DE3636890A1 - Arrangement for extracting stone dust at splitting, drilling and bush-hammering machines and the like - Google Patents

Abstract

The invention relates to an arrangement for extracting stone dust at splitting, drilling and bush-hammering machines and the like by means of an extraction unit which draws in the stone dust accumulating in the working area of the working tool and feeds it to a filter device for separating it from the intake air flow. According to the invention, the drawn-off suspended matter can be supplied for practical application owing to the fact that the intake air flow of the extraction unit draws in at least the microdust and the fine dust, that separation into microdust and fine dust can be carried out by means of a first filter device from the intake air flow thus laden, that the fine dust can be fed to a comminuting device, while the microdust can be collected in a second filter device, and that the comminuted product from the comminuting device can be fed again to the intake air flow upstream of the first filter device.

Description

The invention relates to a device for suctioning Stone dust on splitting, drilling, bossing machines and the like by means of a suction device that is in the work area of the work tool sucks in stone dust and a filter device for separating from the Intake air flow feeds.

Like DE-PS 25 17 926 and DE-GM 75 06 186 and 80 11 145 show, it is known in drilling machines that resulting drilling dust with a working area of the drill suction around the surrounding suction channel. The suction channel leads to a suction device that the intake air flow generated. The drilling dust carried with the intake air flow is from the intake air flow via filter devices separated and dissipated.

These known devices have the advantage that Work area is free of harmful suspended matter and that the drilling material generated when working is separated according to size can be removed dry or wet. A reuse the drilling material is not intended.

Now it is also known that minerals in their Original condition remained, can be used as original fertilizer. The fertilizing effect is greater, the smaller is the grain size of the minerals that remained in their original state.  

This condition is met by dust particles that build up during work from the core of stones, because the has not changed the molecular lattice structure in the rock, i.e. there are no changes due to environmental influences occurred.

The stone dust accumulating in one operation leaves divided into coarse dust, fine dust and micro dust. The coarse dust comprises particles with a grain size of larger than 2 mm. The fine dust contains particles with particle sizes from about 100 µ to 2 mm and all particles with a grain size less than 100 µ are assigned to the micro dust.

It is an object of the invention, a device of the beginning to create mentioned type, in which the disposal of the Working area of harmful suspended matter is retained, however from the extracted stone dust the largest possible proportion obtained as primary fertilizer and can be collected, which has an optimal solubility and can be used as an additional useful product.

This object is achieved according to the invention in that the intake air flow of the intake device at least the Micro dust and the fine dust that sucks in that way loaded intake air flow by means of a first Filter device a separation into micro dust and fine dust is conceivable that the fine dust one Crushing device can be fed during the Micro dust can be collected in a second filter device and that the comminution product from the Shredding device again before the intake air flow can be fed to the first filter device.

Since the intake air flow at least the micro dust and the Extracting fine dust is the work area of the  Work tool disposed of suspended matter. The bigger ones Particles do not float and are therefore not harmful to health. The first filter device leaves the micro dust and carries larger particles of Shredding device too. That in the Crushing device obtained crushing product therefore consists only of suspended matter with new Micro dust. This shredding product is after a Design again superimposed on the intake air flow, so that the first filter device separates into fine dust and also carries out micro dust for the comminution product. This process is repeated until the fine dust Micro dust is obtained from the first filter device pass and collected in the second filter device can be. But always the new one in the work area stone dust obtained from the working tool is also extracted and in the same way in the first filter device treated so that practically all accruing Suspended particles converted to micro dust in the second Filter device can be collected.

The particles assigned to the coarse dust are thereby separated from the fine dust and micro dust that the Intake air flow through a sieve as a baffle on the Work area of the work tool that acts Holds back coarse dust.

The hole size of the screen used as a baffle and the flow rate of the intake air flow facilitate the retention of coarse dust.

Depending on the size and performance of the machine, one Preferred embodiment, which is characterized in that the intake air flow from an individual machine  Extractor is generated or that the intake air flow from a central suction device is generated, to which either several machines can be connected.

An advantageous embodiment provides that Shredding product directly from the intake air stream or a secondary air flow derived therefrom can be sucked in. The intake air flow also takes over the transfer of the comminution product.

For crushing the from the loaded intake air flow separated particles provides an embodiment that the comminution device a comminution stamp has periodically against fine dust adjustable and can be lifted off again that the fine dust separated from the loaded intake air flow can be introduced into this particulate matter intake and that with the Intake air flow or the secondary air flow derived therefrom the comminution product from the fine dust intake continuously or can be extracted cyclically. It is provided that the shredding punch mechanical, electrical, hydraulic or pneumatically in the direction of particulate matter is adjustable and that the fine dust absorption is cushioned adjustable in a guide of the shredding device is led.

A separate drive for the shredding device can According to a further embodiment, the fact that with a splitting or bossing machine Comminution stamp by means of a coupling link with the Work tool connected and periodically with this is adjustable.  

The first filter device is in one embodiment executed so that to separate the fine dust from the loaded intake air flow fixed filters, such as cyclones, sieves and the like. Are used as the first filter device that these fixed filters are inserted in a suction line, which in one the work tool with the work area enclosing cover with suction funnel and that the working area facing the work tool Opening of the suction funnel with that acting as a baffle and the coarse dust-retaining sieve is covered.

There is an embodiment for collecting the micro dust proven to be advantageous, which is characterized in that the filter that passes through the fixed filter, still with micro dust loaded intake air flow in a cartridge known per se or pocket filter unit as a second filter device separated from the intake air flow and in the cartridge or Bag is collectable.

The invention is based on one in the drawings illustrated embodiment of a stone splitting machine explained in more detail. It shows:

Fig. 1, the stone-splitting machine in a side view,

Fig. 2 shows the block splitting machine in front view,

Fig. 3 is an enlarged partial view of the work area with the splitting tool and an associated crushing means rigidly,

Fig. 4 shows an embodiment for the first filter means,

Fig. 5, the shredding device and

Fig. 6 shows schematically the suction of the comminution product.

Figs. 1 and 2 are building a stone splitting machine recognize. In the upper area, the machine stand 21 carries the hydraulic actuating unit 25 with the actuating piston 24 for the splitting die 10 , which is guided in a vertically adjustable manner by means of the guides 26 . The supply unit 22 is connected to the actuating unit 25 via the feed lines 29 . The actuating unit 25 is triggered via the foot switch 23 . The machine table 12 is pivotally mounted on the bearing bracket 27 on the machine stand 21 . The resetting unit 28 adjusts the machine table 12 so that the splitting counter-punch 11 is covered and the stone to be split can be placed on the machine table 12 . If the splitting die 10 is adjusted in the direction of the stone placed on it, the machine table 12 is deflected so that the splitting counter-punch 11 lies freely against the underside of the stone and forms the abutment to the splitting punch 10 .

The actuating piston 24 with the splitting die 10 is covered by means of the cover 13 , which covers the working area of the splitting die 10 and the splitting counter-die 11 with the suction funnel 14 . The opening of the suction funnel 14 is closed with a sieve 31 serving as a baffle plate, the openings of which are dimensioned such that the coarse dust, for example with a grain size greater than 2 mm, cannot be sucked in. In the upper area of the cover 14 , the suction line 30 leads off, which leads to a machine-specific or a central suction device.

The cover 13 carries in the front area of the suction funnel 14 the window 15 through which the area of the splitting die 10 can be seen, as can be seen in particular from the enlarged partial view according to FIG. 3.

If the suction device is switched on, then in the area of the splitting die 10 and the splitting counter-die 11, the intake air flow A is created , which in connection with the sieve 31 and its flow velocity sucks in all suspended matter from the working area. The micro dust and fine dust are considered as suspended matter, all particles with a grain size of less than 100 μ being considered as micro dust and particles with a grain size of 100 μ up to 2 mm as fine dust.

Since the properties of the micro dust from the core of Stones known as primary fertilizers are used in the stone splitting machine according to the invention also the extracted Fine dust crushed into micro dust and collected so that it can be used as a primary fertilizer. The Stone splitting machine of this type therefore does not bring only one Disposal of the work area of harmful Suspended matter, but also a useful use of the suctioned suspended matter.

In order to be able to implement this, the suction air flow B of the suction line 30 loaded with suspended matter is passed over the first filter device according to FIG. 4, which is equipped with fixed filters 32 , 33 and 34 of different mesh sizes. If the suction line 30 runs horizontally in the area of the first filter device and the fixed filters designed as sieves are arranged vertically, then the fine dust falls into the containers 35 , 36 and 37 sorted by size by their own weight. At this point, fine dust of a certain grain size can be removed. The fine dust, which is separated from the loaded intake air stream B by means of the first filter device, is fed to the comminution device according to FIG. 5. This comminution device has the comminution stamp 17 with the actuator 38 , which cooperates with the fine dust pick-up 18 . The fine dust receptacle 18 is cushioned by the springs 19 and can be vertically adjusted to a limited extent in the guide 20 . The fine dust C separated from the first filter device is introduced into the fine dust receptacle 18 and comminuted by means of the comminution stamp 17 .

As shown in FIGS. 3 and 6, the shredding device in the area of the suction funnel 14 is placed outside the working area of the splitting tool, so that the crushing product through the intake air flow A to be sucked in. If the comminution product still contains fine dust particles, these are separated again by the first filter device and fed to the comminution device. This process is repeated until the sucked-in and separated fine dust is reduced to micro dust and the first filter device can pass as micro dust D.

So that no separate drive is required for the shredding device, the shredding punch 17 can be rigidly coupled to the splitting punch 10 , as the coupling member 16 shows in FIG. 3. The comminution stamp 17 is therefore actuated and reset synchronously with the splitting stamp 10 .

Instead of the intake air stream A , a secondary air stream derived therefrom can also suck up the comminution product and feed it to the suction line 30 in front of the first filter device. The extraction of the comminution product can take place continuously or periodically depending on the resetting of the comminution stamp 17 .

The micro dust D passing the first filter device is fed to a cartridge or pocket filter unit known per se as a second filter device and collected there in the cartridge or pocket. The bag can serve as a collection container in which the original fertilizer thus obtained is packaged and sold. The micro dust collected in a cartridge is cleaned and placed in separate packaging, for example a bag, sack or the like.

Claims (11)

1. Device for extracting stone dust from splitting, drilling, bossing machines and the like by means of a suction device which sucks in the stone dust accumulating in the working area of the working tool and supplies a filter device for separation from the intake air flow, characterized in that
that the intake air flow ( A ) of the intake device draws in at least the micro dust (<100µ) and the fine dust (from 100µ to about 2 mm),
that the intake air stream ( B ) thus loaded can be separated into micro dust and fine dust by means of a first filter device,
that the fine dust can be fed to a comminution device, while the micro dust can be collected in a second filter device, and
that the comminution product from the comminution device can be fed back to the intake air flow ( A ) upstream of the first filter device. 2. Apparatus according to claim 1, characterized in that the comminution product obtained in the comminution device can be sucked in again by the intake air stream ( A ). 3. Apparatus according to claim 1 or 2, characterized in that the intake air flow ( A ) acts via a sieve ( 31 ) as a baffle plate on the working area of the working tool, which retains the coarse dust (2 mm). 4. Device according to one of claims 1 to 3, characterized in that the intake air flow ( A ) is generated by a machine-specific suction device. 5. Device according to one of claims 1 to 3, characterized in that the intake air flow ( A ) is generated by a central suction device, to which several machines can optionally be connected. 6. Device according to one of claims 1 to 5, characterized in that the comminution product can be sucked in from a secondary air stream derived from the intake air stream ( A ). 7. Device according to one of claims 1 to 6, characterized in that
that the comminution device has a comminution stamp ( 17 ) which is periodically adjustable against a fine dust pick-up ( 18 ) and can be lifted off again,
that the fine dust separated from the loaded intake air flow ( B ) can be introduced into this fine dust receptacle ( 18 ) and
that with the intake air flow ( A ) or the secondary air flow derived therefrom, the comminution product can be continuously or cyclically extracted from the fine dust receptacle ( 18 ). 8. The device according to claim 7, characterized in that the shredding stem ( 17 ) is mechanically, electrically, hydraulically or pneumatically adjustable in the direction of the fine dust pick-up ( 18 ) and that the fine dust pick-up ( 18 ) is guided in a guide ( 20 ) of the shredding device adjustable is. 9. Apparatus according to claim 7 or 8, characterized in that in a splitting or bossing machine, the comminution stamp ( 17 ) is connected to the work tool by means of a coupling member ( 16 ) and can be adjusted periodically therewith. 10. Device according to one of claims 1 to 9, characterized in
that fixed filters such as cyclones, sieves ( 32 , 33 , 34 ) and the like are used as the first filter device for separating the fine dust from the loaded intake air stream ( B ),
that these fixed filters are inserted into a suction line ( 30 ) which goes off in a cover ( 13 ) with suction funnel ( 14 ) which encloses the working tool with the working area and
that the opening of the suction funnel ( 14 ) facing the working area of the working tool is covered with the sieve ( 31 ) which acts as a baffle plate and retains the coarse dust. 11. Device according to one of claims 1 to 10, characterized in that the fixed filter passing, still loaded with micro-dust intake air flow ( D ) in a cartridge or pocket filter unit known per se as a second filter device separated from the intake air flow and in the cartridge or Bag is collectable.