric motor is mounted fixed to the frame at a distance from the compressor 22. It can be powered, for example, via a hydraulic pump or alternator driven by the drive motor 16 and not shown in the drawing. The Hydraulic pump can for example be mounted on the crankshaft 38 of the drive motor 16 flying and supported by a torque arm fixed to the engine. In summary, the following should be noted: The mixing and conveying apparatus described above consists essentially of a chassis 10, which has a drawbar 14 pointing in the pulling direction 12, and a plurality of functional units from the group mixing tank 16 with rotating agitator 20, cooler 24, cooling air fan 26th and drive motor 16. The drive motor 16 is designed as an internal combustion engine, preferably as a diesel engine, which has a crankshaft 38. Furthermore, a housing 32, arranged in a chassis-mounted manner, which flows through with cooling air 48, is provided for accommodating the functional units, which has an air inlet 28 and an air outlet 30 for the cooling air 48. The mixing vessel 18 with the agitator 20 is arranged on the side of the drawbar 14 opposite side of the chassis 10. In order to achieve optimal cooling for a given cooling air flow, the air inlet is arranged on the side of the drawbar 14 in the pulling direction 12 in front of the drive motor 16 and the compressor 22. The radiator 24 and the cooling air fan 26 are located in the pulling direction 12 behind the drive motor 16 in the compressor 22. The air outlet 30 is arranged facing up between the radiator 24 and the mixing vessel 18 at a distance above the mixing vessel 18. It is particularly advantageous if the cooling-air fan 26 has a fan shaft 54 arranged laterally offset relative to the radiator-side end 36 of the crankshaft 38 and which is drivable via a second belt drive 56 coupled to the crankshaft 38 on the radiator-side end. LIST OF REFERENCE NUMBERS

10 chassis

 12 pulling direction

 14 drawbar

 16 drive motor

 18 mixing kettles

 20 agitator

 22 compressors

 24 coolers

 26 cooling air fan

28 air intake

 30 air outlet

 32 housing

 34 reduction gear

36 end

 38 crankshaft

 40 belt drive

 40 'first pulley

40 "second pulley

42 reduction gear

44 end

 46 filling opening (18)

48 cooling air

 50 air curtain

 52 drive shaft

 54 fan shaft

56 belt drive

 58 cardan shaft

 60 hydraulic motor

Claims

 Mixing and conveying device, in particular for liquid mortar or liquid concrete as mixed and conveyed goods, with a chassis (10), which has a drawbar (14) pointing in the pulling direction (12), and with a plurality of functional units from the group mixing tank (18) with rotating Agitator (20), liquid cooler (24), cooling air fan (26) and drive motor (16), wherein the drive motor (16) as an internal combustion engine with a crankshaft (38) is formed, with a fixed chassis, with cooling air (48) through-flow housing ( 32) is provided for receiving functional units, which has an air inlet (28) and an air outlet (30) for the cooling air (48), wherein the compressor (22) via a first reduction gear (34) having one end (36) of the Crankshaft (38) and the agitator (20) via a belt drive (40) and a second reduction gear (42) with the other end (44) of the crankshaft (38) is coupled and wherein the mixing vessel (18) is arranged with agitator (20) on the side of the drawbar (14) opposite side of the chassis (10), characterized in that the air inlet (28) on the side of the drawbar (14) in the pulling direction (12) the drive motor (16) and the compressor (22) is arranged that the radiator (24) and the cooling air fan (26) are in the pulling direction (12) behind the drive motor (16) and the compressor (22) that the air outlet ( 30) facing upward between the radiator (24) and the mixing vessel (18) at a distance above the mixing vessel (18) is arranged, and that the cooling air fan (26) by means of a hydraulic motor (60) or an electric motor is driven and the hydro or electric motor is powered by a driven by the drive motor (16) hydraulic pump or alternator. Mixing and conveying device especially for liquid mortar or liquid concrete mixed and conveyed, with a chassis (10) having a in Pulling direction (12) pointing drawbar (14), and with a plurality of functional units from the group mixing vessel (18) with rotating agitator (20), liquid cooler (24), cooling air fan (26) and drive motor (16), wherein the drive motor (16 ) is designed as an internal combustion engine with a crankshaft (38), wherein a chassis fixed, with cooling air (48) through which flows through housing (32) is provided for receiving functional units having an air inlet (28) and an air outlet (30) for the cooling air ( 48), wherein the compressor (22) via a first reduction gear (34) with one end (36) of the crankshaft (38) and the agitator (20) via a belt drive (40) and a second reduction gear (42) with the is coupled to the other end (44) of the crankshaft (38) and wherein the mixing vessel (18) is arranged with agitator (20) on the side of the drawbar (14) opposite side of the chassis (10), characterized gekennzeic hnet that the air inlet (28) on the side of the drawbar (14) in the pulling direction (12) in front of the drive motor (16) and the compressor (22) is arranged, that the radiator (24) and the cooling air fan (26) in Pulling direction (12) behind the drive motor (16) and the compressor (22) are that the air outlet (30) is arranged upwardly between the cooler (24) and the mixing vessel (18) at a distance above the mixing vessel (18), and that the cooling air fan (26) has a relative to the cooler end (36) of the crankshaft (38) offset laterally and in height arranged fan shaft (54) via a at the cooler end (36) of the crankshaft (38 ) Coupled second belt drive (56) is drivable. Mixing and conveying apparatus according to claim 2, characterized in that the second belt drive (56) at the same time drives an alternator or a hydraulic pump. Mixing and conveying apparatus according to claim 2 or 3, characterized in that the fan shaft (54) is mounted on a steep or motorfes console. Mixing and conveying apparatus according to claim 4, characterized in that the generator is arranged on the console. Mixing and conveying apparatus according to claim 1, characterized in that the hydraulic pump is mounted on the crankshaft (38) in a floating manner and is supported by a torque support fixed to the engine. Mixing and conveying device according to one of claims 1 to 6, characterized in that the hydraulic motor (60) or the electric motor at a distance from the compressor (22) is mounted fixed to the frame. Mixing and conveying apparatus according to one of claims 1 to 7, characterized in that the air outlet (30) above the mixing vessel (18) is arranged so that an exhaust air curtain (50) shielding the region of a filling opening (46) of the mixing vessel (18) ).