NL9300606A - Method and device for the mechanical regeneration of used sand. - Google Patents

Description

Title: Method and device for the mechanical regeneration of used sand.

Description

The invention relates to a method for mechanically regenerating used sand, in which, for example, clay-bonded sand, but also, for example, chemically bound sand or sand granulate can be envisaged.

Particular consideration should be given to molding or core sand, which is generally used in foundry processes, or to sand from other industries, such as filter sand from water supply companies, and which has become redundant after used one or more times. Due to the increasing landfill costs, the foundries are forced to look for alternative solutions for the sale of this old sand. Besides looking for alternative applications in, for example, road construction and the brick industry, reuse is considered the only permissible and economically feasible solution for environmental technical reasons in the longer term.

NL-A-9002597 discloses a process for the regeneration treatment of mainly clay-bound used casting sand, which known mechanical regeneration method is in practice not suitable for processing other types of used sand in an acceptable manner.

Accordingly, the object of the present invention is to provide a universal method suitable for multiple types of sand, whether or not used, and an associated device, which can be operated at minimal operating, maintenance and energy costs.

To this end, the method for the mechanical regeneration of used sand according to the invention comprises the measures that the used sand after being dried (if necessary) and, if necessary, cooled, is ground off by means of a grinder, with which it is brought into contact, after which the abrasive material is separated of the sand thus regenerated.

The method according to the invention thus opens possibilities in the processing of in principle all types of sand or granulate used, the grains of sand of which are surrounded by foreign substances. A good regeneration and a high yield is ensured because the sand grains are ground directly in contact with the grinding member, but also the grains also have an abrasive effect on each other, so that an additional effect on the contaminated outer surface of each sand grain is created. Moreover, it is advantageous that the shape of the sand grain of so-called old sand or new sand will become more rounded by applying the method according to the invention, which improves the properties of the regenerated sand.

In a further embodiment of the method according to the invention, the sand, before it is brought into contact with the moving grinding member, is moved in a movement around the grinding member.

It is advantageous that the circular movement leads to a homogeneous distribution of the sand along the generally rotating grinding member, as a result of which as much as possible all the sand present comes into contact with the grinding member.

In a further specification of the method according to the invention, the abraded foreign matter is dedusted, whereby the useful constituents are recovered from the substance.

It is advantageous here that, in particular when using "clay-bonded" casting sand, for example, the usable components, which in that case consist of bentonite carbon (carbon) powder, can be recovered and reused.

The device for applying the method for the mechanical regeneration of contaminated sand is composed of a substantially box-shaped body, in which one or more grinding members are located, in the vicinity of which sand displacing means are movably arranged.

In a further specification of the device according to the invention, the grinding member is rotatable, the sand displacing means preferably being movable (concentrically) around the grinding member, which is preferred for construction reasons.

In a special embodiment of the device according to the invention, the grinding member and the sand displacing means are on one side of dust separating means arranged in the box-shaped body and on the other side there is a dust discharge.

The advantage of this embodiment of the device according to the invention is that lubrication effects, which have a detrimental effect on the grinding of the sand and are for an important part the result of the presence of dust between the sand to be regenerated, occur to a greatly reduced extent.

In a further preferred embodiment, the sand displacing means in the device according to the invention preferably have curved scooping members, so that the capacity of the total amount of sand that is removed by means of the displacing means can be moved around the grinding member # is further increased.

The present invention will be explained in more detail with reference to the accompanying drawing, with the further associated advantages. Thereby shows:

Figure 1, a preferred embodiment of the device for the mechanical regeneration of used sand; and

Figures 2 and 3, preferred embodiments of dust separation means for use in the device of figure 1.

Figure 1 shows a possible embodiment of a device for carrying out the method for mechanical regeneration of used sand. In general, the sand or granulate used, after being dried (if necessary) and, if desired, cooled, is fed to the device 1 shown in Figure 1. The used sand is fed to the substantially box-like device 1 via an inlet 2 provided therein. The embodiment of the device 1 shown is located on the underside thereof a grinding member 3, which is schematically shown as a round and generally rotatable grinding member. Sand displacing means 4 are movably disposed in the vicinity of the grinding member 3. It has been shown that the sand displacing means 4 are movable concentrically around the grinding member 3. In the embodiment shown, at the bottom of the device 1 there is an outlet 5, from which the contents of the device 1 can be drained if desired.

After loading the device 1, the sand particles used come into contact with the grinder 3, which rotates generally at high speed. The speed of rotation of the grinder 3 is usually in the order of a few hundred to possibly thousands of revolutions per minute. The sand particles that move very strongly as a result are ground along their outer surface, so that the foreign substances located in and on that outer surface are ground off the sand grains. Not only do the sand particles move against the grinding member 3, but grinding of the particles is also achieved by sanding the sand particles with each other while rotating them, so that the surrounding foreign substances are also ground off from the sand grains. During this process, the total amount of used sand contained in the device 1 is maintained in a further movement around the grinding member 3 by movement of the sand displacing means 4. However, the sand displacing means 4 move at a much slower speed, which is usually in the order of a few tens of revolutions per minute. The direction of movement of the sand displacing means 4 can be either opposite or the same as the direction of movement of the grinding member 3. After grinding the contents thereof for a certain time, the output 5 can be opened and, if desired, the contents can be conveyed to an additional dedusting installation, in order to clean sand from the shape of foreign matter, or the sand can be used immediately without further dedusting.

In the embodiment of the device 1 shown in figure 1, dust extraction means 6 are located. At the top end of the box-shaped body there is a dust discharge 7, while an air supply 8 is arranged near the lower end. During the grinding process, air is then supplied by the air supply 8, which air is extracted at the dust outlet 7 together with the dust separated from the sand grains.

Some preferred embodiments of regularly spaced profiles 9, which are in particular V-shaped, are shown in Figures 2 and 3. Shown are isosceles and V-shaped profiles 9 bent at an angle of approximately 90 °, which in the embodiment of figure 2 are placed with their respective tops 10 against each other, while in the embodiment of figure 3 the tops 10 each point upwards. Naturally, other embodiments of the dust separating means 6 are also possible. After collection of the substance from the dust outlet 7, the useful constituents can be recovered from the dust, if desired, but it is also possible to recover the active ingredients during the grinding process by optimally adjusting the grinding and dedusting.

The embodiment of the sand displacing means 4 with scooping members, shown in figure 1, can be provided, in order to increase the total capacity with regard to the quantity of sand displaced thereby, in the device 1 with dotted ends 11 which, in the direction of the arrow, rotate in the direction of the arrow in the direction of the arrow. are bent. In this way, the sand scooped up by the bent ends 11 will be forced to come into contact with the high-speed grinder 3 at a substantially rectangular position of the sand displacing means 4.

The grinding process itself is generally determined by a number of process parameters, including the grinding time, the quality of the grinding device, the speed of the grinding device 3, the degree of loading of the device 1, the grinding resistance of the contaminated sand, the degree of dedusting, etc. The order of magnitude of these process parameters is often determined on the basis of experience.

In principle, the method and device described herein can be applied both batchwise or as continuous operation. Within the framework outlined above, several grinding members 3 and sand displacing means 4 arranged in the same housing can also be used.

Claims (14)

Method for the mechanical regeneration of used sand, which is ground after drying if necessary and, if necessary, cooled by means of a grinding member (3) with which it is brought into contact, after which the abraded foreign matter is separated from the sand thus regenerated. A method according to claim 1, wherein the sand is brought into a movement around the grinding member (3) before it is brought into contact with the moving grinding member (3). A method according to claim 1 or 2, wherein the abraded foreign substance is dedusted, after which the usable components are recovered from the substance. Device for applying the method as claimed in any of the claims 1-3, built up from a substantially box-shaped body, in which there is a grinding member (3), in the vicinity of which sand displacing means (4) are movably arranged. The device according to claim 4, wherein the grinding member (3) is rotatable. Apparatus according to claim 4 or 5, wherein the sand displacing means (4) are arranged movably around the grinding member (3). An apparatus according to any one of claims 4-6, wherein the sand displacing means (4) are movable concentrically around the grinding member (3). Device according to any one of claims 4-7, wherein the sand displacing means (4) have ends (11) designed as scooping members. Device as claimed in claim 8, wherein the scooping members are bent such that when the sand displacing means (4) move, the sand moves towards the grinding member (3) in an apparatus. The device according to any one of claims 4-9, wherein the grinding member (3) and the sand displacing means (4) are on one side of dust separation means (6) arranged in the device (1) and on the other side is a dust discharge (7) applied. Device as claimed in claim 10, wherein the dust-separating means (6) are designed as profiles (9) which are regularly spaced from one another. The device of claim 11, wherein the profiles (9) are substantially V-shaped. Device according to claim 11 or 12, wherein the profiles (9) are isosceles. Device according to claim 12 or 13, wherein the V-shaped profiles (9) are bent over an angle of approximately 90 °.