KR101663643B1 - Non-motorized power rail link dust separator - Google Patents

Abstract

The present invention relates to a power link damper having a non-dynamic load reducing means, and is composed of a screen formed to be inclined with a ground surface, dust collecting means for removing foreign matter collected on the screen, Wherein the fixed frame comprises:
Wherein the dust collecting means comprises: a driving motor for providing a rotating force; a rotating shaft rotated by receiving a rotating force of the driving motor; a rotating roller positioned on both ends of the rotating shaft and rotating together with the rotating shaft; The endless pad is formed at an equal interval on the outer surface of the endless pad. The endless pad is connected to the rotating roller and rotates continuously to receive the rotating force of the rotating roller. A plurality of rakes for collecting and collecting the collected foreign substances,
And a first load reducing means for transferring the rotary shaft backward or returning the rotary shaft forward,
Wherein the first load reducing means comprises a transfer frame formed at both ends of the rotary shaft and fixing the position of the rotary shaft, an upper portion being rotatably pin-coupled to the stationary frame, and a lower portion being rotatably coupled to the transfer frame And a plurality of transfer links,
When the endless pad is conveyed backward by collecting a large foreign object on the screen, the conveying frame of the first load reducing means is naturally conveyed backward together with the rotation axis connected to the endless pad by the conveying link, The first load reducing means can adjust the position of the endless pad by non-moving force to minimize the cost of operation of the apparatus, and at the same time, It is possible to greatly reduce the occurrence of faults and to provide the convenience of use of the apparatus.
In addition, the load of the endless pad generated by collecting small-sized foreign substances on the screen is reduced through the second load reducing means, and the load of the endless pad, which is generated by collecting large- And the second load reducing means, so that the load of the endless pad can be effectively reduced.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a non-motorized power rail link dust separator,

More particularly, the present invention relates to a power link damper having a non-powered load reducing means, and more particularly to a power link damper having a non-powered load reducing means, more specifically, The endless pad is naturally transported rearward together with the rotating shaft connected to the endless pad, and the endless pad position can be transferred to the rear side, so that the load of the endless pad can be easily reduced. In addition, the first load reducing means adjusts the position of the endless pad with non- The present invention relates to a power link damper having a non-dynamic load reducing means capable of minimizing a cost incurred in operation of a device and greatly reducing the occurrence of a device failure due to a very simple structure, thereby providing ease of use of the device.

Generally, the damper is installed on a low-altitude drainage pumping station, a water supply water intake pipe, a related water supply pipe, a sewage disposal plant, and a dam, which is lower than the water surface, and collects foreign substances floating with the water on a screen and then removes the collected foreign matter do.

The vibration damper used for this purpose includes a screen formed to be inclined with respect to the bottom surface to filter out foreign substances that are separated along with the flow of water, a rotary shaft which is respectively positioned above and below the screen and is rotated by receiving a rotational force from the driving motor, An endless chain connected to the rotating shaft located at a lower portion and continuously rotating through the rotational force of the rotating shaft, a foreign matter removing rak installed to be supported by the endless chain at both ends of the screen to remove foreign substances between the screens, And a guide rail for guiding the movement of the endless chain,

In the operation, foreign matter smaller than the separation space of the screen is flowed through the screen, and foreign substances larger than the separation space of the screen are collected by the screen, (Collected) through a plurality of rakes formed in the endless chain rotated through the apparatus and discharged to the outside through a separate discharge conveyor installed on the back of the screen.

However, in the conventional damper having the above-described structure, when collecting dust collected on the screen using the rake and moving it to the upper part, it is difficult to remove the dust, A large load is applied to the endless chain and the rake due to the structure in which the position is set by the rotation shaft and the guide rail when the rake scatters (collects) the container, etc. In severe cases, the rake is warped, And when the foreign substances collected between the screens are not removed, it is difficult to remove the contaminants smoothly due to the rise of the water level.

Furthermore, since the endless chain is somewhat weak in durability, when the overload occurs due to foreign matter as described above, the endless chain frequently breaks down, so that time, cost and manpower required for repair and replacement are wasted, There is a problem that it is somewhat difficult.

In order to solve the above problems, the present applicant has developed a power link damper (registration number: 10-1559449) capable of endless track operation without guardrail.

That is, the above-mentioned "power link damper (registration number: No. 10-1559449) capable of endless track operation without guardrail" adjusts the position of the endless pad through the gap adjusting means to reduce the load of the endless pad.

However, the above-mentioned "power link damper (registration number: 10-1559449) capable of endless track operation without guardrail" operates the apparatus due to the structure in which the power source of the transfer cylinder is used to adjust the position of the endless pad There is a problem that the operation and maintenance of the apparatus is somewhat difficult.

In addition, since the structure of the gap adjusting means is somewhat complicated, not only the productivity of the product is reduced but also the use of the product is inconvenient due to a high occurrence rate of the failure.

[0001] Korean Patent Registration No. 10-1559449 (Oct. 5, 2015)

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve all of the above problems, and it is an object of the present invention to provide an endless pad which is attracted to a screen, The endless pad is naturally transported rearward together with the rotating shaft connected to the endless pad, and the endless pad position can be transferred to the rear side, so that the load of the endless pad can be easily reduced. In addition, the first load reducing means adjusts the position of the endless pad with non- The present invention provides a power link damper having a non-dynamic load reducing means capable of minimizing the cost of operation of the apparatus and greatly reducing the occurrence of failure of the apparatus due to a very simple structure, thereby providing ease of use of the apparatus .

In addition, the load of the endless pad generated by collecting small-sized foreign substances on the screen is reduced through the second load reducing means, and the load of the endless pad, which is generated by collecting large- And the second load reducing means, so that the load of the endless pad can be extremely effectively reduced.

According to an aspect of the present invention, there is provided a power link damper having a non-powered load reducing means, comprising: a screen formed to be inclined with respect to a ground; a dust collecting means for removing foreign matter collected on the screen; A vibration damper comprising a fixed frame for fixing a position,

Wherein the dust collecting means comprises: a driving motor for providing a rotating force; a rotating shaft rotated by receiving a rotating force of the driving motor; a rotating roller positioned on both ends of the rotating shaft and rotating together with the rotating shaft; The endless pad is formed at an equal interval on the outer surface of the endless pad. The endless pad is connected to the rotating roller and rotates continuously to receive the rotating force of the rotating roller. A plurality of rakes for collecting and collecting the collected foreign substances,

And a first load reducing means for transferring the rotary shaft backward or returning the rotary shaft forward,

Wherein the first load reducing means comprises a transfer frame formed at both ends of the rotary shaft and fixing the position of the rotary shaft, an upper portion being rotatably pin-coupled to the stationary frame, and a lower portion being rotatably coupled to the transfer frame ≪ / RTI > comprising at least two transfer links,

The dust collecting means has a structure in which only the upper part of the endless pad is connected to the rotating roller. When a large foreign object is collected on the screen, the lower part of the endless pad is pushed backward due to foreign substances. The transport frame for fixing the rotary shaft is naturally transported backward by the transport link to transfer the position of the upper endless pad to the rear so that the endless pad and the load of the rake formed on the endless pad due to a large foreign matter Thereby minimizing the damage and malfunction of the apparatus due to the load with foreign matter.

And an elastic panel formed on one side of the stationary frame in contact with the transfer frame to support the transfer frame,

The conveying frame is absorbed by the elastic panel when the conveying frame is brought into contact with the stationary frame in the process of being conveyed backward together with the rotating shaft, thereby preventing damage to the conveying frame due to collision.

And a second load reducing means for reducing a load generated when the endless pad is pushed rearward due to a large foreign matter collected on the screen,

The second load reducing means includes a guide plate which is disposed on the upper portion of the screen and has a lower portion rotatably connected to the fixed frame so as to be rotatable relative to the fixed frame, And elastic means for elastically supporting the upper front face,

When a large foreign object collected on the screen is collected and transported to the rake of the endless pad, the endless pad is pushed backward and a load is generated. At this time, the guide plate for guiding the foreign object is rotated, and is naturally pushed forward, To reduce the load on the pad,

The foreign matter collected in the rake of the endless pad rides on the guide plate and is discharged to the outside to relieve the load of the endless pad so that the guide plate is transported backward due to the restoring force of the elastic means for elastically supporting the guide plate .

The elastic means includes a guide body formed inside the guide body and rotatably coupled to the stationary frame. The guide body has one end rotatably coupled to the upper portion of the guide plate and the other end inserted into the guide groove of the guide body. An elastic protrusion which is guided by the guide groove and is transported forward and backward; and an elastic spring embedded in the guide groove of the guide body to elastically support the elastic protrusion,

When a load is applied to the endless pad and the guide plate is pressed, the elastic protrusion is guided by the guide groove of the guide body together with the guide plate, and is naturally pushed rearward to relieve the load,

When the load generated on the endless pad is released, the elastic protrusion is pushed forward by the restoring force of the elastic spring, so that the guide plate is transported backward together with the elastic protrusion.

The guide plate may further include a guide plate extending forwardly to guide and discharge foreign matter to be collected and transported to the rake of the endless pad to the outside, wherein the guide plate is inclined downward, So as to induce easy transfer of the foreign substance to be placed in the container.

As described above, according to the power link damper having the non-powered load reducing means according to the present invention, when a large foreign object is collected on the screen and the endless pad is transported backward, the transport frame of the first load reducing means The endless pad is naturally transported rearward together with the rotating shaft connected to the endless pad, and the endless pad position can be transferred to the rear side, so that the load of the endless pad can be easily reduced. In addition, the first load reducing means adjusts the position of the endless pad with non- This minimizes the cost of operation of the apparatus and greatly reduces the occurrence of failure of the apparatus due to a very simple structure, thereby providing the convenience of use of the apparatus.

In addition, the load of the endless pad generated by collecting small-sized foreign substances on the screen is reduced through the second load reducing means, and the load of the endless pad, which is generated by collecting large- And the second load reducing means, so that the load of the endless pad can be effectively reduced.

1 is a front view of a power link damper having a non-powered load reducing means according to an embodiment of the present invention;
Fig. 2 is a longitudinal sectional view of the power link damper having the non-powered load reducing means shown in Fig.
Fig. 3 is a use state diagram of the power link damper having the non-powered load reducing means shown in Fig. 1

A power link damper having a non-powered load reducing means according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

1 to 3 show a power link damper having a non-dynamic load reducing means according to an embodiment of the present invention. FIG. 1 is a front view of a power link damper having a non-powered load reducing means according to an embodiment of the present invention, Fig. 2 is a longitudinal sectional view of the power link damper having the non-dynamic load reducing means shown in Fig. 1, and Fig. 3 is a view showing the state of use of the power link damper having the non-dynamic load reducing means shown in Fig.

As shown in the drawing, the power link vibration damper 100 having the non-dynamic load reducing means according to the embodiment of the present invention includes a screen 1 formed to be inclined with the ground surface, And a fixed frame (2) for fixing the position of the screen (1) and the dust collecting means,

1 and 2, the dust collecting means 10 includes a driving motor 11 for providing a rotating force, a rotating shaft 12 rotated by receiving a rotating force of the driving motor 11, And a rotating roller 13 which is positioned on both ends of the rotating roller 13 and rotates together with the rotating shaft 12 and has an endless track shape and whose upper portion is connected to the rotating roller 13, The endless pad 14 is rotated at a constant interval on the outer surface of the endless pad 14 while being rotated together with the endless pad 14. The endless pad 14 is rotatably supported on the screen 1 And a plurality of rake (15) for recovering (collecting) and moving the collected foreign matter,

And a first load reducing means 20 for transferring the rotary shaft 12 backward or returning the rotary shaft 12 forward as shown in FIGS. 1 and 2,

The first load reducing means 20 includes a transfer frame 21 formed at both ends of the rotary shaft 12 to fix the position of the rotary shaft 12 and an upper portion rotatably mounted on the fixed frame 2 And the lower part of the transfer frame 21 includes two or more transfer links 22 to which the pins 3 are rotatably coupled to the transfer frame 21. The drive motor 11 is connected to the transfer frame 21 As shown in Fig.

Since the endless pad 14 of the dust collecting means 10 is connected to the rotary roller 13 formed on the rotary shaft 12 only on the basis of the rotary roller 13, (14) can be moved forward or backward as a whole.

3C, when a large foreign object is collected on the screen 1 and the collected foreign substances are lifted and lowered while pressing the rake 15, the rake 15 and the rake 15 A load is generated on the endless pad 14 as the lower end of the endless pad 14 connected to the rake 15 is naturally pushed backward,

3D, since the endless pad 14 is pushed rearward, the transfer frame 21 that fixes the rotation shaft 12 connected to the endless pad 14 is inserted into the transfer link 22 The load on the rake 15 formed on the endless pad 14 and the endless pad 14 due to a large foreign matter is reduced by a large amount of foreign matter Thereby minimizing the damage and failure of the apparatus due to the load with foreign matter.

3 (c), when the rotating shaft 12 is not pushed rearward, a large foreign object is collected and the endless pad 14 portion, which is pushed rearward together with the rake 15, The width (D) at which the portion of the endless pad 14, which collects large foreign matter, can be pushed backward gradually decreases as the roller 13 gradually approaches the roller 13 and eventually raises and lowers the rake 15 and the rake The load of the endless pad 14 on which the endless pad 14 is formed can be gradually increased so that the endless pad 14 (see FIG. 3D) The distance D between which the rake 15 and the endless pad 14 formed with the rake 15 can be moved rearward can be forcibly increased so that a load To prevent damage or malfunction of the device due.

Therefore, the power link damper 100 having the non-dynamic load reducing means of the present invention can reduce the time, cost, and manpower required for repair and replacement due to damage and failure of the apparatus, .

1 and 2, further includes an elastic panel 30 formed on one side of the fixed frame 2 in contact with the conveyance frame 21 and supporting the conveyance frame 21 So,

3E, when the transfer frame 21 is transported backward together with the rotary shaft 12 and is returned to the stationary frame 2, It is preferable that the transfer frame 21 is prevented from being damaged due to collision, thereby enhancing the structural safety of the apparatus.

Meanwhile, as shown in FIGS. 1 and 2, a second load reducing means 40 for reducing a load generated when the endless pad 14 is pushed rearward due to a large foreign matter collected on the screen 1 Further comprising:

The second load reducing means 40 is positioned on the upper side of the screen 1 and the lower portion of the second load reducing means 40 is connected to the fixed frame 2 so as to be rotatable relative to the rake 15 of the endless pad 14, And a resilient means 42 for resiliently supporting the upper front surface of the guide plate 41. As shown in FIG.

3 (c), when large foreign matter collected on the screen 1 is collected and transported to the rake 15 of the endless pad 14, the endless pad 14 is pushed rearward and a load is generated At this time, the guide plate 41 for guiding the foreign object is pushed and rotated, and is naturally pushed forward to reduce the load of the endless pad 14,

3E, the foreign matter collected in the rake 15 of the endless pad 14 rides on the guide plate 41 and is discharged to the outside, thereby relieving the load of the endless pad 14, The guide plate 41 can be transported and restored backward due to the restoring force of the elastic means 42 elastically supporting the guide plate 41.

2, the elastic means 42 has a guide groove 42a 'formed therein, a guide body 42a rotatably coupled to the fixed frame, and one end of the guide body 42a' And the other end thereof is inserted into the guide groove 42a 'of the guide body 42a and is guided by the guide groove 42a' so as to be forwardly and rearwardly transferred. And an elastic spring 42c embedded in the guide groove 42a 'of the guide body 42a and elastically supporting the elastic protrusion 42b,

3C, when a load is applied to the endless pad 14 and the guide plate 41 is pressed, the elastic protrusions 42b together with the guide plate 41 guide the guide grooves 42a of the guide body 42a, (42a ') so that the load is released while being naturally pushed forward,

3E, when the load generated in the endless pad 14 is released, the elastic protrusion 42b is pushed backward by the restoring force of the elastic spring 42c, so that the elastic protrusion 42b, together with the elastic protrusion 42b, (41) is transported backward.

3B, the transfer frame 21 of the first load reduction means 20 supports the rotary shaft 12 connected to the heavy endless pad 14. In the endless pad 14, The guide plate 41 of the second load reducing means 20, which easily responds to a small load when the load applied to the endless pad 14 is somewhat small, The load of the endless pad 14 is relieved while being pushed forward,

As shown in Fig. 3C, when foreign matter having a somewhat thick thickness is collected in the rake 15 of the endless pad 14 and the load applied to the endless pad 14 is somewhat large, The guide plate 41 of the second load reduction means 40 is pushed forward and the load of the endless pad 14 is reduced and the transfer frame 21 of the first load reduction means 20 is transferred The endless pad 14 is moved backward together with the rotation shaft 12 by means of the link 22 to effectively relieve the load.

As shown in FIGS. 2 and 3E, on the upper side of the guide plate 41, there is provided a discharge plate (not shown) extending forward and guiding foreign matter, which is collected and transported to the rake 15 of the endless pad 14, 50), wherein the back sheet (50) is formed so as to be inclined downward, so that it is possible to induce easy transfer of the foreign material stuck to the back sheet (50).

The power link vibration damper 100 having the non-dynamic load reducing means of the present invention having the above-described components is configured such that when the endless pad 14 is conveyed backward by collecting large foreign matters on the screen 1, The transfer frame 21 of the saving means 20 is naturally transported rearward together with the rotary shaft 12 connected to the endless pedal 14 by the feed link 22 so that the position of the endless pad 14 The load of the endless pad 14 can be easily reduced and the first load reducing means 20 adjusts the position of the endless pad 14 with no force, And at the same time, it is possible to remarkably reduce the occurrence of a failure of the apparatus due to the very simple structure, and thus it is possible to provide the convenience of use of the apparatus.

In addition, the load of the endless pad 14, which is generated by collecting small foreign objects on the screen 1, is reduced through the second load reducing means 40, The load of the endless pad 14 generated by dust collection can be reduced at the same time through the first load reducing means 20 and the second load reducing means 40 so that the load of the endless pad 14 There is an effect that can be saved.

The power link damper 100 having the non-dynamic load reducing means according to the embodiment of the present invention having the above-described structure operates as follows.

First, as shown in FIG. 3A, the power link damper 100 having the non-dynamic load reducing means of the present invention is installed in a repair channel such as a drainage pumping station, a water supply water intake pipe, a related water supply pipe, a sewage treatment plant and a dam, The foreign matter is pressurized and collected by the plurality of rake 15 formed on the endless pad 14 which is rotated by receiving the rotational force from the driving motor 11 of the driving motor 11, (1).

3B, when foreign substances having a somewhat small thickness are collected on the screen 1, the rake 15, which presses the foreign substances, together with the rake 15 at the position (lower) where the rake 15 is formed, The endless pad 14 is slightly pushed rearward to form a somewhat small load. When the foreign matter is lifted up and placed in the second load reducing means 40, the guide plate 41 is pushed forward, ) Of the load is reduced.

3C, when foreign matter having a somewhat thick thickness is collected on the screen 1, the endless pad 14 (lower) at the position (lower) where the rake 15 is formed together with the rake 15 ) Portion is pushed rearward to form a large load,

As shown in FIG. 3D, when the guide plate 41 is lifted and positioned in the second load reducing means 40, the guide plate 41 is pushed forward to reduce the load of the endless pad 14, The transfer frame 21 of the load reducing means 20 is transferred to the transfer link 22 together with the rotary shaft 12 to transfer the endless pad 14 backward effectively to relieve the load of the endless pad 1 .

3E, the foreign matter collected in the rake 15 of the endless pad 14 rides on the guide plate 41, and when the foreign matter is discharged to the outside, the endless pad 14 pushed rearward is naturally The conveying frame 21 of the first load reducing means 20 is returned to the original position together with the rotary shaft 12 and at the same time the elasticity of the elastic means 42 for elastically supporting the guide plate 41 Due to the restoring force, the guide plate 41 is also moved backward and returned to its original position.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

1. Screen 2. Fixed frame
D. Spacing
10. Collecting means 11. Driving motor
12. Rotary shaft 13. Rotary roller
14. Endless Pad 15. Rake
20. First load reduction means 21. Transfer frame
22. Transfer link 30. Elastic panel
40. Second load reducing means 41. Guide plate
42. Elastic means 42a. Guide body
42a '. Guide groove 42b. Elastic projection
42c. Elastic spring 50. Pear
100. Power link damper with non-powered load reducing means

Claims (5)

A screen 1 formed so as to be inclined with respect to the surface of the screen 1; dust collecting means for removing foreign substances collected on the screen 1; and a fixing frame 2 for fixing the position of the screen 1 and the dust collecting means In the damper,
The dust collecting means 10 includes a driving motor 11 for providing a rotating force, a rotating shaft 12 rotated by receiving a rotating force of the driving motor 11, A rotating roller 13 rotating together with the rotating shaft 12 and an endless pad 13 having an endless track shape and having an upper portion connected to the rotating roller 13 to receive a rotating force of the rotating roller 13, (Collecting) the foreign matter collected on the screen 1 while being moved together with the endless pad 14, and moving the endless pad 14 at equal intervals on the outer surface of the endless pad 14, A plurality of rakes 15,
And a first load reducing means (20) for transferring the rotary shaft (12) backward or returning it forward,
The first load reduction means (20)
A transfer frame 21 formed at both ends of the rotary shaft 12 to fix the position of the rotary shaft 12,
An upper portion of which is rotatably connected to the fixed frame 2 by a pin 3 and a lower portion which is formed by two or more transport links 22 to which the pin 3 is rotatably coupled to the transport frame 21,
The dust collecting means 10 has a structure in which only the upper end portion of the endless pad 14 is connected to the rotating roller 13. When foreign matter having a large size is collected in the screen 1, The transfer frame 21 which fixes the rotary shaft 12 connected to the endless pad 14 is naturally transported backward by the transport link 22 so that the endless pad The load on the endless pad 14 and the rake 15 formed on the endless pad 14 due to a large foreign matter can be minimized and damage to the apparatus due to the load with foreign matter can be minimized And failure can be minimized,
And a second load reducing means (40) for reducing a load generated when the endless pad (14) is pushed rearward due to a large foreign matter collected on the screen (1)
The second load reducing means 40 is positioned on the upper side of the screen 1 and the lower portion of the second load reducing means 40 is connected to the fixed frame 2 so as to be rotatable relative to the rake 15 of the endless pad 14, A guide plate 41 for guiding the foreign substances up and down to the upper portion and an elastic means 42 for elastically supporting the upper front face of the guide plate 41,
When large foreign matter collected on the screen 1 is collected and transferred to the rake 15 of the endless pad 14, the endless pad 14 is pushed rearward and a load is generated. At this time, The guide plate 41 is naturally pushed forward while being pivoted, the load of the endless pad 14 is reduced,
When the foreign matter collected in the rake 15 of the endless pad 14 rides on the guide plate 41 and is discharged to the outside while the load of the endless pad 14 is released to elastically support the guide plate 41, The guide plate 41 is moved backward by restoring force of the elastic means 42,
And a discharge plate 50 formed on the upper portion of the guide plate 41 to forwardly discharge foreign matter to the outside through the rake 15 of the endless pad 14,
Wherein the discharge plate (50) is formed to be inclined downward to induce easy transfer of foreign matter placed in the discharge plate (50). delete delete delete delete

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