BG1155U1 - Swivel joint for suction pipe of surface processing machines - Google Patents

Abstract

The swivel joint comprises a first bush (1) and a second bush (2), which can be hinged with a possibility of rotating with respect to each other, so that the respective longitudinal axes are mutually arranged in at least two positions at an angle of 0 and 90 degrees for example, thus ensuring the operation of the surface processing machine with greater flexibility in tight spaces.

Description

The utility model relates to a hinge coupling for two parts of a dust extraction system for surface treatment machines.

BACKGROUND OF THE INVENTION

The problems associated with the dusty dust and which spreads to the environment during the operation of surface treatment machines are well known. The possibility of dust removal by suction improves the conditions of operation of the surface treatment machine as well as the operating conditions of the operator. Examples of these are, for example, dual-action orbital sanders without a suction tube operating in a closed environment.

Despite the undeniable advantages of operation and their widespread use in the prior art, the combination of a suction system and a surface treatment machine can cause ergonomic problems due to the addition of the suction tube and its lack of flexibility limiting its placement. In fact, connectors known in the art provide for the suction tube to be positioned in only one position, which is usually perpendicular or parallel to the suction plane.

A typical difficulty encountered in such an arrangement is to reduce the possibility of maneuvering the surface treatment machine in the direction of the suction tube. For example, we mean an orbital sander that must be able to operate in a confined space and advantageously be able to have a suction pipe outlet perpendicular to the work surface. The grinder must also be able to be used for work in space that is restricted between two walls by using a connector whose axis is parallel to those walls. Obviously, unless there is a possibility to change the orientation of the suction pipe connector, the grinder will not be able to work in both cases.

The technical nature of the utility model

The task of the utility model is to eliminate these difficulties.

According to the utility model, this task is solved by means of a hinge for a suction system that is attached to a surface treatment machine.

The connection according to the present utility model comprises two bushings that can rotate about the inclined axis of the suction tube, which is in particular oriented at an angle of 45 ° with respect to the suction direction, longitudinally from the normal to the hinge plane. One of the bushings is connected to the suction flexible tube and the other bush is connected laterally to the surface treatment machine to suck up particulate matter. Depending on the type of connection of the two bushings, the relative positions of the respective axes can be selected as desired and without interruption in such a way that the respective axes coincide or are oriented below 90 °.

These and other features of the present utility model will become apparent from the following detailed description of exemplary embodiments of the utility model, which are shown as non-limiting examples of the attached drawings, where:

Figure 1 shows a suction grinder with a compound according to the present utility model on coincident axes;

2 shows the grinder of FIG. 1 with a compound according to the present utility model when the axes are located below 90 °;

Figure 3 is a longitudinal partial view of a compound according to the present utility model when the axes coincide;

Figure 4 shows the first sleeve of the compound according to the present utility model, as seen from below;

Figure 5 is a section along the longitudinal axis V-V of the sleeve of Figure 4;

Figure 6 is a second connection sleeve according to the present utility model, as seen from below;

7 is a sectional view along the longitudinal axis VIIVII of the sleeve of FIG. 6;

8 is a second connection sleeve according to the present utility model, as seen from the hinge plane;

Figure 9 shows the joint according to the present utility model when the second sleeve is integral with the grinder;

Figure 10 is a longitudinal partial view of another embodiment of the compound according to the present utility model.

According to the drawings, the joint 50 according to the present utility model comprises a first sleeve 1 and a second sleeve 2. In Figure 1, a grinder 52 can be seen which is connected by means of the joint 50 and hinges 51 in series to the pipe connected to the suction machine.

The first sleeve 1 is disclosed below by reference to Figures 4 and 5, where it is possible to distinguish the hollow cylindrical body 3 with one free end 4 for connection with the suction machine and one pivot end 5. The hinge end 5 is formed by a cylindrical projection. 6, which ends with the annular portion 7, which is wider than the diameter of the cylindrical portion 6 and narrows in diameter into the end introductory portion. According to this non-limiting example, the axis of the hinged end 5 forms an angle of 45 ° with the axis of the cylindrical portion 3 of the first sleeve 1. Another characteristic feature is that the cylindrical projection 6 and the annular portion 7 have pairs of slots 8 which are arranged in diameter of the cylindrical part and which divide the cylindrical part 6 and the annular part 7 into sectors to achieve a double increase in the flexibility of the hinge end 5, which must be secured by the corresponding recess of the second sleeve 2 and to provide the relative rotational motion between the bushings 1 and 2 in order to obtain, only by overlapping, the locking torque which is caused, by engaging the slots 8 with the corresponding projections on the second bush 2, as will be further clarified. down.

The second sleeve 2 is disclosed by reference to Figures 6, 7 and 8. They can see a hollow cylindrical body 9 with one free end 10 for connection to the machine for surface treatment and one hinged end 11. The hinged end 11 has a conical opening 12, the diameter of which decreases inwards, and thus the cylindrical projection 6 and the annular portion 7 can be inserted into the hole by pressure during assembly, and which opening has at least one pair of projections 13, these projections 13 being dimensioned such that their diameter is decreases smoothly and consequently The size of the cone hole opening 12 is also gradually reduced. The projections 13 of the second sleeve 2 are engaged with the corresponding slots 8 of the first sleeve 1 in such a way that the relative rotational movement of the sleeves relative to one another is ensured. by gentle pressing, thus removing free uncontrolled rotation, for example, while the machine is getting ready for operation. According to another basic but non-limiting embodiment of the hinge end 11, the axis of this hinge 11 forms an angle of 45 ° with the hollow cylindrical body 9 of the first sleeve 1.

During assembly, the cylindrical part 6 and the annular part 7 of the first sleeve 1 are inserted by pushing into the conical opening 12 of the second sleeve 2, thereby monitoring and achieving a coincidence of the projections 13 and the slots 8. The two axes of the hinge ends 5 and 11 will then coincide to form a common pivot axis 14 and the first sleeve 1 and second sleeve 2 will be joined together along the articulation plane 53, which is inclined toward the axes of the two sleeves and is perpendicular to the articulation axis 14. The projections 13 are arranged along the diametrical o with, which is clearly visible, for example, in figures 6 and 8, and the slots 8 are arranged on two mutually perpendicular diameters, which is clearly visible in figure 4, in such a way as to create a temporary lock in two operating positions: in the case of paralysis (coincidence) of the sleeve axes and the mutual perpendicularity of the sleeve axes, according to the purpose of this utility model.

If necessary, additional operating positions can be provided at angles other than 0 and 90 ° by the use of suitable locking elements which can be applied to both bushes 1 and 2.

Therefore, in another embodiment, the sleeve 2 may be integral with the machine 52.

Figure 10 shows another exemplary embodiment of the compound according to the present utility model, wherein the first and second bushings 1 and 2 have corresponding hollow cylindrical bodies 3 and 9 with identical free ends 4 and 10 in which they are arranged to be rotatable, respective bearing sleeves 21 and 22 of the same or different diameter. The connection 50 is therefore connected to the suction machine and the surface treatment machine.

Claims (7)

1. Injection hinge joint for surface treatment machines, in particular for combining, is a surface treatment machine, characterized in that it comprises a first sleeve (1) and a second sleeve (2), which are joined together along the hinge plane (53), which is inclined relative to the axes of the two bushes so that their respective longitudinal axes can have at least two mutually inclined positions. Hinge joint according to claim 1, characterized in that the first sleeve (1) comprises a hollow cylindrical body (3) with one free end (4) for connection to a suction machine and a hinged end (5) formed by a cylindrical a projection (6) ending in an annular portion (7) whose diameter is wider than the cylindrical portion (6) and narrows in diameter at the end portion; and the second sleeve (2) has a hollow cylindrical body (9) with one free end (10) for connection to a surface treatment machine and a hinged end (11) having a conical opening (12) whose diameter narrows inwards at which the cylindrical projection (6) and the annular portion (7) can be inserted into it by pressure during assembly. Hinge joint according to any one of the preceding claims, characterized in that the hinge axis (14) is inclined at an angle of 45 ° with respect to the longitudinal axes of the first sleeve (1) and of the second sleeve (2) when the axles of the sleeves coincide, thereby creating a hinged connection at angles of 0 and 90 ° for the axes of the two sleeves. Hinge joint according to any of the preceding claims 2 or 3, characterized in that the cylindrical part (6) and the annular part (7) of the first sleeve (1) have slots (8) which separate the cylindrical part ( 6) and the corresponding annular portion (7) of the sectors, providing greater flexibility and also that the conical opening (12) of the second sleeve (2) has projections (13) that are dimensioned such that the diameter of the conical opening (12) smoothly reduce and projections (13) suitable for engaging with the corresponding slit (8) of the first sleeve (1) such that, in the subsequent assembly of the sleeves (1 and 2), the relative rotation between them is realized by sliding with pressure until the free rotation is impossible and stopped by locking in positions which are defined by the projections (13) and the slots (8). Hinge joint according to claim 4, characterized in that the slots (8) are arranged in pairs opposite to the ends of the diametrical axes of the hollow cylindrical part (6) and the projections (13) are also arranged in pairs opposite to the ends of the diametrical axes of the conical opening (12). Hinge joint according to any one of the preceding claims, characterized in that the second sleeve (2) is inseparably assembled with the surface treatment machine (52). Hinge joint according to any one of the preceding claims, characterized in that the two bushings (1,2) have free ends (4, 10) in which the respective bushing bushings (21, 22) are mounted ).