KR200452157Y1 - Transfer wheel for diverter conveyor - Google Patents

Abstract

The present invention relates to a transfer wheel for a diverter conveyor, the shaft coupling hole 11 through which the rotating shaft 5 is coupled through is formed in the center, the outer peripheral surface is disposed at equal intervals along the circumferential direction radially from the outer peripheral surface The wheel body 10 is provided with a plurality of roller connecting pieces 12 having a plurality of shaft supporting protrusions 13 are formed to extend and the upper end is opened to both sides again parallel to the shaft supporting protrusions 13 of the adjacent roller connecting piece 12 ; And an idle roller 20 having mounting grooves 21 formed at both ends thereof so as to be mounted to the axial support protrusions 13 of the roller connecting pieces 12 arranged in parallel. Therefore, by providing two rows of roller connecting pieces arranged alternately on the outer circumferential surface of the single wheel body, the manufacturing cost is lower than that of combining a pair of transfer wheels having a single row structure as well as a separate transport wheel Since there is no need for coupling work between them, the assemblability and workability are improved, and the axial support protrusion of the roller connecting piece has an inclined surface structure, so that the mounting of the idle roller is made simple by the sliding method, which also leads to the improvement of the assemblability. By maximizing the contact area between the conveying object and the idle roller, the idler roller has a convex cylindrical structure, which minimizes the contact pressure to the conveying object, thereby minimizing damage to the conveying object. .

Description

Transfer wheel for diverter conveyors

The present invention relates to a transfer wheel for a diverter conveyor, and more particularly, by having a two-row roller connecting pieces arranged alternately on the outer circumferential surface of a single wheel body, a pair of transfer wheels having a conventional single-row structure Compared with the coupling, the manufacturing cost is lowered, and as a result, the assembly work and the workability are improved by eliminating the need for a separate transfer wheel, and the axial support protrusion of the roller connecting piece has an inclined surface structure, which makes it easy to install the idle roller. It is also made of a sliding method, which leads to improved assembly. In addition, the idle roller has a central convex cylindrical structure, which maximizes the contact area between the conveying object and the idle roller, thereby minimizing the contact pressure to the conveying object. It relates to a transfer wheel for a diverter conveyor to minimize damage to the object.

The roller conveyor of the logistics conveying apparatus is a device for conveying an object mounted on the upper part by arranging a plurality of rollers, and the apparatus for changing the conveying direction of the conveying object as an accessory device constituting the roller conveyor apparatus is a diverter conveyor.

The transfer wheel used in such a diverter conveyor is usually provided with a wheel body that is axially rotated together with a rotation axis, and a roller device for transferring an object in a right direction while being axially rotated in a direction perpendicular to the wheel body again on the outer circumferential surface of the wheel body. It is a structure provided.

Looking at the transfer wheel of the diverter conveyor schematically, the transfer wheel of the prior art is provided with a pair of wheel body axially coupled to the rotating shaft, a plurality of idle rollers are axially rotated at right angles to the outer peripheral surface of the wheel body It is provided, the pair of the wheel body is a structure that is coupled through a separate coupling means, the rotation of the wheel body to move the object in the direction of progress through the rotation of the wheel body when the direction change is required in the right direction This stops and the feed force of the other conveying means is to the idle roller to the function of helping to transfer the object in the perpendicular direction.

However, since the transfer wheels of the prior art have to combine a pair of transfer wheels having a single-row structure with each other, the manufacturing cost is high, and the joining operation is difficult, and the transfer operation is properly performed when the coupling state is poor. There was a problem of not losing.

In addition, since the means for assisting the coupling between the idle roller and the shaft support projection of the roller connecting piece is not provided, there was a problem that the workability is reduced while the joining operation between each other becomes difficult.

In addition, since the contact area between the idle roller and the object is small, the contact pressure to the conveying object increases, resulting in damage to the conveying object.

In order to improve the above problems, the present invention has a two-row roller connecting piece arranged alternately on the outer circumferential surface of a single wheel body, so that manufacturing cost is higher than that of combining a pair of transfer wheels having a single-row structure. It is an object of the present invention to provide a transfer wheel for a diverter conveyor to be inexpensive as well as eliminating the need for a separate work between the transfer wheels to improve the assembly and workability.

In addition, by making the axial support protrusion of the roller connecting piece to the inclined surface structure, the mounting of the idle roller is easily made in a sliding manner, there is another object to provide a transfer wheel for a diverter conveyor that also leads to improved assembly.

In addition, the diverter conveyor has a cylindrical structure with a convex center to maximize the contact area between the conveying object and the idle roller, thereby minimizing the contact pressure to the conveying object and consequently minimizing damage to the conveying object. Another purpose is to provide a transfer wheel.

In order to achieve the above object, the transfer wheel for a diverter conveyor of an embodiment of the present invention is formed with a shaft coupling hole through which a rotating shaft is coupled through the center, and is disposed at equal intervals along the circumferential direction on the outer circumferential surface thereof and is radial on the outer circumferential surface thereof. A wheel body provided with a plurality of roller connecting pieces having a shaft support protrusion extending in parallel to the upper end portions of the roller supporting pieces being parallel to the support shafts of the adjacent roller connecting pieces; And idle rollers having mounting grooves formed at both ends thereof so as to be mounted to the axial support protrusions of the roller connecting pieces arranged in parallel.

In addition, in the transfer wheel for a diverter conveyor of an embodiment of the present invention, the roller connecting pieces are arranged in two rows along the outer circumferential surface of the wheel body, it is preferable that a predetermined angle is arranged along the arc between the roller connecting pieces adjacent to each other.

In addition, in the transfer wheel for a diverter conveyor of an embodiment of the present invention, it is preferable that an auxiliary mounting hole having an auxiliary mounting hole is further provided in the mounting groove of the idle roller so as to mount the shaft support protrusion.

In addition, in the transfer wheel for a diverter conveyor of an embodiment of the present invention, the auxiliary mounting hole is inserted into the mounting groove of the idle roller and the tube portion to be closely coupled, radially extending from one end of the tube portion mounting groove It is preferable that the ring-shaped portion be caught by the rim.

In addition, in the transfer wheel for a diverter conveyor of an embodiment of the present invention, the cross section of any one of the shaft support projection of the pair of shaft support projections facing each other so that the idle roller is mounted easily while the ring-shaped portion of the auxiliary mounting opening is sliding. It is desirable to have a sloped top structure with a short top and a long bottom so that it can be mounted in a secure manner.

In addition, in the transfer wheel for a diverter conveyor according to an embodiment of the present invention, the cross section of the other shaft support projections facing each other of the shaft support projections of the inclined surface structure having a short upper end and the lower end is easy while sliding the ring-shaped portion of the auxiliary mounting holes. It is desirable to have an inverted structure having an inclined surface having a long upper end and a short lower end so that it can be easily mounted.

In addition, in the transfer wheel for a diverter conveyor of an embodiment of the present invention, the idle roller is preferably a cylindrical structure having a convex center.

Such a transfer wheel for a diverter conveyor of the present invention has a two-row roller connecting pieces arranged alternately on the outer circumferential surface of a single wheel body, compared to the conventional coupling of a pair of transfer wheels having a single row structure The cost is low and of course, there is no need for a separate operation between the transfer wheels, thereby improving the assembly and workability.

In addition, by making the axial support protrusion of the roller connecting piece into the inclined surface structure, the mounting of the idle roller is easily made in a sliding manner, which also leads to an effect of improving the assembly.

In addition, by maximizing the contact area between the conveying object and the idle roller by using the idler roller in the center convex cylindrical structure, the contact pressure to the conveying object is minimized, resulting in the effect of minimizing damage to the conveying object.

1 is a perspective view showing a transfer wheel for a diverter conveyor according to an embodiment of the present invention.
2 is an exploded perspective view showing a transfer wheel for a diverter conveyor according to an embodiment of the present invention.
3 is a side view showing a transfer wheel for a diverter conveyor according to an embodiment of the present invention.
Figure 4 is a perspective view showing a state before the idle roller is mounted as a roller connection piece of the transfer wheel for the diverter conveyor according to an embodiment of the present invention.
5 is a perspective view illustrating a state in which an idle roller is mounted as a roller connection piece of a transfer wheel for a diverter conveyor according to an embodiment of the present invention.
6 is a perspective view illustrating a state in which an idle roller is mounted as a roller connecting piece of a transfer wheel for a diverter conveyor according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

As shown in Figure 1 to 6, the transfer wheel for the diverter conveyor according to an embodiment of the present invention is formed in the center shaft coupling hole 11 through which the rotating shaft 5 is coupled, the circumferential direction on the outer peripheral surface A plurality of axial support protrusions 13 are disposed at equal intervals and extend radially from the outer circumferential surface thereof so that the upper ends thereof are opened to both sides and are arranged in parallel with the axial support protrusions 13 of the adjacent roller connecting pieces 12. An idle roller 20 having mounting grooves 21 formed at both ends thereof so as to be mounted on the wheel body 10 provided with the roller connecting pieces 12 and the axial support protrusions 13 of the roller connecting pieces 12 arranged in parallel. ) Is configured to include.

In addition, the roller connecting pieces 12 are arranged in two rows along the outer circumferential surface of the wheel body 10, and the roller connecting pieces 12 are arranged at a predetermined angle along the arc between the adjacent roller connecting pieces 12.

In addition, the mounting groove 21 of the idle roller 20 is provided with an auxiliary mounting hole 30 having an auxiliary mounting hole 31 to mount the shaft support protrusion 13.

In this case, the auxiliary mounting hole 30 is inserted into the mounting groove 21 of the idle roller 20 and the tube portion 32 to be in close contact, and radially extending from one end of the tube portion 32 is mounted It consists of a ring-shaped portion 33 to be caught in the groove 21 edge.

In addition, any one of the pair of shaft support protrusions 13 of the pair of shaft support protrusions 13 facing each other so that the idle roller 20 is mounted has a cross-section of the ring-shaped portion 33 of the auxiliary mounting hole 30. The top is short and the bottom is long inclined surface (13a) structure so that it can be easily mounted while sliding.

The other shaft support protrusions 13 of the shaft support protrusions 13 of which the upper end is short and the lower end is long inclined surface 13a have an inverted structure having a long upper end and a short lower end inclined surface 13b. have.

Such a structure is conversely, when the idle roller 20 is separated from the roller connecting piece 12, the ring-shaped portion 33 of the auxiliary fitting port 30 slides while riding on the inclined surface 13b to be easily detached. You can expect the effect.

In addition, the idle roller 20 has a convex cylindrical structure at the center thereof to maximize the contact area between the transfer object and the idle roller, thereby minimizing the contact pressure to the transfer object, thereby minimizing damage to the transfer object. will be.

Looking at the assembly state of the transfer wheel for a diverter conveyor of an embodiment of the present invention having such a configuration as follows.

First, a separate auxiliary mounting hole 30 is inserted into the mounting groove 21 of the idle roller 20, and then the pair of roller connecting pieces 12 are arranged in parallel with each other. Inserted between the shaft support protrusion 13 of the roller connecting piece 12 is inserted into the auxiliary mounting hole 31 of the auxiliary tool 30, the assembly between each other is completed.

At this time, in the assembling process, first, the ring-shaped portion 33 of the auxiliary mounting hole 30 on the opposite side is inserted in the state in which the shaft support protrusion 13 of the roller connecting piece 12 is inserted into the auxiliary mounting hole 31 at one end. While sliding down and sliding down the inclined surface 13a of the shaft support protrusion 13, the roller connecting piece 12 is elastically slightly pushed down by the downward pressing force of the idle roller 20, and when the sliding is completed, it returns to its original position. While being assembled, the shaft support protrusion 13 is inserted into the auxiliary mounting hole 31.

On the other hand, it will be apparent that the process of separating the idle roller 20 from the roller connecting piece 12 can also be separated from the above by using the inclined surface 13b of the shaft support protrusion 13.

Looking at the operating state of the diverter conveyor equipped with the transfer wheel is assembled as described above, when the flat surface is placed on the diverter conveyor in the state in contact with the outer peripheral surface of the idle roller (20) The conveying direction of the object is determined along the axis rotation direction of the conveying wheel according to the rotation of 5).

In this case, when the feed direction is to be transferred through the feed wheel and the direction is to be changed in the perpendicular direction, the rotation of the rotating shaft 5 is stopped and the idle roller 20 is freely rotated while the object is transferred through the separate direction changing device. It will help to transport the object.

As such, the transfer wheel for a diverter conveyor according to an embodiment of the present invention includes a roller connecting piece having a two-row structure arranged alternately on the outer circumferential surface of a single wheel body, thereby combining a pair of transfer wheels having a single-row structure. The manufacturing cost is lowered compared to the above, and the assembly work between the transport wheels is not required, and the assembly and workability are improved, and the axial support protrusion of the roller connecting piece has an inclined surface structure, so that the mounting of the idle roller is sliding. It is made in a simple manner, and this also leads to an improvement in assemblability. Also, by maximizing the contact area between the conveying object and the idle roller by using the idler roller in the center convex cylindrical structure, the contact pressure to the conveying object is minimized. The damage to the furnace can be minimized.

In the above has been shown and described with respect to the preferred embodiment of the present invention, the present invention is not limited to the above embodiment, the general knowledge in the field to which the present invention belongs without departing from the spirit of the present invention claimed in the claims Anyone with a variety of modifications can be made, of course, such changes can be seen to be included within the scope of the claims.

The present invention is a technology that can be immediately applied to a flat display processing plant, such that it is easy to change the direction in the roller conveyor device for the transfer of flat objects, such as plate glass, but to minimize the impact on the object. As a technology, the industrial applicability is very large.

5: axis of rotation 10: wheel body
11 shaft coupling hole 12 roller connecting piece
12: shaft support protrusion 13a: inclined surface
13b: slope 20: idle roller
21: mounting groove 30: auxiliary mounting holes
31: auxiliary mounting hole 32: original pipe

Claims (6)

A shaft coupling hole 11 through which the rotating shaft 5 is coupled in the center is formed, and the outer circumferential surface is arranged at equal intervals in two rows with a predetermined angle shifted along the circumferential direction, and the upper ends extending radially are opened to both sides, so that each roller connection piece 12 A wheel body 10 provided with a plurality of roller connecting pieces 12 on which the axial support protrusions 13 are formed to protrude from the roller connecting pieces 12; And
An idle roller 20 having mounting grooves 21 formed at both ends thereof so as to be mounted between the axial support protrusions 13 facing each of the roller connecting pieces 12;
Transfer wheel configured for the diverter conveyor. The method of claim 1,
In the mounting groove 21 of the idle roller 20, the transfer wheel for diverter conveyor, characterized in that the auxiliary mounting hole 30 having an auxiliary mounting hole 31 is further provided so that the shaft support protrusion 13 is mounted. . The method of claim 2,
The auxiliary mounting hole 30 is inserted into the mounting groove 21 of the idle roller 20 and the tube portion 32 to be in close contact, and radially extending from one end of the tube portion 32 mounting groove ( 21) Transfer wheel for diverter conveyor, characterized in that consisting of a ring-shaped portion 33 to be caught on the rim. The method of claim 3,
The cross section of any one of the shaft support protrusions 13 of the pair of shaft support protrusions 13 facing each other so that the idle roller 20 is mounted is easy as the ring-shaped portion 33 of the auxiliary fitting 30 is slid. Feeder wheel for diverter conveyor, characterized in that the top is short and the bottom is inclined surface (13a) structure so that it can be mounted. The method of claim 4, wherein
Cross sections of the other shaft support protrusions 13 facing each other of the shaft support protrusions 13 having a short upper end and an inclined surface 13a having a lower end are easily slid as the ring-shaped portion 33 of the auxiliary mounting tool 30 slides. The transfer wheel for a diverter conveyor, characterized in that the upper structure has an inverted structure having a long inclined surface (13b) and a short bottom so that it can be separated. The method of claim 1,
The idle roller 20 is a transfer wheel for a diverter conveyor, characterized in that the center convex cylindrical structure.

Images