KR20090058342A - Corner roller for feed supply system - Google Patents

Abstract

A corner roller for feed supply system is provided, which prevents the damage caused by heat generated by a roller rotation while maintaining the function of the roller. A corner roller for feed supply system comprises: a transferring roller(30) supporting the smooth rotation of the conveying plate adhered to the chain or the wire; a central axis(10) which is combined with a hole; a first bearing(20) and a second bearing(21) which are installed so that only the transferring roller can rotate; an axis washer(50) which is inserted in the axis and is installed at the outside of the bearing; an enforcement washer(40) which is installed in order to reinforce the axis washer; and a top shell and a bottom shell.

Description

Feeder corner roller {CORNER ROLLER FOR FEED SUPPLY SYSTEM}

The present invention relates to a feeder corner roller, and more particularly, it is installed in the corner of the device to allow livestock farmers to automatically feed the livestock from the feed storage warehouse in raising livestock to operate the device more effectively It relates to a structure of a roller installed at the corner of the feeder so that it can be maintained.

As a method of feeding the livestock used up to now, the method of feeding the livestock directly to the livestock by human resources through manual labor is used. Such a method is suitable for small livestock raising. However, it is true that there is a lot of difficulty in using the manpower in the feeding method as the number of livestock grows, so that it can be continuously used in terms of time and cost.

In order to solve this problem, recently, a pipe conveyor system is introduced to install a pipe along a certain line from a feed storage for feeding to a target point to feed, and to install a chain or metal wire inside the pipe. Palm-shaped transfer plate is installed on the chain or wire to drive the motor for rotating the wire or the chain, while feeding the feed through the hopper connected to the pipe while continuously rotating the transfer plate. The feed fed through the pipe is pushed and moved inside, and the end reaches the outlet installed at the destination where the feed is to be fed to the outside.

In addition, the final feed container to feed the livestock is located in the discharge port to the outside is a general feeding device that has a structure that the feed is supplied to the feed can feed the livestock feed.

However, in the installation of the pipe, it is difficult to install the pipe so that the feed is always in a straight line from the location in which the feed is stored to the position in which the feed is to be supplied, and the chain or the wire is installed inside the pipe. Since the chain or wire must be continuously rotated by a motor, the pipe must be installed from the feed storage position to the feed feeding position and again from the feed feeding position to the feed storage device, so that the pipe always has a corner where the pipe is bent. Will be.

Since the corner portion is a factor that prevents the rotation of the chain or wire smoothly, it is generally provided with a structure that allows the chain or wire and the transfer plate installed on the chain or wire to be moved more easily by installing a roller in the corner portion. It is.

 However, the rollers installed at the corners may cause a large amount of heat due to continuous high-speed rotation, resulting in roller breakage if the gap between the bearings and washer is installed in the rollers too densely. If the spacing of various components such as washers is too loose, various foreign substances, such as feed, may penetrate between the rollers, thereby preventing the rotation of the rollers. It is possible to continue using it.

Therefore, the present invention is intended to more easily prevent the breakage of the roller while maintaining the function and features of the roller installed in the corner of the feeder.

The present invention relates to a feeder corner roller, and more particularly, it is installed in the corner of the device to allow livestock farmers to automatically feed the livestock from the feed storage warehouse in raising livestock to operate the device more effectively It relates to a structure of a roller installed at the corner of the feeder so that it can be maintained.

An object of the present invention is to prevent the damage caused by the heat generated by the rotation of the roller while maintaining the function of the roller installed in the feeder corner for a long time.

To this end, the present invention is formed with a hole in the center and the rotating roller and the transfer roller to support the smooth rotation of the transfer plate attached to the chain or wire, coupled to the hole and fastened and one side is in the form of a hole in the center of the shaft The furnace hole is drilled to a certain depth and the thread is formed like a nut in the hole, and the other side is configured as a bolt, which is installed in combination with the central axis and the central axis where the thread is formed. Two bearings are installed to rotate, the shaft washer is installed in the shaft to prevent feed from penetrating the bearing to interfere with the functional operation of the bearing, the shaft washer is installed on the outside of the bearing, to further reinforce the function of the shaft washer Reinforcing washer, which is installed for It is configured to include an upper shell and a lower shell is installed to the arc, the reinforcement washer is made of plastic, characterized in that the distance between the reinforcement washer and the bearing is composed between 0.1 ~ 0.3mm, The feed discharge plate is installed as if waved in the shape, the direction of rotation of the feed discharge plate is characterized in that the discharge plate of the inner portion close to the center of the feed roller is rotated in the direction to follow the inner portion as it moves away from the center.

Apparatus configured to achieve the object of the present invention has the effect of preventing damage caused by the heat generated by the roller rotation while maintaining the function of the roller installed in the feeder corner for a long time.

What has been described above is only one embodiment according to the present invention, and the present invention is not limited to the above-described embodiments, and the present invention belongs without departing from the gist of the present invention as claimed in the following claims. Anyone skilled in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

Hereinafter, the configuration and structure of the present invention will be described in detail with reference to the accompanying drawings.

1 is a corner roller structure diagram according to the present invention is a corner roller which is installed in a structure similar to a feed conveyor, that is, a pipe conveyor, and configured to transfer feed by a feed plate.

The pipe conveyor is used to move a material having a small crystalline structure, such as an object generally gel type sludge or sand, and the structure is a pipe connected from the starting point to the destination for moving the material and then connected to the destination. It returns to the starting point and has a pipe structure from the starting point to the starting point and back to the starting point. A chain or wire is installed inside the pipe, and a sprocket is connected to the chain or wire, and the sprocket is rotated using a motor. The palm-shaped transfer plate is connected to the wire to have a structure that allows the chain or wire to rotate and pull the transfer plate.

In this case, the transfer plate is installed in a shape perpendicular to the inside of the pipe and may be formed to have a certain groove such as a cup.

The pipe conveyor of such a structure is widely applied to the feeding device, and the biggest disadvantage of the pipe conveyor is that the corner part always has to be formed, and the friction and the structure and the corner of the conveying plate when the conveying plate moves the corner part There are many problems in which pipes or conveying plates are damaged or excessive power is required for motor operation due to various problems caused by mismatches in negative structure.

In order to solve such a problem, a widely used method has been applied to achieve a structure that allows the feed plate to move more easily, smoothly and effectively by attaching a roller to the corner of the feeder. The roller used in the corner is In general, the assembly is composed of a part of the feed due to the nature of the feed is inserted into the roller also acts as an element preventing the operation of the roller at the end.

Along with this, the function of the roller is impaired due to the problem that the various components and bearings used in the roller are damaged by the roller rotating at high speed and the bearing is inclined.

Therefore, in the present invention, when looking at the structure to solve this problem, the shaft 10 is located in the center of the rotation of the corner roller is located one side of the shaft in the shape of a nut to insert the bolt in the center of the shaft The groove 11 is formed in the shaft bolt groove 11 is formed, the other side is characterized in that the groove is formed in the same shape as the bolt bolt shaft outer groove 12 is formed so as to couple the nut.

This structure is effective to fasten the case of the corner roller more effectively.

In addition, two bearings are coupled to the shaft in order to prevent the effective rotation of the corner roller and the tilting of the roller. The first bearing 20 and the second bearing 21 are bearings only at the center of the roller. In this case, the roller is inclined to one side, but when the two or more bearings are added, the rollers can be prevented from tilting because they have an effect of holding both sides of the roller.

Ultimately rotated by the rotation of the bearing is the conveying roller 30, the structure of the conveying roller is primarily composed of a slightly recessed surface of the roller which rotates the chain or wire connected to the conveying plate more effectively and conveys Even when the plate passes, it can be rotated without leaving the outside, and even in the case of feed that the transfer plate pushes, there is an effect of preventing the feed from leaking out or penetrating into the roller.

In addition, a plurality of feed discharge plate 31 is formed in a fan shape bent at a predetermined angle inside the transfer roller, wherein the direction in which the feed discharge plate is rotated so as to smoothly contact in the direction of feeding the feed is the direction of the feed outflow It will be configured to push the feed.

Figure 2 is a side view inside the corner roller according to the present invention look at the components in more detail, as described above, the shaft is installed across the roller and the two bearings are installed around the shaft by the support of the bearing The feed roller 30 is installed to rotate. In principle, a hole is formed in the center of the feed roller, and a shaft and a bearing are installed in the hole.

Since the feed penetrates into the shaft into which the bearing is fitted, it may paralyze the function of the bearing, so that the shaft washer 50 made of metal is prevented.

In addition, a reinforcement washer 40 is installed to protect the bearing secondaryly. The reinforcement washer may be made of metal or plastic. In order to prevent this, it is characterized by being installed away from the bearing about 0.1 ~ 0.3mm from the side, preferably 0.15mm spacing to install a reinforcement washer can lead to excellent results.

This tight spacing is necessary because it requires a structure that can operate in a safe state from heat while preventing penetration of the feed.

In addition to this, the upper exterior 60 and the lower exterior 70 are added to serve to protect the internal components from external physical forces, each of which is configured separately to install and later repair the transfer roller. It is convenient to open.

In addition, the plurality of bolts and nuts are combined to combine the upper and lower sheaths. However, when the nut is installed on the lower sheath side, it is preferable to install the nut on the upper sheath side because there are many difficulties in disassembling the nut.

3 is a schematic diagram of a pipe conveyor structure according to the present invention, wherein the pipe conveyor is provided with a pipe from a starting point of a transfer object to a destination of a transfer object, and a corner roller 80 is installed at a corner portion at which the pipe is bent, thereby allowing the inside of the pipe. It serves to support the moving chain 83 and the conveying plate 84 connected to the chain to be more easily rotated at the corner of the pipe, in general, the sprocket 85 to rotate the chain It is operated by driving with a motor, and supplies the conveyed material through the input hopper 81 installed in connection with the pipe. In general, the input hopper changes the installation position according to the rotation direction of the sprocket. There are many technical difficulties to pass through It is preferable to be installed at the stage after the sprocket rather than the previous stage. In the case of the discharge hopper 81, the conveyed material is generally installed at the position to be fed and supplied, and the role of the conveying plate is that the conveyed material is supplied through the feeding hopper. It will be to push the role.

Overall, the present invention relates to a feeder corner roller, and more particularly, it is installed at the corner of the device to allow livestock feeders to automatically feed the livestock from the feed storage warehouse in raising livestock. A roller is installed at the corner of the feeder to maintain the operation, the roller is formed in the center and the rotation roller to support the smooth rotation of the chain or wire and the transfer plate attached to the chain or wire, The central shaft, which is coupled to the hole and fastened to one side, the hole is drilled to a predetermined depth in the form of a hole in the center of the shaft, and the thread is formed like a nut in the hole, and the other side is configured as a bolt to form the thread. It is installed in combination with the axis and the center axis does not rotate but only the feed roller Two bearings are installed so as to be inserted into the shaft in order to prevent feed into the bearing to interfere with the functional operation of the bearing, the shaft washer is installed on the outside of the bearing, which is installed to further reinforce the function of the shaft washer The reinforcement washer is configured to include an upper sheath and a lower sheath installed to protect the corner rollers from external physical forces, and the reinforcement washer is made of plastic and the distance between the reinforcement washer and the bearing is between 0.1 and 0.3 mm. Characterized in that, the feed roller is installed on the surface of the feed roller as a wave-like wave shape and the direction of rotation of the feed discharge plate in the inner portion close to the center of the feed roller leading ahead and the inner portion away from the center Rotate in a direction that follows.

Each of the components provided to achieve the object of the present invention has an effect of effectively achieving the object of the present invention, and when industrialized and produced, it is expected to achieve a great economic effect in the import and export effect domestically and internationally. Expectations are great.

1 is a corner roller structure diagram according to the present invention

Figure 2 is a side roller inner side view according to the present invention

Figure 3 is a pipe conveyor structure diagram in the present invention

* Description of the symbols for the main parts of the drawings *

10: shaft 11: shaft bolt in groove

12: shaft bolt outer groove 20: the first bearing

21: second bearing 30: feed roller

31: feed discharge plate 40: reinforcement washer

50: shaft washer 60: lower shell

70: upper sheath 80: corner roller

81: input hopper 82: discharge hopper

83: chain 84: transfer plate

85: sprocket

Claims (3)

In the feeder corner roller, A conveying roller having a hole formed at a center thereof and supporting a smooth rotation of the chain or wire and the conveying plate attached to the chain or wire; A central shaft coupled to the hole and fastened to one end of the shaft in the form of a hole at a center of the shaft, and having a thread formed in the hole as a nut, and the other configured as a bolt in the form of a bolt; Two bearings which are installed in combination with the central axis and are installed to rotate only the feed roller without rotating the central axis; A shaft washer fitted to the shaft to prevent feed from penetrating into the bearing and hindering a functional operation of the bearing; A reinforcement washer installed to further reinforce the function of the shaft washer; An upper exterior and a lower exterior installed to protect the corner rollers from external physical forces; Feeder corner roller, characterized in that configured to include. The method of claim 1, The reinforcement washer is made of plastic and the distance between the reinforcement washer and the bearing feed roller, characterized in that consisting of between 0.1 ~ 0.3mm. The method of claim 1, The feed discharge plate is installed on the surface of the feed roller as a wave, and the direction of rotation of the feed discharge plate is rotated in the direction of the inner part close to the center of the feed roller, and the inner part close to the center of the feed roller. Feeder corner roller, characterized in that.

Images