DE2743430A1 - Contra-rotating vibrator for concrete moulding machines - has gearwheel motor using connecting gear wheels of unbalanced bodies as rotors - Google Patents

Abstract

The vibration exciter has two contra-rotating unbalanced bodies (1, 2) on parallel axes positively connected together by two gear wheels (15, 16) which form the rotary members for a gearwheel motor (18) which drives the vibrator. This reduces construction costs since individual drive motors with intermediate gearing are no longer required. The gearwheel motor can be used with oil under pressure wherein the outlet side of the motor can be provided with a throttle valve for the flow of same. The motor can be designed as a separate unit from the vibrator and can be regulated within a large speed range with a sudden change from acceleration to deceleration.

Description

Title: Counter-rotating vibration exciter

Description: The invention relates to a counter-rotating vibration exciter for directed vibrations with two unbalanced bodies rotating against each other axes parallel to one another, which form-fit with one another by means of two gears are connected.

When compacting concrete moldings, in addition to circular vibrators often counter-rotating vibration exciter for generating directed vibrations used because with these directed to the material to be compacted abruptly or abruptly effective shaking movements can be exerted. With such a counter-rotating vibration exciter only one of the two unbalance body axes is driven during the rotation of the second unbalanced body is derived from the first, driven one. To transfer This rotational movement is used by gears, which ensure that the unbalanced bodies run in perfect harmony ensure. As a rule, the vibration exciters are driven by electric motors. The constantly increasing demands on the performance of these devices lead to always larger vibration exciters and drive motors.

Therefore, the invention is based on the task of driving a Counter-rotating vibration exciter, in particular by saving drive elements to simplify and cheaper.

To solve this problem, the counter-rotating vibration exciter is the initially mentioned type according to the invention characterized in that to his Drive a gear motor is provided, the rotating members of the gears Are unbalanced bodies.

By the inventive use of the connecting gears a Counter-rotating exciter to form a gear motor to drive the vibration exciter Significant simplifications and savings are achieved. So there is no need for a separate one Drive motor with intermediate gear, while on the other hand the per se necessary Connecting toothed rider only need to be provided with an appropriate housing. Since both compressed air and pressure oil are available on fleton molding systems, there are no additional expenses for the procurement of a suitable printing medium necessary. Another advantage is that a gear motor is easier to use Way in a large speed range with rapid T1 change between n ^ acceleration and regulate delay. Because the tooth mesh is relieved of the tooth pressure forces there is wear and tear and the noise of the gear wheel running even at high speed very low.

It is advisable to dimension the teeth of the gears according to the Requirements of a powerful gear motor determined. Straight-toothed ones are well suited Gears that were usually already used as connecting gears.

On the other hand, there are also helical or arrow-shaped teeth Gears usable. After the usual pressure of e.g. 100 bar, only around 50% smaller face widths than necessary for reasons of strength and wear the housing width and thus also the leakage losses can be kept very small which in turn benefits the efficiency.

Other features and advantages of the invention are as follows Description of exemplary embodiments that are shown in the drawing to remove. They show: Fig. 1 a longitudinal section through a first embodiment, FIG. 2 shows a section along line 11-11 of FIG. 1, FIG. 3 shows a longitudinal section through another embodiment, Fig. 4 is a section along the line IV-IV of 3, 5 show a longitudinal section through a further embodiment and FIG. 6 a section along the line VI-VI of FIG. 5.

The C1 counter-rotating vibration exciter shown in FIGS. 1 and 2 consists of the two unbalanced bodies 1 and 2, which are arranged parallel to each other and are driven in opposite directions to each other. Since these are adjustable unbalance bodies is, each is composed of the partial bodies 3 and 4, which are on the coaxial Axles 7, 8 are formed and housed in a housing 11 by means of bearings 9, 10 are. Adjusting devices are provided at one of the shaft ends protruding from the housing 14 provided, by means of which a partial imbalance, e.g. the inner imbalance 3 opposite the other, the outer 4 rotated and thus the effective unbalanced mass of the unbalanced bodies 1, 2 can be changed.

Instead of the simple adjustment devices shown, they have to be done by hand and can only be operated while the vibration exciter is at a standstill, Of course, other facilities that have a stepless automatic setting can also be used allow during the excitation run, be provided.

So far, the drive of such a vibration exciter has been carried out huber an extension (not shown) of the drive axis n from an electric motor or another drive unit from and via the gears 15, 16, which the connect the two axes 8 of the unbalance bodies to one another, so now form these Gears the rotating members of a gear motor 18.

For this purpose, the two gears 15, 16 are in one housing 19 enclosed, the example of the side housing walls 20, 21 and one Uafangswand 22 is made. The housing encloses the gears and also their gears 23, 24 as close as possible to the housing cavities 25, 26. As shown in FIG. 2, an inflow opening 27 is formed on the middle lldhe of the housing, which on the Berithrunqslinie of the two ring gears 23, 24 meets. On the exit side an outlet opening 28 is provided at the same point. Is now carried out by the entry 6 £ fnunq a pressurized fluid, for example pressurized oil or compressed air under pressure, is then introduced the two gears are pressurized and thereby the gears rotate offset. The pressure medium can relax on the other hand and exit. Depending on the pressure level, flow speed and amount of pressure medium the performance of this gear motor can be regulated here.

At another vibration exciter according to FIGS. 3 and 4 is a Gear motor 30 in direct connection with the two non-non-bodies 31, 32 formed in a sealing housing 33. The ring gears 35, 36 are seated directly on the cylindrical unbalance bodies and interlock at 37, whereby the counter-rotation of the two unbalanced bodies is secured. The housing 33 seals the both unbalanced bodies as well as the two gear rims to the outside ah and forms at the same time also the bearing surfaces for the unbalance bodies.

In order to seal off the gear engagement, the housing has the central webs 38, 39, which come right up to the sprockets. As can be seen from FIG is, the inlet and outlet openings are denoted by 40, 41.

In this case, the entire counter-rotating vibration exciter is in one housed closed housing. The construction of this transducer is particularly easy when the housing consists of two congruent housing shells 42, 43 and a circumferential ring 44 is manufactured in the area of the gear rims.

This vibration exciter has no changeable unbalance bodies on. Therefore, only the oscillation frequency can be applied to it by changing the speed be managed.

With a similar vibration exciter with almost unchangeable The unbalanced bodies 51, 52 in FIG. 5 and 6 are again unbalanced bodies a housing 53 enclosed.

They are guided and stored by means of the stub axles 54, 55. The housing, which expediently consists of several parts, seals the two balancing bodies turn outwards.

The housing expediently consists of a pipe section 57 and the two Ahdeckflanschen 58, 59, in which the bearings 60, 61 for the stub axles 54, 55 are formed are. The bearing caps 62 form the closure of these camps. Of the In this case, the gear motor 50 is driven by the gears 65, 66, which relate to the full circumferential surface of the cylindrical unbalanced body extend formed. Because Due to the relatively wide tooth flanks, this gear motor has a larger displacement on, which is why it works comparatively slower, but with greater torque will.

The cylinder unbalance bodies of the vibration exciter according to FIG. 3 to 6 can consist of Formstficken, the cylinder jacket in the area of the Cavities can also be open.

On the other hand, pipe sections can also form an unbalanced body by pouring them out will. The ring gears can be drawn onto the balancing body cylinder. in the In the case of FIGS. 5 and 6, however, a ring gear integral with the cylinder body can also be used be appropriate.

The invention is not limited to the exemplary embodiments shown. So it is not necessary that a drive and the counter-rotation of the two unbalanced bodies >) Effective gear motor formed directly on or in the vibration exciter is. However, it can also be housed in a housing that is completely separated from the exciter housing be when the rotational movements by means of intermediate shafts, flexible shafts or the like. can be transferred. As a rule, straight-toothed gears are used Find. But also other gears, such as helical or herringbone teeth are also suitable. With regard to a high efficiency of the gear motor the tooth profile and its dimensions are selected according to these requirements will. Throttle valves in the are sufficient for simple control of the gear motor Supply and / or discharge line for the pressure center.

Claims (14)

Title: Counter-rotating vibration exciter Patent claims: 1. Counter-rotating vibration exciter for directed vibrations with two imbalance grains rotating opposite one another axes parallel to one another, which form-fit with one another by means of two gears are connected, characterized in that a gear motor (18, 30, 50) is provided, the rotating members of which are the gears (15, 16; 35,36, 65, 66) the unbalance bodies (1, 2; 31, 32; 51, 52) are. 2. Counter-rotating vibration exciter according to claim 1, characterized in that that the gear motor is designed for the application of pressurized oil. 3. counter-rotating vibration exciter according to claim 1 or 2, characterized in that that on the outlet side of the gear motor, a throttle valve for the pressure medium flow is provided. 4. Geqenlauf .Schwinqunqserreqer according to one of claims 1 to 3, characterized in that the gear motor is separated from the vibration exciter Unit is. 5. rain-run vibration exciter according to one of claims 1 to 3, characterized in that the gear motor (18) on the axes of the unbalance bodies (8) seated connecting toothed wheels (15, 16) is formed. 6. counter-rotating vibration exciter according to claim 1 to 3, characterized in that that the gear motor (30) from around cylindrical unbalanced bodies (31, 32) qelegtrnzahnärnen (35, 36) is formed. 7. counter-rotating vibration exciter according to claim 6, characterized gekennzerhnet, that the ring gears (65, 66) formed on the unbalanced bodies (51, 52) arise extend the entire unbalance body surface. 8. Counter-rotating vibration exciter according to one of claims 6 or 7, characterized in that the jacket and / or end faces of the cylindrical Unbalance bodies designed as bearing surfaces opposite the adapted housing walls are. 9. counter-rotating vibration exciter according to claim 6 or 7, characterized in that that the cylindrical balance grains (51, 52) on the end faces bearing axle stumps (54, 55). 10. counter-rotating vibration exciter according to one of claims 6 to 9, characterized in that the housing (33) consists of two congruent housing shells (42, 43) exists. 11. Counter-rotating vibration exciter according to one of claims 1 to 10, characterized in that the unbalanced bodies are molded in from a casting Exist cavity. 12. Counter-rotating vibration exciter according to one of claims 1 to 11, characterized in that the unbalanced body with its ring gear as a one-piece Fitting are made. 13. Counter-rotating vibration exciter according to one of claims 1 to 12, characterized in that the unbalanced bodies consist of a Rohrstfick, in the cavities of which the unbalanced masses are inserted or cast. 14. Counter-rotating vibration exciter according to one of claims 1 to 13, characterized in that the unbalanced bodies (1, 2) consist of several against each other adjustable part-bodies (3, 4) are made by means of an adjusting device (14) can be operated manually or automatically.