KR100663281B1 - Endless chain conveyor - Google Patents

Abstract

An infinite chain conveyor is provided to drastically increase the distribution cost and the productivity by changing and using different size transmission plates according to the volume and the weight of transmitted objects. An infinite chain conveyor comprises a driving sprocket(40) driven by a driving motor, and mounted inside an installation frame(20) formed at predetermined height; one or plural driven sprockets(45) corresponded to the driving sprocket or mounted at predetermined position; a chain connected to the driving and the driven sprockets, and provided with a pin link plate and a roller link plate to a closed track; a tracking frame tracked by the chain and a combination unit; and a transmission plate(10) tracked by the tracking frame, installed to place the transmitted object and transmit. The tracking frame is shaped like a circle with predetermined area, and extended from the inside center unit of the circle along a diameter, wherein one end is connected with the chain by the combination unit. The length of transmission plate is longer than the length of the pin link plate or the roller link plates, and detached from the tracking frame, wherein a part of the transmission frame is overlapped with another neighbored transmission plate.

Description

Infinite Chain Conveyor {ENDLESS CHAIN CONVEYOR}

1 is a schematic plan view of an infinite chain conveyor according to an embodiment of the present invention,

2 is a cross-sectional view taken along the line A-A of FIG.

3 is an enlarged cross-sectional view of B of FIG.

Figure 4 is an exploded perspective view of the chain and the traction frame in the infinite chain conveyor according to an embodiment of the present invention,

Figure 5 is an exploded perspective view of the traction frame and the transfer means in the infinite chain conveyor according to an embodiment of the present invention,

6 and 7 is a rotating state of the curved portion in the infinite chain conveyor according to an embodiment of the present invention,

8 is a schematic plan view of a conventional infinite chain conveyor,

Figure 9 is an exploded perspective view of the sprocket portion in the conventional endless chain conveyor,

10 is an exploded perspective view of a chain and a towing frame in a conventional infinite chain conveyor,

Figure 11 is a cross-sectional view of the coupling of the chain and the towing frame in the conventional infinite chain conveyor.

<Description of Symbols for Main Parts of Drawings>

10, 22: transfer plate 11: towing frame

12: edge portion 13: towing portion

14: coupling hole 15: coupling screw

16: weld groove 17: seam

20: Installation frame 21, 70: Chain

24: outer frame 25: inner frame

26: tow tray 30: clean brush

40, 23: prime sprocket 45: driven sprocket

50, 51: Guide 60: Connection bracket

61: screw hole 62: pin retaining groove

71: roller 72: roller link plate

73: pin link plate 74: pin

75: pinhole 80: chain rail rail

The present invention relates to an endless chain rail conveyor, more specifically, can be used by replacing the conveying plate so as not to damage the conveying body in accordance with the physical properties of the conveying body, such as surface strength, and also standardized regardless of the size and weight of the conveying body The invention relates to an endless chain rail conveyor, which is inexpensive and easy to maintain because it is manufactured by mounting a chain rail.

In general, an endless conveyor refers to a device that is circulated indefinitely on a conveyor unless a feed object (transportation object) once input is removed by manpower or any means.

8 is a schematic plan view of a conventional endless chain rail conveyor, an installation frame 20 mounted at a predetermined height, a chain 21 circulating in an endless track in the installation frame 20, and the chain It is configured to include a plurality of conveying plate 22 is connected to the upper surface of the 21 and circulated. In this case, as shown in FIG. 9, the chain 21 receives a driving force by sprockets mounted to curved portions of both ends of the installation frame 20. That is, the chain is circulated by receiving power from a driving motor (not shown) connected to the motive sprocket 23. In addition, the chain 21 is circulated by placing a driven sprocket on the opposite side of the prime sprocket 23.

On the other hand, as shown in Figure 10 and 11, the chain 21 is configured to be continuously mounted in the transfer plate 22 of the half moon shape so that the conveying body is seated and transported. That is, the roller 71, the pin 74 which becomes the rotation axis of the roller 71, the roller link plate 72 which connects the said roller 71, and the pin link plate which connects the said pin 74 ( The pin 74 of the chain consisting of 73 is connected to each of the traction table 26 mounted on the transfer plate 22 of the half moon form. Reference numeral 24 denotes an outer frame that forms an outer side of the installation frame 20, and reference numeral 25 denotes an inner frame.

However, such a conventional endless conveyor has a structural problem that the width between each transfer plate 22 and the length of the link plate 72, 73 of the chain towing it must match. In other words, the width between the transfer plates 22 and the lengths of the link plates 72 and 73 of the chain must coincide to rotate while forming a constant curvature in the curved portion. Therefore, there is a problem in that a special chain must be manufactured to match the width between the transfer plates 22. In addition, as described above, there is a problem in that a special chain coinciding with the width between the transfer plates 22 has to be manufactured separately according to the change of the specification of the transfer plate 22.

On the other hand, in the conventional endless conveyor as described above, because the conveying plate 22 should be rotated in contact with each other adjacent to each other because the conveying plate 22 has to use a material of high hardness, the surface of the conveying body is relatively low hardness Fruits and the like have a problem that is easy to damage the surface when seated. In addition, since the frictional force between the transfer plate 22 is large, the wear rate of the transfer plate 22 is high in an operating environment in which dust and the like is high. Therefore, when the transfer plate 22 is abnormally operated, There is a problem that the chain must be replaced.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide an endless chain conveyor that can use a standardized chain regardless of the conveying plate having different specifications according to the conveying body.

In addition, the present invention can be used by appropriately replacing the transfer plate of the elastic material according to the use so that the transfer body, such as fruit having a relatively low surface strength of the surface is not damaged, easy maintenance of the transfer plate and low replacement cost The purpose is to provide an endless chain conveyor.

The present invention provides a drive sprocket driven by a drive motor inside the installation frame formed at a predetermined height, a single or multiple driven sprockets mounted and driven in correspondence with or in a predetermined position with the drive sprocket, and the drive sprocket and the driven sprocket. In the endless chain conveyor comprising a chain comprising a pin link plate and a roller link plate of a predetermined length connected to form a closed trajectory, and a transfer plate connected to the chain for transporting the conveying body, the chain 70 And a towing frame 11 which is connected and towed by a fastening means, and a transport plate 10 that is towed by the towing frame 11 and seats and transports the conveying body, and the towing frame 11 is fixed. The chain 70 and the sieve at the end of the arc shape having a width extending in a predetermined length along the diameter at the inner central portion of the arc; It is connected by means, the length of the transfer plate 10 is formed in a predetermined multiple to be greater than the length of the pin link plate 73 or roller link plate 72, overlapping with a portion of the other transfer plate adjacent, the towing It is characterized in that it is configured to be detachable from the frame (11).

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The transfer plate has a half moon shape having a predetermined width, and the fastening means is formed by overlapping a middle point of an arc-shaped boundary line formed by overlapping another transfer plate adjacent to the transfer plate and another transfer plate adjacent to the transfer plate. It is preferable to be located on the line connecting the midpoint of the boundary line of the arc shape.

More preferably, the transfer plate is formed of woven fabrics, synthetic resins or metals in contact with the transfer body.

On the other hand, it is preferable that the chain rail is further mounted on the lower end of the chain so that the chain can be circulated stably.

Hereinafter, with reference to the accompanying drawings will be described in detail the infinite chain conveyor of the present invention.

1 is a schematic plan view of an endless chain conveyor according to an embodiment of the present invention, Figure 2 is a cross-sectional view of the line AA of Figure 1, Figure 3 is an enlarged cross-sectional view of B of Figure 2, Figure 4 is a present invention 5 is an exploded perspective view of the chain and the towing frame in the infinite chain conveyor according to an embodiment of the present invention, Figure 5 is an exploded perspective view of the towing frame and the transfer means in the infinite chain conveyor according to an embodiment of the present invention, Figures 6 and 7 In the infinite chain conveyor according to an embodiment of the present invention is a state diagram of the curved portion.

Infinite chain conveyor according to a preferred embodiment of the present invention, as shown in Figure 1 to 7, the installation frame 20 formed to a predetermined height, and the sprocket is mounted on both side ends of the installation frame 20 to rotate 40 and 45, a chain 70 formed of a plurality of chain blocks circulated in an endless track at the upper end of the installation frame 20 by receiving the driving force of the sprockets 40 and 45, and the chain 70 A plurality of conveying plates 10 mounted on the conveying body and circulated by the conveying body, and a clean brush 30 mounted inside the edge of the installation frame 20 to remove foreign substances from the conveying plate 10. It is configured to include.

The present invention is characterized in that the transport plate 10 and the connection structure thereof are mounted and transported on the chain 70. That is, the pin 74 of the chain 70, the connecting bracket 60 connected to the pin 74, the towing frame 11 connected to the connecting bracket 60, and the towing frame ( 11) and a conveying plate 10 for receiving and conveying the conveying body.

The chain 70 connects the rollers 71, the pins 74 serving as the rotation shafts of the rollers 71, the roller link plates 72 connecting the rollers 71, and the pins 74. It consists of a pin link plate 73, an embodiment of the present invention uses a chain of standardized standards.

The connecting bracket 60 has a rectangular plate-shaped screw hole 61 to be coupled to the traction frame 11 at both ends, and a pin fixing groove 62 to be connected to the pin 74 in the center portion is formed. do. In this case, the pin 74 and the connection bracket 60 are preferably welded together or manufactured integrally with the pin link plate 73 in mass production.

The towing frame 11 is formed in an arc shape having a predetermined width integrally formed with a towing portion 13 extending to a predetermined length inwardly of the arc in the center. In this case, preferably, both ends of the arc-shaped edge portion 12 are inclined upward, and the center of the edge of the towing portion 13 is formed with a welding groove 16 to a predetermined depth, and the welding groove ( Coupling holes 14 for screwing with the connecting bracket 60 are formed on both sides of the 16, respectively. In this case, the width of the welding groove 16 may be an area capable of accommodating the pin fixing groove 62 and the lead portion of the pin 62 in order to be closely coupled to the connecting bracket 60.

The transfer plate 10 accommodates the towing frame 11 sufficiently and always overlaps a predetermined width without generating a gap when rotating the curved portions of another adjacent transfer plate 10 and the installation frame 20. The length is preferably formed, but the width thereof is preferably set to the minimum so as to easily slide from side to side in the curved portion. At this time, the transfer plate 10 selects the material according to the characteristics required for the upper plate and the lower plate. That is, the upper plate material of the transfer plate 10 may be formed of fabrics or synthetic resins having sufficient elasticity, or metals may be used depending on the characteristics of the original material. In other words, if a fruit having a low surface strength is used as a carrier, it should be obvious that it should have sufficient elasticity and roughness to prevent surface damage. In addition, since the lower plate of the conveying plate 10 is a portion which rubs against the upper surfaces of the guides 50 and 51, it is preferable that the material is made of frictional and wear resistant material.

Meanwhile, as shown in FIG. 3, the chain 70 is preferably mounted to the installation frame 20 so that the chain 70 can be stably circulated by the chain rail 80, and is connected to the chain 70. Both ends of the towing frame 11 may be configured to be adjacent to the guides 50 and 51, respectively. At this time, the guide (50, 51) is smoothly formed on the surface so as to be moved with a minimum frictional force with the transfer plate 10 to accommodate the towing frame 11 or minimize the frictional force by arranging bearings or wheels on the surface It is desirable to be able to.

Looking at the effect of the present invention configured as described above, first, when the driving sprocket 40 mounted on the curved portion of one side by a drive motor not shown, the chain 70 engaged with the driving sprocket 40 is driven force Will receive and circulate. At this time, the driven sprocket 45 is mounted to the curved portion of the other side corresponding to the motive sprocket 40 so as to smoothly rotate.
The connecting bracket 60 is coupled to the pin 74 of the circulated chain 70 at a predetermined interval. At this time, the connecting bracket 60 is fixed to a specific portion of the chain 70 to transmit the traction force, but as described in one embodiment of the present invention as a pin 74, but is not limited thereto. That is, any part of the chain can be joined by welding or fastening as necessary, and can also be produced integrally with the pin link plate 73 of the chain.

As described above, since the connecting bracket 60 is coupled to the towing frame 11 and the coupling screw 15, the towing frame 11 is also circulated as the chain circulates. In addition, the towing frame 11 is covered with a transfer plate 10 to be circulated at the same time. Therefore, the conveying body seated on the upper portion of the conveying plate 10 is smoothly conveyed.

Then, as used for a period of time, even if the transfer plate 10 is worn, if only replacing the worn transfer plate 10 can be used continuously without replacing the entire conveyor.

In addition, even when the type of conveying body is changed, it is very effective and productive because it is possible to easily mount the conveying plate 10 of another material by changing the material of the conveying plate 10 to be covered on the towing frame 11 As a result, the endless chain conveyor of the present invention can be used.

On the other hand, since the rotation in the curved portion is overlapping enough so that a gap does not occur between each transfer plate 10 as shown in Figure 6 and 7, it is possible to minimize the transfer of the conveying body to be transferred.

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications will fall within the protection scope of the present invention as long as it will be apparent to those skilled in the art.

As described above, according to the present invention, it is possible to replace the transfer plate having different specifications according to the volume or weight of the conveying body, so that the infinite chain conveyor can be used very effectively without producing a special chain, which greatly improves the productivity and the logistics cost. It will greatly reduce the cost.

In addition, the conveying body such as fruit having a relatively low surface strength can be used by appropriately replacing the conveying plate made of elastic material according to the use so as not to damage the surface. do.

Claims (8)

delete A drive sprocket driven by a drive motor inside the installation frame formed at a predetermined height, a single or multiple driven sprockets mounted and driven in correspondence with or in a predetermined position with the drive sprocket, and closed by being connected to the drive sprocket and the driven sprocket In an endless chain conveyor comprising a chain comprising a pin link plate and a roller link plate of a predetermined length to form a trajectory, and a transfer plate connected to the chain to transfer a transfer body. A towing frame 11 connected to the chain 70 by a fastening means, and a towing frame 11 to be towed by the towing frame 11, and a transport plate 10 for seating and transporting the transport body. The towing frame 11 is a circular arc shape having a predetermined width and extends along a diameter at the inner central portion of the arc and is connected to the chain 70 and the fastening means at an end thereof. The length of the transfer plate 10 is formed in a predetermined multiple so as to be greater than the length of the pin link plate 73 or roller link plate 72, and overlaps with another transfer plate adjacent to a predetermined portion, and the towing frame 11 Endless chain conveyor, characterized in that configured to be removable. The method of claim 2, The transfer plate 10 is a half moon shape having a predetermined width, The fastening means includes an intermediate point of an arc-shaped boundary line formed by overlapping another transfer plate adjacent to the transfer plate 10 and an arc-shaped boundary line formed by overlapping another transfer plate adjacent to the transfer plate 10. Endless chain conveyor, characterized in that located on the line connecting the midpoint of. delete The method of claim 2 or 3, The conveying plate 10 is an endless chain conveyor, characterized in that the surface in contact with the conveying body formed of fabrics, synthetic resins or metals. delete The method of claim 2 or 3, Infinite chain conveyor, characterized in that the chain rail 80 is further mounted to the lower end of the chain 70 so that the chain 70 can be circulated stably. The method of claim 5, Infinite chain conveyor, characterized in that the chain rail 80 is further mounted to the lower end of the chain 70 so that the chain 70 can be circulated stably.

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