WO2014166771A1 - Mixing and conveying device having a tensioning device for a traction-means drive - Google Patents

Abstract

The invention relates to a mixing and conveying device (10), in particular for mortar or concrete as a material to be conveyed, comprising a supporting frame (18), a drive motor (12), which is preferably designed as a diesel engine and to which a mixer of a frame-fixed mixing vessel (16) and a compressor (14) for generating conveying air are coupled, wherein a transmission (20) for reducing the driving rotational speed for the mixer is arranged between the drive motor (12) and the mixer, which transmission is driven by a traction-means drive (24, 26, 28), and a tensioning device (30) for a traction means (28) of the traction-means drive is arranged on the supporting frame (18). According to the invention, in order to create a traction-means drive having a tensioning device for the transmission (20) that has a simple design and thus is economical, the transmission (20) is connected on the output side to a mixer drive shaft and is arranged in such a way that the transmission can be pivoted about an axis of rotation (22) of the mixer drive shaft and the tensioning device (30) is articulated to the transmission (20) at a distance from the axis of rotation (22) of the mixer drive shaft, wherein the traction-means tension can be adjusted by pivoting the transmission (20) about the axis of rotation (22) of the mixer drive shaft.

Description

 The invention relates to a mixing and conveying device, in particular for mortar or concrete as conveyed, with a support frame, preferably designed as a diesel engine drive motor, on the one hand, a mixer of a frame-fixed mixing tank and the other a compressor for generating conveying air are coupled, wherein between the drive motor and the mixer driven by a traction drive gear for reducing the drive speed for the mixer and on the support frame a clamping device for a traction means of the traction drive is arranged. Devices of this type are used in the construction industry for mixing and conveying building materials such as flowable mortar and concrete, in particular as integrated units for the application of screed on building floors. The building materials are filled in suitable proportions together with water in the mixing vessel and mixed there. The delivery to the destination takes place via a hose line by means of the conveying air generated by the compressor.

Since the operating speed of the drive motor is regularly much higher than the mixing speed required for mixing a reduction gear is arranged between the drive motor and the mixer drive shaft, wherein the power transmission from the crankshaft of the drive motor to the input shaft of the transmission usually by a belt drive designed as a belt drive he follows. In order to be able to compensate, for example, the elongation of the belt during operation, a tensioning device is required, wherein it should be taken into account that the mixing mechanism generates reaction moments which are to be absorbed. In a known construction, the transmission is for transferring the reaction moments over speaking connecting means fixed to the support frame, so that the center distance crankshaft transmission input shaft is substantially invariable. The belt is tensioned by a so-called crescent roll, which is pressed against the belt by a pneumatic cylinder, whereby a spring limits the pressure force and thus the belt tension. Due to the large number of components required to implement this construction, there is a need for a structurally simpler solution. Proceeding from this, the object of the present invention is to make a mixing and conveying device of the type mentioned in such a way that a traction drive is realized with clamping device for the transmission of power from the drive motor to the transmission with the simplest possible means.

To solve this problem, the feature combination specified in claim 1 is proposed. Advantageous embodiments and modifications of the invention will become apparent from the dependent claims. Some of the previously required components can be omitted if the transmission according to the invention connected on the output side with a mixing drive shaft and pivotally mounted about the axis of rotation and the tensioning device is articulated at a distance from the axis of rotation of the mixing drive shaft to the transmission, wherein the traction means by a pivoting of the transmission to the axis of rotation of the mixer drive shaft is adjustable. Preferably, the traction mechanism drive is designed as a belt drive and the traction means is a V-belt or a poly-V belt. In general, a frictional traction drive is preferable to a form-fitting, since then can easily realize a coupling function. When the traction means is relaxed, there is no transmission of power to the transmission, so that the mixer rests. The transmission is not fixedly arranged on the support frame, so that the corresponding fastening components omitted. The required absorption of reaction moments, even with a blockade of the mixer, via the clamping device itself.

In a preferred embodiment of the invention, the tensioning device preferably designed as a pneumatic or hydraulic actuator with a piston rod whose free end is articulated to the transmission, wherein the actuator is arranged supporting frame fixed to exert force on the transmission can.

To limit the belt tension, a spring element is arranged between the actuator and the transmission, which may be formed in particular as coaxial with the piston rod arranged coil spring. Suitably, a first spring plate and on the support frame a passage opening for the piston rod exhibiting second spring plate for supporting the coil spring is arranged on the piston rod. In addition, a second spring may be provided which receives reaction moments originating from the mixer. Alternatively, a pressure limiting valve for the actuating member designed as a pneumatic or hydraulic cylinder may be provided for this purpose.

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

Fig. 1 a and b is a side view and an end view of a mixing and conveying device with a gearbox for the mixer with a clamping device; and FIGS. 2a and b show the transmission and the tensioning device according to FIG. 1 in FIG

Hibernation and operating state. As shown in FIG. 1, the mixing and conveying apparatus 10 shown essentially consists of a drive motor 12, a compressor 14 for producing conveying air for the mix, a mixing vessel 16 and a support frame 18 for the aforementioned components. The device also has not shown suspension components, so that it can be easily transported as a trailer to the respective locations.

Between the drive motor 12 and arranged in the mixing vessel 16 mixing a gear 20 is arranged, which is designed as a reduction gear to reduce the rotational speed of the drive motor to a suitable speed for the mixer. The output shaft of the transmission 20 is directly connected to the mixer drive shaft, so that the transmission is pivotable about the axis of rotation 22 of the mixer drive shaft. The transmission is therefore not firmly connected to the support frame 18.

2a and 2b, the transmission 20 is shown separately with its drive and a tensioning device 30. Fig. 2a shows the tensioning device 30 in a rest position, in which the belt is unstressed and no power is transmitted from the drive motor 12 to the transmission 20, so that the mixer rests. Fig. 2b shows the belt in the cocked position in which the gear 20 is pivoted relative to its position in Fig. 2a by means of the clamping device 30 in a clockwise direction about the axis of rotation 22. There is a power transmission from the drive motor to the transmission and thus the mixer.

The power transmission from the drive motor 12 to the transmission 20 is effected by a belt drive designed as a belt drive. This comprises a first, on a crankshaft stump of the drive motor 12 arranged Riemensscheibe 24 and a second, arranged on the input shaft of the transmission 20 pulley 26 and a belt looping around them 28, which may be a V-belt or, for better transmission of high torques, a poly-V belt.

The belt 28 must have a predetermined tension in order to transmit the force required for the mixer without unduly high slip. It should be noted that the belt lengthens during operation, especially in the initial phase of its lifetime. This must be compensated accordingly to ensure a constant belt tension. Furthermore, during operation of the mixer, reaction moments occur which have to be absorbed. Finally, it is useful if the mixer can be decoupled from the drive. Since the transmission output shaft is rigidly connected to the mixer drive shaft, this can only be done by reducing the belt tension to zero. All these requirements are achieved in the illustrated mixing and conveying device by the simply designed clamping device 30.

The tensioning device 30 comprises a pneumatic cylinder 32 which is fixedly arranged on the support frame 18 by means of a mounting plate 34. The pneumatic cylinder 32 has a piston rod 36, which extends up to the transmission 20 and is pivotably articulated thereto by means of a pivot bearing 44. By extending the piston rod 36, the gear 20 is pivoted about the axis 22 while the belt 28 is tensioned. Coaxially to the piston rod 36, a helical spring 38 is arranged, which is supported on a piston rod-fixed spring plate 40 and a support frame fixed spring plate 42 and which serves to accommodate the reaction moments. The belt tension is limited by an unspecified, but generally known from pneumatic engineering, pressure relief valve for the pneumatic cylinder 32. In summary, the following should be noted: The invention relates to a mixing and conveying device 10, in particular for mortar or concrete as conveyed, with a support frame 18, a preferably designed as a diesel engine. Deten drive motor 12 to which on the one hand a mixer of a frame-fixed mixing vessel 16 and on the other a compressor 14 are coupled to generate conveying air, between the drive motor 12 and the mixer one of a traction drive 24, 26, 28 driven gear 20 for reducing the Drive speed for the mixer and on the support frame 18, a clamping device 30 is arranged for a traction means 28 of the traction drive. In order to provide a structurally simple and therefore cost-effective traction mechanism drive with tensioning device for the transmission 20, it is proposed according to the invention that the transmission 20 is connected on the output side to a mixing mechanism drive shaft and pivotable about its axis of rotation 22 and the clamping device 30 at a distance of the axis of rotation 22 of the mixer drive shaft is articulated to the transmission 20, wherein the traction means voltage is adjustable by pivoting the gear 20 about the axis of rotation 22 of the mixer drive shaft.

Claims

claims

1 . Mixing and conveying device (10), in particular for mortar or concrete as conveyed, with a support frame (18), preferably a drive motor (12) designed as a diesel engine, to which on the one hand a mixing unit of a frame-fixed mixing vessel (16) and on the other a compressor (14) for generating conveying air are coupled, wherein between the drive motor (12) and the mixing unit by a traction drive (24, 26, 28) driven gearbox (20) for reducing the drive speed for the mixer and on the supporting frame

(18) a tensioning device (30) for a traction means (28) of the traction drive is arranged, characterized in that the transmission (20) connected on the output side with a mixing drive shaft and about its axis of rotation (22) is pivotally mounted and the tensioning device (30 ) is articulated at a distance from the axis of rotation (22) of the mixer drive shaft to the transmission (20), wherein the traction means is adjustable by pivoting the transmission (20) about the axis of rotation (22) of the mixer drive shaft.

2. mixing and conveying apparatus according to claim 1, characterized in that the traction mechanism (24, 26, 28) is designed as a belt drive and the traction means (28) is a V-belt or a poly-V belt.

3. mixing and conveying apparatus according to claim 1 or 2, characterized in that the clamping device (30) preferably designed as a pneumatic or hydraulic cylinder (32) actuating member having a piston rod (36) whose free end to the transmission ( 20) is articulated.

4. mixing and conveying apparatus according to claim 3, characterized in that the actuating member (32) is arranged fixed to the frame.

5. mixing and conveying apparatus according to claim 3 or 4, characterized in that between the actuating member (32) and the transmission (20) at least one spring element (38) for limiting the force acting between the actuator and the transmission force and / or for receiving of reaction moments is arranged.

6. mixing and conveying apparatus according to claim 5, characterized in that the at least one spring element as coaxial with the piston rod (36) arranged coil spring (38) is formed.

7. mixing and conveying apparatus according to claim 6, characterized in that on the piston rod (36) has a first spring plate (40) for the coil spring (38) and on the support frame (18) has a passage opening for the piston rod exhibiting second spring plate (42 ) is arranged for the support of the coil spring (38).

8. mixing and conveying device according to one of claims 3 to 7, characterized by a pressure relief valve for the pneumatic as the hydraulic cylinder (32) formed actuator.

9. mixing and conveying device according to one of claims 1 to 8, characterized in that in a rest position of the tensioning device (30), the traction means (28) is de-energized and no force from the drive motor (12) to the transmission (20) is transferable ,