NL9100404A - DEVICE FOR INPUTING GRANULAR SOLIDS IN A CRUSHING DEVICE. - Google Patents

Description

EXTRACT

The device consists of a crushing device with an infeed funnel (2), in which a pipe resonator (5) of enlarged diameter is arranged between the infeed funnel (2) and the crushing device, in which a pipe section (2) is an extension of the infeed funnel (2). 6) protrudes.

By inserting this pipe resonator (5) between the feed funnel (2) and the crushing device, an unexpectedly good sound damping of the sound developed by the crushing device is achieved. Such a pipe resonator (5) has several advantages over conventional cell wheel locks or absorbent silencers.

According to a preferred embodiment of the invention, the pipe resonator (5) can be funnel-shaped (7) on the side facing the crushing device. It is further preferred that the diameter of the inlet opening (8) to the crushing device is less than 10 cm.

Device for introducing granular solids into a crushing device

The invention relates to a device for introducing granular solids into a crushing machine with an infeed funnel, which is connected to the crushing device.

Crushers, in particular mills, are one of the main noise sources in chemical production companies. As a rule, these devices in the vicinity of where they are located produce sound pressure peaks Lp of much more than 85 dB (A). However, the permissible limit values for exposure for 8 hours to Lp = 70 dB (A) for laboratory areas and Lp = 85 dB (A) for other areas, for example technical areas, are thus clearly exceeded.

In accordance with Figure 1, cell wheel sluices or absorbing silencers are fitted between the mill and the feed funnel to reduce the noise emission. In addition to the extra investment costs, cellular wheel locks have the drawback, in particular, that laborious cleaning activities are necessary with regular product changes. This drawback is also present with absorbent silencers, where on the one hand the effectiveness with respect to pollution decreases considerably, on the other hand contamination of the product by absorption material is possible.

The object of the invention is, by suitable measures, to reduce the sound radiation through the feed funnel at a crushing device, while at the same time reducing the above-mentioned drawbacks.

According to the invention, this problem is solved in that a pipe resonator with an enlarged diameter is placed between the feed funnel and the crushing device, into which a piece of pipe protrudes in line with the feed funnel.

To achieve the broadband peak reduction, the pipe resonator is funnel-shaped on the side facing the crushing device.

The invention has proven itself in particular as a silencer device for crushing devices, whose inlet opening (diameter is less than 10 cm).

The mechanism of sound attenuation is based on the fact that the pipe resonator partially reflects the energy of the sound back to the sound source. So the energy of the sound is not destroyed by absorption, much more the extension of which is closed by " filter elements. ”With the designed resonance ratios of a pipe resonator, which generally only allows narrow-band frequency-selective attenuation of individual tones, it was not to be expected that this would also achieve broad-band sound reduction. This effect is of particular importance for solving the problem posed, since crushing devices have been found to emit sound in a frequency spectrum between 500 Hz and 10,000 Hz (center of gravity at approximately> 2000 Hz). rule only for narrowband attenuation of individual tones below 500 Hz.

In addition, the invention achieves the following advantages:

Reduction of the noise peak also in the vicinity (which means that it is effective for the operator) relatively low investment costs no use of materials with open pores (eg mineral wool), but only "solid" materials with smooth surface (eg steel, glass, plastic, etc.) low additional costs for cleaning when changing the product no substantial reduction in operability no additional maintenance costs no additional energy costs no intervention required for the active components (grinding operation, capacity, etc. is retained) retrofitting with existing arrangements are simply possible to observe the production flow when using transparent materials (for example glass).

In the following, an exemplary embodiment of the invention is further elucidated with reference to a drawing. Hereby shows:

Fig. 1 a solution heretofore used to reduce the noise coming from an input opening in crushing devices (prior art),

Fig. 2 an input funnel with pipe resonator and

Fig. 3 the pipe resonator in relation to the characteristic dimensions.

As already briefly explained, a cell wheel sluice 3 or an absorbent silencer 4 has been provided heretofore to reduce the noise from the inlet opening of mills between the mill 1 and the inlet hopper 2.

In the device according to the present invention according to Fig. 2, a pipe resonator 5 is arranged between the feed funnel 2 and the mill. The pipe resonator here consists of a cylindrically widened chamber, into which the tube stub 6 of the input tube projects from above. At the bottom end, the pipe resonator 5 tapers conically (7). The connecting inlet opening 8 of the crushing device has a diameter of up to 10 cm.

In Fig. 3, IK means the length of the pipe resonator D, the diameter of the pipe resonator 1, the length of the pipe stub 6 inserting into the pipe resonator, d the diameter of the output tube connecting to the pipe resonator, respectively. the inlet opening of the subsequent crusher, α the angle of the funnel-shaped chamber end relative to the central perpendicular.

Common crushers in the chemical industry are, for example, air jet mills, hammer mills, stud mills, and plate lay mills. The transverse dimension D of the pipe resonator 5 · the length 1 of the pipe stub 6 projecting therein and the angle α mainly determine the frequency ratio of the reflection silencer. Particularly good soundproofing is obtained when the pipe resonator is dimensioned as follows: D = 2.5 x d to 3.5 x d, IK = 2x1 to 4 x 1 and α = 20 to 45 °.

Claims (3)

Device for introducing granular solids into a crushing machine with an infeed funnel (2) connected to the crushing device, characterized in that between the infeed funnel (2) and the crushing device a pipe resonator (5) of enlarged diameter into which an extension piece (6) protrudes in line with the feed funnel (2). Device according to claim 1, characterized in that the pipe resonator (5) is funnel-shaped (7) on the side facing the crushing device. Device according to claim 1 or 2, characterized in that the diameter of the inlet opening (8) to the crushing device is less than 10 cm.