DE19828600C1 - Ground compacting arrangement with holder for starter battery eliminates some disadvantages of conventional machines, e.g. susceptibility to battery cell damage from frost - Google Patents

Abstract

The arrangement has a holder arrangement for a starter battery (3) with a holder (1) cont. a wall (2) carrying several rubber spring elements (4). The starter battery is brought into contact with the ends of the rubber spring elements lying in a plane parallel to the wall. The individual spring elements are spherical.

Description

The invention relates to a holding device for a Soil compacting device with a holding device for a Starter battery.

Vibration machines, for example vibration plates, vibration rammers or Vibratory rollers are commonly used for soil compaction and powered by internal combustion engines. You will be using electric starters Starter batteries started. The starter batteries usually consist of Grid plate accumulators for motor vehicles for participation in the streets are designed for traffic. The occurring in the vibration machines Vibration amplitudes are orders of magnitude higher than in normal roads traffic occurring. In practice, the problem that the git structure of the vibration sensitive starter batteries due to the Vibrations are damaged, so that the starter batteries fail frequently.

So far, the problem has been solved in that the starter batteries from the Vibrations in the vibration machine using elastic cellulose plates were decoupled. The cellulose panels have a structure high elasticity and good damping properties. It has a disadvantageous effect however, from that due to the porosity when steam blasting the vibrations machine water can penetrate. This expands under the influence of frost frozen water in the pulp and destroys the cell structure. Further act fuel and dirt deposits through the work of the Machine also destroying the pulp. As a result of the strong vibrations the pulps age quickly and lose their elasticity and damping properties create. Such problems also occur with a vehicle battery intake according to DE 43 40 007 A1, in which a vehicle battery on foam rubber is stored.

DD-PS 213 766 is a device for vibration damping for measurement devices known in the pneumatic springs, for example in ball or Zy Linder-shaped, with only one-sided fixation in one device foot, for example performing holder are housed. Such a measuring device can be used in different places with vibration damping.  

The invention has for its object a holder for a starter battery to specify in a vibration machine, in which the from the Disadvantages occurring known prior art brackets avoided become.

The object is achieved according to the invention by the features of patent claim 1 specified. Advantageous embodiments of the invention are the See subclaims.

The device according to the invention proves to be unaffected by the damaging effects of ice, fuel and dirt as the Spring elements - in contrast to the cellulose mats - do not have a porous structure Have gaps in which foreign substances can accumulate. The Arrangement of individual spring elements offers the possibility of a Generate spring characteristic individually by number, arrangement and material the spring elements in the bracket can be varied. In particular, achieve progressive spring characteristics, in which depending on the Fe so the spring force is slow at first and then - with greater deflection - rises sharply. If a vibration acts on the spring elements, first of all soft cushioning with great travel is possible. By the initially ge ring spring stiffness, the setting of a very low natural frequency is possible Lich, so that the low-frequency large energy content of the vibration absorbed men will. The spring travel increases by further compression of the spring element the spring force increases disproportionately. In this area of the characteristic the high-frequency components of the vibration spectrum are recorded. If the spring elements also have damping properties sen, the vibrational energy can be effectively destroyed.

It is particularly advantageous if one or more envelopes of the Wall away surfaces of the spring elements one or more form parallel planes to the wall. That means that by the of the Wall furthest points of the spring elements, d. H. through the Contact points with the starter battery, one or more mental levels can be laid. There will be several Spring elements with the same seen from the wall of the holding device Height uniformly distributed in the bracket, so that the vibration sensitive starter battery sits evenly on the spring elements.  That is, the base plate of the starter battery sits parallel to the base plate of the Bracket on the spring elements. Between the load-bearing spring elements can be arranged further spring elements of smaller height. The tangents to the same spring elements lie within a plane that the Represents envelope. The envelopes of the spring elements are different  Heights run parallel to each other and each parallel to the wall of the Bracket. Springs the starter battery under the influence of vibrations a travel that is greater than the difference between the heights of the large tra genden and the smaller initially non-load-bearing spring elements, so distributed the contact force on the large and the smaller spring elements.

In a particularly advantageous embodiment of the invention, the Spring elements made of rubber-elastic balls. The balls offer a closed ne and minimal surface for absorbing water, fuel or dirt. The combination of the spherical geometry with the material properties of the Rubbers have proven to be particularly effective in catching load spits Zen. A rubber ball becomes static or begins to deflect dynamic bearing load initially depressed. This will result in a transition from almost punctiform after flat support, so that the surface pressure reduced is adorned and there is a steep progression of the spring characteristic. In the event of of the rubber balls, the spring characteristic is a function of the ball diameter, Rubber hardness and number of balls.

It is particularly advantageous if a receptacle is arranged on the wall which fixes the individual spring elements in defined positions. The recording In a very advantageous embodiment, me can be designed as a lattice structure his.

In a further advantageous embodiment of the invention, the individual Spring elements linked together by connecting elements. This enables light the insertion of the spring elements in the bracket with little assembly expenditure.

These and other features and advantages of the invention are as follows with the aid of the figures based on preferred embodiments explained. Show it:

Fig. 1 shows a schematic cross section of an inventive holder;

Figure 2 shows a possible arrangement of spring elements on a holding tion.

Fig. 3 to 5 different ways of linking the spring elements and

Fig. 6 to 7 types of attachment of the individual spring elements in recordings.

Fig. 1 shows a schematic cross section through a holding device according to the invention. It comprises a holder 1 with a wall 2 on which a plurality of spring elements 4 , in the present case rubber balls, are arranged. A starter battery 3 sits on the spring elements 4 as a vibration-sensitive component. The distance between the starter battery 3 and the holder 1 is defined by the height of the spring elements 4 . In this case, an envelope of the surfaces of the spring elements 4 lying away from the wall 2 forms a plane which corresponds to a contact surface 5 of the starter battery 3 . The spring elements 4 touch the starter battery 3 at individual support points in the envelope.

In addition to the rubber balls, many other geometries are conceivable as rubber-elastic spring elements 4 . Hemispheres have the advantage that they offer a large contact surface on the wall 2 when the vibration-sensitive component is placed almost at a point. The use of cylinder geometries is easy to manufacture. Cone or pyramid shapes can also be used, or geometries that expand and / or taper over the height. The spherical configuration of the spring elements 4 in the region of the envelope has proven to be particularly advantageous. The spring elements 4 can also have damping properties in order to absorb the vibration energy.

The holder 1 for receiving the spring elements 4 is box-shaped upwards open or closed. The wall 2 consists of a base plate 6 and four side walls 7th On the base plate 6 , a matrix-like receptacle 8 is arranged, in which the individual spring elements 4 are positioned. The height of the receptacle 8 is such that there is no contact between the starter battery 3 and the receptacle 8 at the maximum spring travel of the spring elements 4 .

While vibrations are absorbed in the vertical direction by the spring elements 4 in the base plate 6 , the spring elements 4 a arranged in the upper region of the holder 1 between the starter battery 3 and the wall 2 serve for elastic suspension and damping of transverse movements, as is particularly the case with vibration machines occur. The spring elements 4 a are positioned by a snap-in holding frame 9 , 10 , consisting of an upper frame 9 and a lower frame 10 . The upper frame 9 is suspended on the side walls 7 and fixes the spring elements 4 a upwards. The subframe 10 defines the position of the spring elements 4 a with respect to their distance from the base plate 6 and is suspended in the side walls 7 .

Alternatively, the spring elements 4 can be arranged outside the holder 1 .

Fig. 2 shows a section through the holding device from the top view of the base plate 6. Arranged thereon is the receptacle 8 for the spring elements 4 , which is surrounded by the side walls 7 . On the basis of the manifold occupation possibilities of the matrix-like receptacle 8 , it is possible to carry out a subsequent adjustment of the spring characteristic between machine type and battery size by means of simple tests in the operation of the vibration machine by varying the size, number, shape and rubber-elastic material composition of the spring elements 4 . The receptacle 8 also offers the advantage that worn spring elements 4 can be replaced quickly and without modifications.

The receptacle 8 for the spring elements 4 is dimensioned sufficiently large that deformations of the spring elements 4 are permitted without a contact between the spring elements 4 and the partition walls of the receptacle 8 .

Fig. 3 to Fig. 5 possibilities as regards the summary made 3 by sticking of the spring elements 4 on a connecting plate 11 by a connecting device 12, in which the spring members 4 rigidly provide single ner spring elements 4 into a kind of mat. The can according to FIG. are connected to each other, as shown in Fig. 4, or simply by creating a knob-like spring or damping mat as in Fig. 5, in which the Federele elements 4 and the connecting mat 13 are made in one manufacturing step. The hemispherical spring elements 4 are particularly suitable when a large contact surface in the area of the holder 1 and a very small point-like contact in the area of the vibration-sensitive component 3 are required.

FIGS. 6 and FIG. 7 included by way of example connection means 14 for the spring elements 4. In the first representation of Fig. 6, the spring elements 4 are provided with grooves and, as a buttoned in an apertured connecting means 14. In Fig. 7, a mounting plate 15 with protruding tips 16 for the spring elements 4 is shown.

Claims (8)

1. Soil compacting device with a holding device for a starter battery ( 3 ), which holding device comprises a wall ( 2 ) having a holder ( 1 ) for receiving the starter battery ( 3 ), with a plurality of rubber spring elements ( 4 ) being arranged on the wall ( 2 ) and one or more of the envelope (2) surfaces of the rubber spring elements (4) remote form one or more planes parallel to the wall (2) of the wall in which the starting battery (3) is brought to rest. 2. Soil compacting device according to claim 1, characterized in that the spring elements ( 4 ) have a spherical shape in the region of the planes of the envelopes. 3. Soil compacting device according to claim 2, characterized in that the individual spring elements ( 4 ) have a spherical shape. 4. Soil compacting device according to one of the preceding claims, characterized in that the spring elements ( 4 ) have spring properties with a progressive spring characteristic. 5. Soil compacting device according to one of the preceding claims, characterized in that the spring elements ( 4 ) have different geometries and / or different material properties. 6. Soil compacting device according to one of the preceding claims, characterized in that the number and / or the arrangement of the spring elements ( 4 ) in the holder ( 1 ) can be varied. 7. Soil compacting device according to one of the preceding claims, characterized by a receptacle ( 8 ) in which the individual spring elements ( 4 ) are arranged in defined positions. 8. Soil compacting device according to one of the preceding claims, characterized in that the individual spring elements ( 4 ) are connected by a connecting device ( 11 to 15 ) to form a unit.