KR20200041472A - Transfer equipment for solids - Google Patents

Abstract

Disclosed is a solid transferring apparatus. According to one aspect of the present invention, the solid transferring apparatus includes: a transfer part having a pipe part, a chain moved in the pipe part and a transfer plate connected to the chain and transferring a solid; a driving part arranged on one end of the transfer part and moving the chain; a return part arranged on the other end of the transfer part and returning the chain to the driving part to circulate the chain; and a first tension control part controlling a length of the pipe part to control tension of the chain.

Description

Transfer equipment for solids

The present invention relates to a solid material transfer device.

In the drainage pumping station, water supply intake, related waterways, water purification / sewage treatment plants, and dams, solids such as contaminants floating under water or sediments settled under water are collected and discharged to the outside.

In the process of processing the solids, a device for transporting the solids is required, and a structure in which the transfer plate is connected to the chain is often used. However, in the conveying operation, a failure due to twisting of the chain or loosening of the chain due to aging occurs, so a device capable of adjusting the tension of the chain is required.

Republic of Korea Utility Model Publication No. 20-0333250

An embodiment of the present invention is to provide a solid material conveying device capable of adjusting the tension of the chain for conveying solid materials and stably maintaining it.

According to an aspect of the present invention, a transfer unit for transporting solids by having a pipe portion, a chain moving inside the pipe portion, and a transfer plate connected to the chain, a drive portion disposed at one end of the transfer portion and moving the chain, A solid material conveying device is provided, which is disposed at the other end of the conveying part and includes a conveying part for circulating the chain by returning the chain to the driving part and a first tension adjusting part for adjusting the tension of the chain by adjusting the length of the pipe part.

At this time, the drive unit may include a drive sprocket that rotates the chain to move toward the transfer unit, and the transfer unit may include a driven sprocket that is rotated by the chain and changes the movement direction of the chain to the drive unit.

At this time, at least one of the drive sprocket and the driven sprocket may include a plurality of teeth inserted in the chain and disposed radially, and the teeth may include a chain support protruding from the side to support the chain. .

In addition, the pipe portion includes a first pipe and a second pipe slidably connected to the first pipe, and the first tension adjusting portion moves the second pipe with respect to the first pipe to increase the length of the pipe portion. Can be adjusted.

At this time, a portion of the first pipe and the second pipe overlap, and the first tension adjusting part includes a first screw connecting rod rotatably coupled to the first pipe and screwed to the second pipe, The overlapping lengths of the first pipe and the second pipe may be adjusted by rotating the first screw connecting rod.

In addition, in the drive sprocket or driven sprocket, a second tension adjusting unit that adjusts the tension of the chain by providing a force for pulling the chain may be further included.

In this case, the conveying unit further includes a conveying unit housing in which the driven sprocket is embedded and a driven shaft passing through the conveying unit housing and coupled with the driven sprocket, and the second tension adjusting unit is provided on both sides of the conveying unit housing. It is installed and may include a pair of shaft supports elastically supporting the driven shaft.

At this time, the shaft support portion, the coupling portion coupled to the housing, the second screw connecting rod screwed to the coupling portion, the elastic portion supported by the second screw connecting rod and the elastic portion supported by the driven shaft It includes a rotatable support portion that is rotatably supported, and by rotating the second screw connecting rod, the pressing force of the elastic portion can be adjusted, and the force of the support portion pulling the chain can be adjusted.

According to the embodiment of the present invention, the tension applied to the chain can be easily adjusted and maintained stably by changing the length of the pipe path through which the chain passes or by adjusting the force pulling the chain.

1 and 2 are a perspective view and an exploded view showing a solid material transport device according to an embodiment of the present invention.
3 to 5 are views illustrating a chain used in the solid material transport device according to an embodiment of the present invention.
6 is a view showing a drive sprocket of a solid material transfer device according to an embodiment of the present invention.
7 and 8 are views showing a driving unit and a first tension control unit of the solid material transport apparatus according to an embodiment of the present invention.
9 to 13 are views showing a transport unit and a second tension adjusting unit of the solid material transport apparatus according to an embodiment of the present invention.

The terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

In the present application, when a part “includes” a certain component, it means that the component may further include other components, not to exclude other components, unless specifically stated to the contrary. In addition, in the entire specification, "upper" means that it is located above or below the target part, and does not necessarily mean that it is positioned above the center of gravity.

In addition, the combination does not only mean a case of physical direct contact between each component in a contact relationship between each component, but other components are interposed between each component, so that the components are in different components. Use it as a comprehensive concept until each contact is made.

Further, terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from other components.

Since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to what is shown.

Hereinafter, an embodiment of a solid material transport apparatus according to the present invention will be described in detail with reference to the accompanying drawings, and in describing with reference to the accompanying drawings, identical or corresponding components are assigned the same reference numbers and overlapped therewith. The description will be omitted.

1 and 2 are a perspective view and an exploded view showing a solid material transfer device according to an embodiment of the present invention.

1 and 2, the solid material transport apparatus according to an embodiment of the present invention includes a transport unit 100, a driving unit 200, a transport unit 300 and a first tension adjusting unit 400.

The conveying part 100 includes a pipe part 110 forming a passage through which solid materials pass, and has a chain 120 and a conveying plate 130 as means for conveying solid materials in the passage. The pipe portion 110 may have a structure in which a plurality of pipes are continuously connected. The chain 120 has a form in which links are continuously connected and moves inside the pipe part 110 which is a passage through which solids pass, and the transfer plate 130 installed in a structure perpendicular to the moving direction of the chain 120 is the chain 120 ) Is connected to the solid material can be transferred by being pushed on the transfer plate 130.

1 and 2, in the present embodiment, the pipe part 110 is connected to a plurality of pipe parts 110 to connect the driving part 200 and the conveying part 300. At this time, the pipe parts 110 are arranged side by side in two rows, so that one can be used as a path for transporting solids and the other can be used as a path for returning the chain 120 and the transfer plate 130. That is, the chain 120 and the transfer plate 130 may have a structure that circulates between the driving part 200 and the conveying part 300 through two rows of pipe parts 110.

In this embodiment, a structure for transporting solids from the side of the conveying unit 300 disposed at the bottom to the side of the driving unit 200 disposed at the top is illustrated. At this time, a solids inlet 150 may be formed in the pipe part 110 used as a path for transporting the solids upward, and a solids outlet 160 through which the transported solids are discharged may be formed in the drive unit 200. .

3 to 5 is a view illustrating a chain 120 used in the solid material transport device according to an embodiment of the present invention.

Referring to FIG. 3, the chain 120 has a plurality of link blocks 122 with vertical through holes 122a and horizontal through holes 122b formed at both ends. Each link block 122 is provided with through holes 122a and 122b formed at the end facing the neighboring link block 122 in the same direction, and the neighboring link blocks 122 are paired with a connection pin 123 It is rotatably connected to the connecting plates (124, 126). Accordingly, each link block 122 may have a structure capable of horizontal rotation to one side and vertical rotation to the other side. The chains 120 in which the link blocks 122 are continuously connected to the connecting plates 124 and 126 can be bent in two axial directions perpendicular to each other. Therefore, even if the inner path formed by the pipe portion 110 is bent, it is possible to adapt to the bent path, so that the twisting of the chain 120 can be effectively prevented and the breakage of the chain 120 due to warping can be prevented. .

At this time, the transfer plate 130 may be fitted to the pair of connecting plates 124 and 126 and coupled. The transfer plate 130 may have a shape and size similar to the inside of the pipe portion 110. For example, a disk-shaped transfer plate 130 may be used inside the cylindrical pipe portion 110.

Referring to FIG. 4, to reduce the weight of the chain 120 ′, the upper and lower surfaces of the link block 122 ′ may have concave grooves 122c. That is, two side surfaces of the four side surfaces of the link block 122 may be concave. In addition, referring to FIG. 5, concave grooves 122c are formed on both sides of the link block 122 ″ to further reduce the weight of the chain 120 ″. That is, all four side surfaces of the link block 122 may be concave.

The driving unit 200 serves to provide a driving force for moving the chain 120, and may be disposed at one end of the transport unit 100. The driving part 200 may include a driving sprocket 210 that rotates the chain 120 to move toward the conveying part 300.

6 is a view showing a drive sprocket of a solid material transfer device according to an embodiment of the present invention.

Referring to FIG. 6, the driving sprocket 210 may be connected to a driving shaft and rotated, and may include a plurality of teeth 212 inserted into the chain 120 and disposed radially. In this embodiment, the teeth 212 has a structure that fits between the pair of connecting plates 124 and 126 in the chain 120.

In particular, the tooth 212 of this embodiment includes a chain support 214 protruding from the side to support the chain 120. The chain support part 214 supports the lower surfaces of the connecting plates 124 and 126 in the chain 120, so that the chain 120 can be prevented from going down inside the teeth 212. Accordingly, the tooth 212 is inserted too deep into the chain 120, it is possible to prevent the chain 120 does not fall or the connection plate (124, 126) is broken.

The conveying part 300 serves to circulate the chain 120 by returning the chain 120 to the driving part 200, and may be disposed at the other end of the conveying part 100. The conveying part 300 may include a driven sprocket 310 that is rotated by the chain 120 and changes the moving direction of the chain 120 with the driving part 200 (see FIG. 10).

The driven sprocket 310 may have a plurality of teeth inserted into the chain 120 and disposed radially, similar to the drive sprocket 210. In addition, the teeth may include a chain support projecting from the side to support the chain 120.

The first tension adjusting part 400 adjusts the tension of the chain 120 by adjusting the length of the pipe part 110. When the length of the pipe portion 110 is increased, the length of the path through which the chain 120 circulates increases, so that the chain 120 may be pulled to increase the tension of the chain 120. Conversely, if the length of the pipe portion 110 is reduced, the force pulling the chain 120 may be reduced, thereby reducing the tension of the chain 120.

In this embodiment, the pipe unit 110 includes a first pipe 114 and a second pipe 112 slidably connected to the first pipe 114, and the first tension adjusting unit 400 is the first The entire length of the pipe portion 110 can be adjusted by moving the second pipe 112 with respect to the pipe 114.

7 and 8 are views showing a driving unit and a first tension adjusting unit of the solid material transport apparatus according to an embodiment of the present invention.

7 and 8, portions of the first pipe 114 and the second pipe 112 may overlap. For example, a connection pipe 116 having a larger diameter than the other portion may be formed at the end of the first pipe 114, and the second pipe 112 is inserted into the connection pipe 116 and overlapped to slide. It can have a structure.

At this time, the overlap length of the first pipe 114 and the second pipe 112 may be adjusted by the first screw connecting rod 430. The first tension adjusting part 400 may include a first screw connecting rod 430 rotatably coupled to the first pipe 114 and screwed to the second pipe 112. The first screw connecting rod 430 is rotatably supported by the first coupling plate 420 coupled to the first pipe 114, and the first coupling plate 410 coupled to the second pipe 112 is first The screw connecting rod 430 may be screwed. Alternatively, the first screw connecting rod 430 is screwed to the first coupling plate 420 and the second coupling plate 410, respectively, and the first screw connecting rod 430 is screwed to each of the coupling plates 410 and 420. The combined position may be adjusted.

Accordingly, by rotating the first screw connecting rod 430, it is possible to adjust the position of the second pipe 112 with respect to the first pipe 114 and overlaps the first pipe 114 and the second pipe 112 The length can be adjusted. Therefore, it is possible to easily adjust the tension applied to the chain 120 by changing the length of the pipe path through which the chain 120 passes.

On the other hand, the method of adjusting the length of the pipe portion 110 is not limited to this embodiment, and various methods of adjusting the length of the pipe portion 110, such as a telescopic method, are provided in the present invention. Can be included. In addition, in the present exemplary embodiment, the first tension adjusting unit 400 is illustrated as being installed adjacent to the driving unit 200, but is not limited thereto, and the first tension adjusting unit 400 is located anywhere in the pipe unit 110. Any can be installed.

In addition, the solid material transporting device according to the present embodiment may further include a second tension adjusting unit 500 that adjusts the tension of the chain 120 by providing the pulling force of the chain 120 to the driven sprocket 310. have.

9 to 13 are views showing a transport unit and a second tension adjusting unit of the solid material transport apparatus according to an embodiment of the present invention. 10 is a view showing a cut of the transport unit housing, FIG. 12 is an exploded view of the second tension adjusting unit, and FIG. 13 is an exploded view of the transport unit.

9 and 10, the conveying part 300 of the present embodiment has a conveying part housing 330 in which the driven sprocket 310 is embedded. And, the driven shaft 320 coupled with the driven sprocket 310 may be installed to penetrate the housing.

11 and 12, the second tension adjusting unit 500 has a structure that elastically supports the driven shaft 320, so that the driven sprocket 310 provides a force to pull the chain 120. You can.

Referring to FIG. 13, the second tension adjusting part 500 of the present embodiment is installed on both sides of the conveying part housing 330, so that the driven shaft 320 is elastically applied to both sides of the driven sprocket 310. It may include a pair of supporting shaft support.

At this time, the shaft support, the coupling portion 510 coupled to the transport housing 330, the second screw connecting rod screwed to the coupling portion 510, 520, elastic supported on the second screw connecting rod 520 Supporting the portion 530 and the elastic portion 530, the driven shaft 320 may include a shaft support portion 540 is rotatably supported. The elastic part 530 may include a coil spring or the like. The bearing part 540 may be slid in the direction of pulling the chain 120 on the guide rail 550.

Accordingly, when the second screw connecting rod 520 is rotated to advance the second screw connecting rod 520 toward the elastic portion 530, the elastic portion 530 is further compressed and the pressing force is transferred to the shaft support portion 540 to follow the The sprocket 310 further pulls the chain 120 so that the tension of the chain 120 can be increased. Conversely, when the second screw connecting rod 520 is retracted from the elastic portion 530 side, the pressing force of the elastic portion 530 is reduced and the driven sprocket 310 pulls the chain 120 less so that the tension of the chain 120 This can be reduced.

Thus, the second tension adjusting unit 500 can easily adjust the tension applied to the chain 120 and adjust the force pulling the chain 120 and keep it stable.

On the other hand, in the present embodiment, the second tension adjusting unit 500 is proposed to control the force pulling the chain 120 from the driven sprocket 310, but is not limited thereto, and the second tension adjusting unit 500 is a driving sprocket. It may be configured to adjust the force pulling the chain 120 in (210).

As described above, preferred embodiments of the present invention have been described, but those skilled in the art can add, change, delete or add elements within the scope of the present invention as described in the claims. The present invention may be variously modified and changed by the like, and it will be said that this is also included within the scope of the present invention.

100: transfer unit
110: pipe section
112: first pipe
114: second pipe
116: connector
120, 120 ', 120'': chain
122, 122 ', 122'': link block
122a: vertical through hole
122b: horizontal through hole
123: connecting pin
124, 126: connecting plate
130: transfer plate
200: driving unit
210: drive sprocket
212: cogs
214: chain support
300: conveying unit
310: driven sprocket
320: driven shaft
400: first tension control unit
410: first coupling plate
420: second coupling plate
430: first screw connecting rod
500: second tension control unit
510: coupling
520: second screw connecting rod
530: elastic portion
540: bearing part

Claims (8)

A conveying part for conveying solids by having a pipe part, a chain moving inside the pipe part, and a transfer plate connected to the chain;
A driving unit disposed at one end of the transfer unit and moving the chain;
A transfer unit disposed at the other end of the transfer unit and circulating the chain by returning the chain to the driving unit; And
And a first tension adjusting unit for adjusting the tension of the chain by adjusting the length of the pipe unit.
According to claim 1,
The drive unit includes a drive sprocket that rotates the chain to move toward the transfer unit,
The conveying unit, a solid material conveying device including a driven sprocket that is rotated by the chain and changes the moving direction of the chain to the driving unit.
According to claim 2,
At least one of the drive sprocket and the driven sprocket,
A plurality of teeth inserted in the chain and arranged radially,
The tooth, the solid material conveying device including a chain support projecting from the side to support the chain.
According to claim 1,
The pipe portion includes a first pipe and a second pipe slidably connected to the first pipe,
The first tension adjusting unit, the solid material transfer device for adjusting the length of the pipe portion by moving the second pipe with respect to the first pipe.
According to claim 4,
A portion of the first pipe and the second pipe overlap,
The first tension adjusting unit includes a first screw connecting rod rotatably coupled to the first pipe and screwed to the second pipe,
Rotating the first screw connecting rod, to adjust the overlapping length of the first pipe and the second pipe solid conveying device.
According to claim 2,
In the driving sprocket or driven sprocket, the solid material conveying device further comprising a second tension adjusting unit that adjusts the tension of the chain by providing a force to pull the chain.
The method of claim 6,
The conveying unit,
A conveyer housing in which the driven sprocket is built; And
Through the carrier housing, further comprising a driven shaft coupled to the driven sprocket,
The second tension adjusting unit,
It is installed on both sides of the carrier housing, a solid material conveying device including a pair of shaft support for elastically supporting the driven shaft.
The method of claim 7,
The shaft support,
A coupling portion coupled to the transport portion housing;
A second screw connecting rod screwed to the engaging portion;
An elastic part supported on the second screw connecting rod; And
It is supported on the elastic portion, and includes a shaft support portion rotatably supported by the driven shaft,
Rotating the second screw connecting rod, to adjust the pressing force of the elastic portion, the solid support device for controlling the force of the shaft receiving portion pulling the chain.

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