CZ35578U1 - Equipment for separating individual components forming clusters - Google Patents

Description

Equipment for separating individual components forming clusters

Field of technology

The technical solution concerns the field of mechanical engineering, sorting and feeding technology, specifically equipment for separating individual components forming interconnected clusters, such as "C" -shaped components, broken rings, staples, etc.

State of the art

Small parts are often used in engineering operations, used mainly to ensure the mutual position of two parts, such as circlips, cotter pins, broken metal "O" rings used to fasten hoses mounted on pipes, C-shaped safety elements, clips, etc. These parts are delivered in packages of hundreds or thousands, and in the package they usually form a cluster of interconnected individual components, from which the individual components must be separated so that they can be used in production and assembly lines.

This separation is done mainly by hand and is very laborious and labor-intensive and time-consuming.

For mechanization, resp. No functional, reliable and simple production equipment is known to automate the process of separating and feeding individual components of this type.

From the patent CS 38016 a fruit sorting drum is known, which is provided on the circumference with bars between which there are widening gaps. Such a sorting drum cannot be used to separate components from interconnected clusters, as the clusters would be wedged into the gaps and separation would not occur.

CS 46478 discloses a device for transporting and sorting guide bushes for spring rings provided with eyelets. The sleeves are picked up from the well by a rotating wheel with fingers, and fall onto a rail where there are means for directing the sleeve to a suitable position. However, the sleeve does not form clusters, so they can be easily taken from the sump separately.

To automate the separation of small components from clusters, the use of a sorter equipped with a movable table and tracks for the removal of individual components would be offered. Such a sorter is described, for example, in patent CS 7299 a, which relates to a device for sorting and feeding rings, buttons, lacing hooks and the like. However, the device is intended primarily for guiding the components from the turntable to the guide tracks in the correct position, not for separating the components entangled in clusters. It would not work properly for this purpose, the clumps would not break apart by simply turning on the horizontal table.

The task of the technical solution is therefore to create a device that would easily, reliably, efficiently and with low production and operating costs allow disintegration of clusters of components of the types described above, separation of these components from clusters and their feeding individually for further processing.

The essence of the technical solution

This object is achieved by providing a device for separating substantially flat components forming interconnected clusters, in particular "C" -shaped components, broken rings, staples and the like, according to this technical solution. Its essence lies in the fact that it consists of a driven rotatably mounted drum or drum segment, with a horizontal axis of rotation. The drum or drum segment is provided with a housing and an inlet for inserting a cluster of components. At least one driving surface is arranged tangentially on the inner side of the casing, which is followed by a flat outlet slot formed by

- 1 CZ 35578 UI in the casing in the direction of the driving surface. Through the outlet slot, the individual separate components fall out of the drum or drum segment in the direction opposite to the direction of rotation of the drum or drum segment.

The drum shell preferably has, at least on the inner side, a polygonal shape formed by a system of drive surfaces arranged one behind the other, the individual drive surfaces being separated from one another by the outlet slots.

In a particular embodiment, it is advantageous if the shell is formed by a set of polygonally arranged trapezoidal cross-sectional segments, the longer trapezoidal base of one segment always forming a driving surface, and at the same time delimiting the exit slot together with the shorter trapezoid side of the adjacent segment.

In a preferred embodiment, the segments are detachably connected to the side walls on both sides, an inlet for inserting a cluster of components being arranged in one of the walls. However, the inlet can also be formed at another location of the drum, e.g. in the casing, with a suitable constructional arrangement.

The device may further be provided with at least one beam on which the drum or drum segment is mounted. The beams are preferably two, arranged on the sides of the drum or drum segment, and are fixed by means of pins. The device is further formed by a slide, arranged under the casing of the drum or drum segment, in the projection of the outlet slot.

The device according to the technical solution makes it possible to unravel entangled clusters of components such as cut rings, "C" components, staples and the like in a simple manner and with high power, and at the same time to feed these components for further processing to the production and / or assembly line. The function of the device is completely reliable, the device can be manufactured and operated with minimal investment requirements, and thanks to the small installation dimensions, it can be easily incorporated into larger engineering units.

Clarification of drawings

The technical solution will be explained in more detail with the help of drawings, in which they show:

Fig. 1 is a perspective view of the device; and FIG. 2 is a vertical section of the device.

Examples of technical solutions

The device 1 is in the exemplary embodiment shown in FIGS. The shell 6 of the drum 4 forms circumferentially arranged polygonally and tangentially plastic segments 9 in the shape of prisms with trapezoidal bases. The segments 9 can also be made of another material. Between the individual segments 9 there are outlet slots 8. In order to hold the drum 4 together and to be closed, it is provided with two side walls 10, also of plastic. The side walls 10 are connected to the segments 9 by means of screws, and in one of the side walls 10 there is an inlet 5 formed by an opening covered by a sliding lid. The segments 9 form a polygonal array of entrainment surfaces 7 and outlet slots 8 inside the shell 6, because each additional base of one trapezoidal segment 9 forming the entrainment surface 7 runs parallel to the shorter side of the adjacent trapezoidal segment 9 and thus together forms an outlet slot 8 passing through the shell 6 in the entrainment direction. areas 7.

The components 2, in the given embodiment of the cut steel rings for fastening the hoses to the pipes, or for securing them in the hole, are inserted in the interconnected cluster 3 through the inlet 5 into

-2 CZ 35578 UI of the drum 4. The inlet 5 closes and the drum 4 begins to rotate in the s direction. It is advantageous if the length of the driving surface 7 is several times the largest dimension of the component 2, so that more components 2 can be placed on it. 7 that the part 2 begins to slide on it until it passes through the outlet slot 8 in the casing 6 and falls out of the drum 4. Here, a slide 13 is prepared, after which the part 2 descends to the production or assembly line for further processing. Slide 13 can be replaced by another known conveyor or feeder. For proper operation, it is advantageous if the length of the flat outlet slot 7 is greater than half the largest dimension of the component 2, in order to avoid jamming of the component 2 in the outlet slot 8. Nevertheless .

In other non-illustrated embodiments, the drum 4 does not have to be composed of segments 9, but may have essentially any configuration known to the person skilled in the art, it being important that inside the drum 4 there is at least one driving surface 7 followed by a flat outlet slot 8 formed. in the casing 6 in the direction of the driving surface 7, for the passage of the components 2 through the casing 6 in the direction opposite to the direction of rotation of the drum 4. It can essentially be a cylindrical drum, on the inside in one or more rows side by side.

In other non-illustrated embodiments, the device j can be formed by a driven rotatably mounted drum segment, which can only form a closed section of the cylindrical body of the drum 4. This drum segment can move in a rocking motion, once in the s direction and once against the s direction. the design of the drum segment is identical to the design of the drum 4. The design with the oscillating drum segment has less capacity and speed, but prevents 100% jamming of the components 2 in the outlet slots 8.

Industrial applicability

The device according to the technical solution can be used in mechanical engineering, specifically in the production and assembly of small parts forming entangled clusters, such as cut rings, C-shaped parts, staples and the like.

Claims (7)

PROTECTION REQUIREMENTS Device for separating substantially flat components (2) forming interconnected clusters (3), in particular "C" -shaped components, broken rings, staples and the like, characterized in that it is formed by a driven rotatably mounted drum (4) or a drum segment, with a horizontal axis of rotation, provided with a housing (6) and an inlet (5) for inserting a cluster (3) of components (2), at least one driving surface (7) being arranged tangentially on the inner side of the housing (6), to which it adjoins a flat outlet slot (8) formed in the housing (6) in the direction of the driving surface (7), for the passage of the components (2) through the housing (6) in the direction opposite to the direction (s) of rotation of the drum (4) or drum segment. Device according to Claim 1, characterized in that the housing (6) has a polygonal shape at least on the inner side, formed by a set of drive surfaces (7) arranged one behind the other, the individual drive surfaces (7) being separated from one another by outlet slots (8). . Device according to claim 2, characterized in that the casing (6) is formed by a set of polygonally arranged prismatic segments (9) with a trapezoidal cross-section, the longer trapezoidal base of one segment (9) always forming a driving surface (7), and at the same time it delimits the outlet slit (8) together with the shorter side of the trapezoid of the adjacent segment (9). Device according to claim 3, characterized in that the segments (9) are detachably connected to the side walls (10) on both sides, an inlet (5) for inserting a cluster (3) of components being arranged in one of the walls (10). (2). Device according to one of Claims 1 to 4, characterized in that it is further formed by at least one beam (11) on which the drum (4) or the drum segment is mounted. Device according to claim 5, characterized in that the beams (11) are two, are arranged on the sides of the drum (4) or the drum segment, and are fastened by means of pins (12). Device according to one of Claims 1 to 6, characterized in that it is further formed by a slide (13) arranged below the housing (6) of the drum (4) or the drum segment in the projection of the outlet slot (8).