DE3128494A1 - Clamping device for friction-contact drives, in particular in forced-mixing concrete mixers - Google Patents

Abstract

The clamping device for friction-contact drives, in particular in forced-mixing concrete mixers, ensures in a simple manner the tractive force. For this purpose, use is made of the pneumatic or hydraulic system for the discharge flap actuation, which is available on every mixer. A clamping cylinder (13), which resets the motor rocker (6), is acted upon by the pressure generator, for example a hydraulic pump (12). Between pump or tank and cylinder, a non-return valve (14) and a throttle valve (16) are installed. Further details relate to the position of the clamping cylinder, the position of the constructional unit of the cylinder drive and to the pressure regulation. <IMAGE>

Description

The invention relates to an automatic clamping device of a friction

final drive such as a V-belt drive in concrete mixers that a pneumatic or hydraulic cylinder with the motor swing arm in MQerb-connection standsn whereby the actuating force of the actuation system of the already existing pneumatic or hydraulically operated emptying slide drive.

Wa @ sch @ the height of the drums are often saved with ring trough mixers the drive gates are arranged outside the mixing trough. The power transmission takes place then by means of multiple V-belts. Have known engine console tensioners the disadvantage that the tensioning force cannot be precisely defined, i.e. the V-belt tension can be right, just as it can be insufficient or too big.

Another disadvantage is that the clamping device is easily accessible be among other things, what with a standing at about 5 m height on a steel structure or in such a hanging mixer is not easy. An assembly platform attached below is too expensive and a hindrance for the truck mixer to pass through. Requires access from above mostly the removal of stage floor parts.

The invention is therefore based on the object of such a tensioning device to find one that tensions the drive V-belts automatically and constantly at the same level Tension holds.

g. the pneumatic or hydraulic system is pulled out for this purpose, which is necessary for the operation of an emptying slide anyway.

There is a certain pressure here due to the compressor or the pump and there is a sufficient volume of the print medium. From this pressure generation system the energy for the automatic retensioning of the V-belt drive is removed.

According to the invention, a motor swing arm is mounted in the usual way. On the opposite side of the pivot bearing, instead of a clamping screw, there is a pneumatic or hydraulic cylinders to the effect. This pneumatic or hydraulic cylinder is connected in parallel to the actuator of the discharge valve.

The tension on the V-belt can be adjusted by selecting the cylinder diameter, adjusted by adjusting the lever arm and by installing an adjustable pressure relief valve or be changed.

Such an automatic drive jig makes perfect maintenance-free operation.

The tensioning cylinder is expediently in the plane of the V-belt drive arranged.

The required non-return and overpressure valve including pressure gauge can, combined as a monitoring unit, also be arranged remotely from the mixer will.

The two pneumatic or hydraulic working circles can can also be secured separately.

The figures show an embodiment of the subject matter of the invention, 1 and 2 show a basic arrangement in plan view and side view.

3 shows the engine rocker in a front view.

FIG. 4 shows a separate protection of the clamping circuit and FIG. 5 shows the Monitoring unit away from the mixer.

The stirring tools 1, mounted on the tool carrier 2 and stored on known way in the central storage cylinder 3 are driven by V-belt drive 4 from the external drive motor 5, which is connected to 1 of the motor swing arm 6 via joints 7 is mounted on the mixer trough shell 8. In the example there is a hydraulic actuation of the discharge valve provided. Pneumatic actuation can be used in the same way can be applied. The swivel cylinder 9 can be switched over via a directional control valve 10. This directional valve is moved from the slide position via electrical limit switches 11 driven outwards (not shown for the sake of clarity). The hydraulic pump 12 runs continuously with the mixer drive 5 0 In the O position, the conveyed U1 runs free to return to the tank.

The pump pressure corresponds to the current slide resistance. Of the The tensioning cylinder 13 for the belt tension is in the forward flow via a check valve 14 15 and a throttle valve 16 parallel to this with a return to the tank on the hydraulic circuit connected for the slide actuator. The throttle valve 16 determines the clamping cylinder pending pressure. This is adjustable and thus the belt tension with a Tolerance of about -5% to be determined.

Each time the slide is actuated, the system follows the pump a pressure built up that depends on the opening kinematics of the slide, the slide resistance from mass acceleration and overcoming the friction of rest. To the system too protect, a pressure relief valve is required.

Not only when the 4/3-way valve is set to the slide opening or closing creates a pressure peak up to the set value on the pressure relief valve, already when switching the valve from the O position to an actuating position there is a short pressure peak that is sufficient to prevent pressure loss on the clamping cylinder through leakage oil on the piston, the piston rod guide9 the check valve or balance the pressure relief valve.

The effective piston area on the clamping cylinder in connection with the one to be set Pressure arn relief valve is the clamping forces and the leverage ratio adapted to the swing arm.

To compensate for leaks in the piston of the clamping cylinder, for example, there is the possibility of connecting the cylinder space on the rod side to the piston side to connect. The product of pump pressure x piston area results as the clamping force Less pump pressure x ring area on the opposite side and piston and transmission ratios are to be adapted to this lower pressure.

Finally, it is possible when using check valve 14 and pressure relief valve 16 in the design as a seat valve, the leakage oil losses or the Reduce slack in the belt tension or reduce the refill capacity get along.

The clamping cylinder can have a maximum stroke that results from the belt tension and the elastic and plastic belt extension + an assembly route.

An assembly / disassembly of the belts with a short tensioning cylinder is possible, when the clamping cylinder 13 or the swing arm mounting 7 is implemented or unhooked will.

In a modification of the inventive concept, it is possible according to FIG. 4 by Use of a second overpressure valve i8 to secure the clamping circuit separately, for example with a maximum pressure below the set maximum pressure of the discharge valve system lies. Both control loops can therefore work in different pressure ranges. pre-condition is always that the pressure range of the slide area is greater than that of the clamping circuit.

The clamping cylinder does not have to be built in piston design, it is a plunger cylinder solution is also possible.

If a ring trough mixer driven in this way is set up on a stage, then there are no problems getting to the control and pressure display. Different, when a mixer is attached to a stage below.

A maintenance platform from below would be required. This can according to the invention then omitted if, for example, the check valve 14 with pressure relief valve 16/18 and if necessary, a manometer 20 can be combined into a structural unit 19 and is accessible, for example, above the mixer platform or separately from the mixer.

This re-tensioning principle can also be used for friction wheel drives.

Position overview 1 stirring tools 2 tool carriers 3 bearing cylinders 4 V-belt drive 5 Drive motor 6 Motor swing arm 7 Joint 8 Mixing trough shell 9 Swivel cylinder 10 directional valve 11 electr. Limit switch 12 hydraulic pump 13 clamping cylinder 14 Check valve 15 Flow line 16 Throttle valve 17 Return line 18 Throttle valve 19 Assembly unit 20 pressure gauges Blank page

Claims (7)

Clamping device for frictional engagement drives, especially in concrete mixers Claims for protection 1. Clamping device for frictional engagement drives, especially for S Concrete compulsory mixers with hydraulic or pneumatic discharge slide drive characterized in that the engine rocker (6) by means of hydraulic or pneumatic Clamping cylinder (13) or storage cylinder adjustable and e.g. the V-belt tension can thus be adjusted automatically and kept constant to the hydraulic or pneumatic actuation system (9/10/11) of the mixer discharge valve connected. 2 Clamping device for friction drives, especially in concrete mixers according to claim 1, characterized in that to; that ; in the flow line (15) to Cylinder, preferably on the piston side, one check valve (14) and one in parallel for this purpose controllable pressure relief valve (16) is provided and the belt tension through the setting of this pressure relief valve in connection with the piston diameter and Lever transmission valve is determined. 3. Clamping device for frictional drives, especially for Compulsory concrete mixers according to the preceding claims, characterized in that that the tensioning cylinder (13) in the plane of the V-belt drive (4) and essentially is arranged under the mixing trough. 4. Clamping device for friction drives, especially in Concrete mixer according to the preceding claims, characterized in that Non-return valve (14) and overpressure valve / valves (16) with manometer (20) are one structural unit and are remotely mountable in an easily accessible location. 5. Clamping device for frictional engagement drives, especially compulsory concrete mixers according to the preceding claims, characterized in that the regulation of the Belt tension essentially through an adjustable pressure relief valve (16) in the tensioning circuit he follows. 6. Clamping device for friction drives, especially for Compulsory concrete mixers according to the preceding claims, characterized in that that the clamping cylinder (13) is a plunger cylinder or a membrane cylinder design is used. 7. Clamping device for friction drives, especially in Compulsory concrete mixers according to the preceding claims, characterized in that that the control circuit for the clamping device is separate from the control circuit for the discharge valve drive is secured, the set pressure of the latter being below that of the former.