DE1533517B1 - vibrator - Google Patents

Description

1 2

The invention relates to a vibrator with a clearer understanding of the invention

a rotationally driven unbalance mass, which in from the following description of two embodiments Housing is freely suspended, its inner upper molds in connection with the drawing. In it shows surface is formed with lobes and recesses, F i g. 1 shows an axial section of a submersible vibrator, the

which form a wave-shaped cross-section. 5 contains the present invention,

One application of a vibrator of this type is shown in FIG. 2, 3 and 4 are schematic representations showing the

a device for immersion or surface vibration development of the cooperating storage areas tion of concrete mixes to match the mix with that of the rotor and the housing in the vibrator according to The aim of solidification in a bubble-free state is to rest- F i g. 1 show ren or condense. io F i g. 5 shows an axial section through another shape

Vibrators of the above type are also used for others of a vibrator according to this invention and used industrial purposes, for example for the manufacture of F i g. 6 is a cross-section through each other from vibrations in conveyor belts, sieves, moving parts of the rotor and the stator in the Filling vessels or the like, and the invention is for vibrator according to FIG. 5.

all vibrators used for such purposes can be used. finding as shown in FIG. 1 is shown, has a

In a known vibrator, a drive submersible vibrator has a cylindrical rotor 1, the element a sliding contact with a body, in a body 2 one equipped with a nose 3 which moves back and forth in a housing to housing is received. A drive element 4, To generate vibrations. The sliding friction causes the housing body 2 to rotate in roller bearings 5 heavy wear. In addition, the bar is available at one end of the rotor 1 over a Drive element carry the mass body with it, be universal joint 6 in connection. The drive mechanism the device has started correctly at the start, element 4 can be via a flexible drive shaft (not and thereby the body slides along the housing (shown) connected to an external motor without generating vibrations. Be 25.

In another known vibrator, there is a rotor head at the other end of the rotor 1 screwed between the rotatable mass and the housing or a bearing element 7, which with a Gear engagement which can cause considerable wear to cooperate with ring bearing 8 which is internally brings. In a similar arrangement, the side of the nose 3 of the housing is formed or there Rotor is also rigidly held between two disks 30 is attached. Preferred shapes of the element 7 th, which slide in grooves within the housing and and the ring bearing surface 8 are subsequently in therefore also wear out heavily, which then causes slip to be described individually, but regardless of which one arises. Shape is used, the surface of the element

The object of the present invention is to provide the tes 7 with a plurality of longitudinal ribs or lobes To further develop vibrator of the type mentioned above, 35 provided around its surface in the same way that a compulsory start of the vibration and a distance are arranged, and the ring surface 8 Elimination of any slip during loading with a different number of longitudinal channels or drifted and in this way an inevitable vibra recesses provided with the ribs or laption frequency and an inevitable relationship between the element 7 can work together. Provide the drive speed and the revolutions 40 is preferably the number of channels or recesses rotating body is ensured. gen one more than the number of ribs or lobes.

According to the invention, this object is thereby achieved. A preferred arrangement and form of the that the rotatable mass with one of the number of menarbeitenden surfaces of the elements 7 and 8 is the tabs and recesses of the housing are shown in FIG. 4 as a section through elements 7 and 8 Different numbers of tabs and recesses 45 shown in a plane perpendicular to the rotor axis, is provided with a wave-shaped cross-section and that the element 7 is formed with five lobes, the transverse dimensions of the rotatable mass are such as those with six channels in the surface of the surrounding, that it is ensured that if the ring 8 work together during the. As an important turning point each tab on one side of the rotatable times of the invention will be noted that the Mass engaged with a recess of the housing 50 tips of the lobes and the bottom of the recesses stands, one or more lobes on the opposite - gently curved surfaces with comparatively large lying side of the rotatable mass with the wall of the curve radius, and the surface areas Stay in contact with the housing. are between adjacent lobes or canals

The advantage of this construction is that it is also gently curved with a comparatively large size a rolling engagement between the rotatable mass 55 radius of curvature. There is therefore no interruption and the housing. In this way, elements 7 and 8 are formed in the sinusoidal surfaces. no or only very little sliding movement between It is also from FIG. 4 it can be noticed that the shedding the surfaces of the two elements, so that measurements of the element 7 and the ring 8 so ausnur very little wear and consequently none are chosen that their corresponding surfaces unwanted slip occurs. Because the engagement is constantly 60 at a variety of points in contact remains upheld and cannot be resolved, and, as will become clearer below, in a multiplicity An immediate start-up of the vibrator at any time, a certain number of points during each revolution of the egg. In addition, the generated noises and mentes 7 and the ring 8 remain in contact. Weh also the heat evolved can be used at acceptable limits rend arrangements limited. 65 which the element 7 has a different number of lobes

Appropriately, the recesses and the ring 8 have a different number of channels Consistently curved surfaces of can be forgotten, these bases should be smooth byeichweise large curve radius formed. walking collaborative areas and the many

point contact between them in all combinations - set the same radius, namely 9-c. To be retained by everyone. the points a, b, c, d and e form an arc of a circle

The basics of the derivation of the formulas of the to- whose center lies on the radius, cooperating surfaces according to FIG. 4 are the one from the axis 9 through the corresponding in fig. 2 to 4 and are now 5 point extended. Between adjacent arches will wrote. an inwardly curved arch is struck, and the

It can be shown that the vibration frequency, radii of these various arcs are created by the imbalance forces if the rotor chooses to ensure that the concave arc is turned, according to the formula attached to the arcs at a, b, c, d and e gently and without under-

R. Np ¹⁰ refraction connect, and that the concave arc

^a " ^e ^ ^en K ^re * ^s touch the radius rn . The radius

^F ar ^a " ^e ^ ^en K ^re * ^s touch the radius rn . The radius

^r ~ P of the "apex" arc at points a, b, c, d, and e

is determined, where F is the vibration frequency, J? the . ,,. . " _T. , κ , "

Number of revolutions per minute of the drive ^will aonnalerwase a value between ^ - and K

shaft, Np the number of lobes on the element 7 15, and in this way a rotor 7 of the in FIG

and Nr is the number of channels of the ring 8. F i g. 3 developed the shape shown.

In this way, produce five lobes, which with six The profile of the stator or ring 8 can work together from the channels, as in FIG. 4, a developed form of the rotor can be derived. If the vibration frequency is strengthened by 5: 1 in relation to the fact that the root circle of the rotor rolls around the inside of the root circle of the stator without nis to the rotational speed of the drive element 4. A first approximation of arrangements for creating it can be assumed that the lobes of this rate of increase can form the profile of the stator as a rotor.
Imagine a rotor with a pentagonal cross-section, which in the movement can begin at the point / (Fig. 4) of a stator of a hexagonal cross-section, which is the point of contact between the stator, as shown in Fig. 4. 2 is shown with the pentagon and 25 and the rotor. The rotor will have sides of the same width around its own hexagon. The axis 9 is driven in a clockwise direction, which means that disadvantages of such an arrangement become when the rotor is about the axis 10 of the stator, as opposed to FIG. 2 clearly. Rotates clockwise at every moment. If the rotor stands on this no more than two points, e.g. B. α and e of the way revolves, the point 9 begins to move around the circular rotor with the stator, and if 30 path with the diameter K to move, and when the rotor rotates around its axis, only one remains Point the point of contact moves away from the point / in touch. Slippage between the surfaces need not be prevented in this arrangement because of this changing point of contact. Disregard while the point 9 moves around the circle with the wear out the sharp broken edges of the diameter K to get the profile of the stator of the rotor soon, and the probability of a 35.

Slippage is increased. The flat surfaces of the while the root circle of the rotor extends through a

The rotor and the stator produce continuous blows with a rolling effect in the root circle of the stator

each other, which moves the wear and the damage a selected small angle, the

amplified and unwanted noise and heat new point of contact between the rotor and the

generated. It can also be found experimentally by going through the new stator

the fact that to ensure a compulsory one point 9 in ssiner new relocated position 9 'a line

handle, the axis 9 of the rotor draws an actual circle, which runs to the point / in its new position / ',

shaped path passes around the axis 10 of the stator, and then by going through a point g a

and that is in the arrangement according to FIG. 2 actual line drawn parallel to line 9 '- /'. Where this parallel

lent not the case. 45 line intersects the profile of the rotor, there is a point

The amplitude of the transverse vibrations of the rotor on the stator profile. By finding a number of the

a stator profile can be drawn during a complete cycle

the distance between the axes 9 and 10, if the constant contact with the rotor over 360 °

Rotor axis 9 maintains a truly circular path around the revolutions.

Stator axis 10 follows, and under these considerations 50 constant rolling contact of all lobes of the

a rotor shape can be developed geometrically, the rotor with the stator is driven through each of the six

which meets the above-mentioned requirements. ven LL , which extends to the last of the

According to FIG. 3 is the radius of the root circle of the center point on which this curve extends and then

Rotor rn and the radius of the base circle of the stator are gently connected by an inverted curve,

rm, and the amplitude of movement of the rotor 7 is with 55 as it was described, which is outside the central

K denotes. First, rn is from the axis 9 of the axis of each recess. This "recess"

Rotor and rm from the axis 10 of the stator from curve coincides with the arc of the lobes,

beat. but does not have to be a rolling surface and serves as a

~ j _TT,, .,. _{,, n,.} K. . Cavity for lubricant.

Since the difference between the radii is - = -,, ^ ■, ~ · "·,., ·, · -," ... _r ,

2 '60 It becomes from F1 g. 4 it can be seen that in addition

do they match at point P and are at the opposite point of contact / between rotor and stator

overlying end of the vertical axis by one also at one point of each lobe and at the other

Distance K apart. A contact occurs around the points a, b, bordering the stator surface.

c, d and e in contact with the stator at all times. While the rotor is rotating, holding each lobe one can bring the point c as the equivalent to the 65 contact at a changing point with the

Take the topmost point of the pentagon, which is the inner surface of the stator upright. It will also

Point c of the pentagon in F i g. 2 corresponds. Hence it will be noticed that all cooperate

one can place the points a, b, d and e on a circle with surfaces through their gentle curvature of comparative

wise large radius move in rolling relationship without slippage or impact.

As a result of these features, the body 1 takes when it is set in motion by the drive element 4 immediately starts the desired orbital movement and generates vibrations of the desired frequency.

In a modified form of the invention, which is shown in FIGS. 5 and 6, a vibrator is composed of a housing 2 with a nose 3, a drive element 4 running in roller bearings 5 and a coupling element 6 as described above. In the housing, a stator 20 is attached to the nose 3, and a cylindrical rotor 21, which is fixed to the joint 6, has a hollow lower end, the surrounds the stator 20. The geometrical cross-sections of the rotor and the stator are essentially the same such as those of the in relation to FIG. 1 to 4 described rotor and stator, and they have Channels or lobes with surfaces with a considerable curve radius in order to have a rolling effect in the ao to ensure substantially no slip when the rotor 21 is driven. The axis 22 of the hollow When driven, the rotor 21 follows a circular path around the axis 23 of the stationary one Stator 20.

It can be shown that with reference to FIGS. 5 and 6 described vibrator, when driven, results in an increase in vibrations at a frequency F , according to the formula

R-Np

Np-No '

where R is the number of revolutions per minute of the drive shaft, Np is the number of lobes on the rotor 21 and Nr is the number of channels in the stator 20.

It should be understood that taking into account the requirement of rolling and that essentially there is no slip, the ratio of the rotor and stator of this invention can be changed, z. In terms of the number of cooperating lobes and channels, without falling outside the scope of the invention to deviate.

From the above description it will be apparent that the invention is simple and useful Vibrator creates that is inevitable in operation.

Claims (5)

Patent claims: 1. Vibrator with a rotationally driven unbalance mass, which is freely suspended in a housing is whose inner surface is formed with lobes and recesses that have a wave-shaped Form cross-section, characterized in that that the rotatable mass (1, 21) with one of the number of lobes and recesses of the housing (2) different numbers of tabs and recesses with a wave-shaped cross-section is provided and that the transverse dimensions of the rotatable mass (1,21) are such that ensured is that when, during rotation, each tab is on one side of the rotatable mass with a recess of the housing is in engagement, one or more tabs on the opposite Remain side of the rotatable mass with the wall of the housing in contact. 2. Vibrator according to claim 1, characterized in that the recesses with gently continuous curved surfaces are formed with a comparatively large curve radius. 3. Vibrator according to claim 1 or 2, characterized in that the tabs on a shoulder (7) on the rotatable mass (1) and the recesses within an annular extension (8) of the housing (2) are molded. 4. Vibrator according to claim 1 or 2, characterized in that the tabs on a shoulder (20) in the bottom of the housing (2) and the recesses within a bore of the rotatable Mass (21) are formed. 5. Vibrator according to one of claims 1 to 4, characterized in that the rotatable mass (1,21) is provided with a universal joint (6) for connection to a drive element (4). 1 sheet of drawings