KR200328071Y1 - cleaning stem and industry filter system - Google Patents

Abstract

The present invention relates to an industrial filter having a shaft support plate for supporting a shaft for revolving a cleaning bag for cleaning a plurality of filter barrels, respectively.

Description

Cleaning stem and industry filter system

The present invention relates to an industrial filter having a shaft support plate for supporting a shaft for revolving a cleaning bag for cleaning a plurality of filter barrels, respectively.

Industrial filters include seawater filtration (power plants, pretreatment water), river filtration (industrial water, hydropower, golf course water), petrochemical industry, steel, steel, refining industrial water filtration, cooling water filtration, effluent filtration of sewage treatment plants, high pressure It is used to prevent nozzle clogging of washing water.

Conventionally, as the above-mentioned industrial filter, what is disclosed by the publication of Unexamined-Japanese-Patent No. 195-2823 by the applicant of this application, and Unexamined-Japanese-Patent No. 1997-4360 by Hanjin Industries, Inc. is proposed, for example.

In the industrial filter of these publications, a cleaning bag that rotates by shafts and arms and rotates by ring gears and pinions scrapes the inner circumferential surface of the filter tank mounted in the housing. It is discharged to the drain line through the foreign matter removal device having a.

By the way, in the above-described industrial filter, in order to provide a stable rotation of the shaft, the upper end of the shaft is coupled by the coupling with the drive shaft of the drive, the lower end of the shaft is coupled to the housing with the drain line. Therefore, ① for coupling the lower end of the shaft, increase the number of processes by drilling the housing and using and assembling parts such as shaft support pieces installed in the housing, and ② when combining the shaft with the cleaning bag assembled with the coupling shaft. Hassles to hold the valve vertically, ③ the shaft disposed in the drain chamber prevents the discharge of foreign substances, replacement by corrosion of the shaft or the support piece by foreign matters, and There is a trouble like this.

The present invention has been made to solve the above-described problems, the object of the present invention is to provide an industrial filter that can increase the cleaning efficiency of the increased filtration flow rate while eliminating the above-mentioned problems despite the simple configuration.

1 is a cross-sectional view showing an industrial filter according to a preferred embodiment of the present invention.

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

3 is a cross-sectional view taken along line B-B in FIG.

4 is a cross-sectional view taken along line C-C of FIG.

5 is a cross-sectional view taken along line D-D of FIG.

* Explanation of symbols for main parts of the drawings

1: inlet port 3: outlet port

5,7: pedestal 10: housing

10a: housing chamber 30: filter barrel

30a: filtration chamber chamber 50: cleaning bag

51 brush member 51a brush

51b: rod 55: foreign material removing member

55a: Foreign substance container 55b: Foreign substance container

55c: Foreign body connecting cylinder 60: idle unit

61 shaft 62 shaft support plate

63,65: arm 70: rotating unit

71: ring gear 73: pinion

80: drive unit 81: motor

83: reducer 84: coupling

85: axle 87: power transmission member

88,89Gear 90Drain Unit

90a: drain chamber 91: drain duct

93: valve 125,127: spring

175,177: Bush 185,187: Block

Industrial filter of the present invention for achieving the above object is a housing formed with an inlet and outlet; A plurality of filter barrels mounted on the housing; A cleaning bag disposed in each of the filter barrels; An idle unit for revolving each of the cleaning bags; A drive unit for driving the idle unit; A rotating unit for rotating each of the cleaning bags; Including the drain unit is installed on the lower side of the housing,

The idle unit includes a shaft disposed between the drive unit and the cleaning bag, an arm connecting the cleaning bag and the shaft, and a shaft coupled to the shaft to be rotatably disposed above the filter barrel. It consists of a support plate.

By these structures, the washing efficiency of the filtration flow volume which increases while eliminating the trouble mentioned above can be improved, although it is a simple structure.

In the above-described configuration, it is preferable that the shaft support plate is further provided with a communication hole communicating with the filter barrel.

On the other hand, the drive unit is a drive unit for providing rotational power; An upper end is coupled to the driving unit, and a lower end is rotatably supported by the shaft support plate; By implementing the power transmission member for transmitting the rotational force of the axle to the shaft, it is possible to simultaneously clean the plurality of filter barrels.

In addition, when the axle is rotatably supported by a pedestal on which the upper portion of the filter barrel is placed, the axle can be more stably realized.

The power transmission member is preferably composed of a drive gear coupled to the axle and a driven gear coupled to the top of the shaft while meshing with the drive gear.

In addition, it is preferable that each of the driven gears is further provided with a communication hole communicating with the shaft support plate and the filter barrel.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described.

1 is a cross-sectional view illustrating an industrial filter according to a preferred embodiment of the present invention, FIG. 2 is a cross-sectional view taken along line AA of FIG. 1, FIG. 3 is a cross-sectional view taken along line BB of FIG. 1, and FIG. 4 is 1 is a cross-sectional view taken along line CC of FIG. 1, and FIG. 5 is a cross-sectional view taken along line DD of FIG. As shown in Fig. 1 to 5, the filter of the present embodiment is in the housing 10, the inlet 1 and the outlet 3 are formed, the filter barrel 30 mounted on the housing 10, the filter barrel 30 The cleaning bag 50 and the cleaning bag 50 arranged to rotate and rotate, the rotating unit 60 and the rotating unit 70, the driving unit 80 and the drain unit 90 for driving the revolving unit 60. Consists of.

In the above-described configuration, the filter barrel 30 is supported by the pedestals 5 and 7 which are fixed to the housing 10. The pedestal 5 and the pedestal 7 form a housing chamber 10a in communication with the outlet 3.

As shown in FIGS. 1 and 5, the cleaning bag 50 includes a brush member 51 and a foreign matter removing member 55. The brush member 51 is comprised from the brush 51a which contacts the inner peripheral surface of the filter cylinder 30, and the rod 51b in which this brush 51a is installed. The foreign substance removing member 55 is installed between the shaft 61 and the pedestal 7 and is disposed between the foreign substance discharge cylinder 55a and the brush 51a which are in communication with the drain chamber 90a. , The foreign matter receiving container 55b and the foreign substance connecting container 55c for connecting the foreign substance discharge container 55a.

On the other hand, as shown in Figure 5, the brush 52a that prevents the foreign matter dropped by the brush 51a to escape between the foreign matter receiving container 55b and the filter barrel 30 is installed in the foreign matter receiving container 55b. It is preferable. In the present embodiment, the brush 51a is cylindrical and the brush 52a is plate-shaped.

The revolving unit 60 includes a shaft 61 disposed between the drive unit 80 and the cleaning bag 50, arms 63 and 65 connecting the cleaning bag 50 and the shaft 61, and the filter barrel 30. The shaft 61 is composed of a shaft support plate 62 that is rotatably coupled to the shaft 61 while being disposed above.

The upper end of the shaft 61 is rotatably coupled to the shaft support plate 62, and the lower end of the shaft 61 is coupled to the upper end of the foreign matter discharge container 55a.

One end of the arms (63; 65) is rotatably coupled to the shaft (61). By this structure, the arms 63 and 65 rotate the rod 51b along the circumferential direction of the inner circumferential surface of the filter barrel 30 by the rotation of the shaft 61.

In addition, it is preferable that springs 125 and 127 be provided, as shown in the partial enlarged view of FIG. 1 so that the brush 51a can be brought into close contact with the filter barrel 30. That is, the springs 125 and 127 are interposed between the bushes 173 and 175 of the arms 63 and 65 and the blocks 183 and 185. Blocks 183 and 185 are preferably implemented at four angles so that the elastic force of the springs 125 and 127 can be stably transmitted. By this structure, when the brush 51a is installed in close contact with the filter barrel 30, the springs 125 and 127 are compressed while the rod 51b is pushed by the reaction force of the filter barrel 30. When the cleaning operation is performed in this compressed state, as the brushes 51a are gradually worn out, the springs 125 and 127 are tensioned, and the brushes 51a are kept in close contact with the filter barrel 30, thereby increasing the efficiency of the cleaning operation.

The shaft support plate 62 is fixed on the inner circumferential surface of the pedestal 5, the ring gear 71 or the housing 10 with the shaft 61 rotatably coupled to the shaft 61. The shaft support plate 62 of this embodiment is fixed on the pedestal 5 by using the bolt 64a and the nut 64b.

By adopting the configuration of the shaft support plate 62, the shaft 61 can be stably supported in a rotatable manner, so that the lower end of the foreign matter discharge container 55a can be mounted on the housing 10 as in the prior art. 7) can be simply supported rotatably. Therefore, not only the drilling operation is performed on the housing 10 but also the space of the drain chamber 90a is not occupied, thereby improving workability and foreign matter removal efficiency.

On the other hand, when the shaft support plate 62 is disposed below the inlet 1, it is preferable that the communication hole 62a communicating with the chamber 30a of the filter barrel 30 is installed as shown in FIG. Do. Therefore, the fluid introduced into the inlet 1 is smoothly flowed into the filter barrel (30).

The rotating unit 70 is composed of a ring gear 71 fixed to the upper end of the filter barrel 30, a pinion 73 is installed on the rod 51b and engaged with the inner side of the ring gear 71. By this structure, when the shaft 61 rotates, the rods 63b revolve along the circumferential direction of the filter cylinder 30 while the arms 63 and 65 rotate. By this revolution, the pinion 73 rotates with respect to the ring gear 71, and the rod 51b rotates.

The drive unit 80 is a drive unit consisting of a motor 81 and a reducer 83 providing a rotational power, the upper end is coupled to the drive unit, the lower end is an axle 85 rotatably supported by the shaft support plate 62, It is comprised by the power transmission member 87 which transmits the rotational force of the axle 85 to each shaft 61. As shown in FIG. In addition, the axle 85 can be further rotatably supported on the pedestal 5.

By the axle 85 being stably supported by the shaft support plate 62 and the pedestal 5, the same effects as those of the above-described stable support of the shaft 61 can be achieved.

The power transmission member 87 preferably includes a drive gear 88 coupled to the axle 85 and a driven gear 89 coupled to the upper end of the shaft 61 while being engaged with the drive gear 88. . At this time, as shown in Fig. 2, each of the driven gears 89 is preferably provided with a communication hole 89a to communicate with the communication hole 62a of the shaft support plate 62.

The drain unit 90 may be implemented with a drain duct 91 having one end connected to the lower end of the housing 10 and a valve 93 installed at the other end of the drain duct 91.

Hereinafter, the operation according to the configuration of the first embodiment will be described.

The fluid flowing into the inlet 1 flows into the chamber 30a of each strainer 30, and the fluid of the chamber 30a passes through the strainer 30 and then through the chamber 10a of the housing 10. It is discharged to the outlet (3). When foreign matter is collected in the filter barrel 30 during the flow of the fluid, differential pressure occurs and the flow of the fluid is reduced. At this time, the motor 81 is driven and the valve 93 is opened according to the instruction of the differential pressure switch (not shown).

As the shaft 61 rotates through the axle 85 and the gears 88 and 88 by the driving of the motor 81, the cleaning bag 50 revolves. By this revolution, the cleaning bag 50 is rotated by the ring gear 71 and the pinion 73. Therefore, the brush 51a removes the foreign matter collected in the filter barrel 30 through the rotation. At this time, the fluid in the chamber 30a continues to be discharged through the filter barrel 30 to the outlet 3 through the chamber 10a, and at the same time, the fluid in the chamber 30a, in particular, due to the pressure difference due to the opening of the valve 93. The fluid of the foreign matter dropping portion is introduced into the foreign matter receiving container 55b, and is discharged through the foreign material connecting cylinder 55c, the foreign substance discharge container 55b, the drain chamber 90a and the drain duct 91. Therefore, the flow of the fluid is directed toward the filter barrel 30, and the downward pressure of the tube bar 53 due to the pressure difference is strong, foreign matter dropped by the brush 51 has a high suction rate to the foreign material removal member 55. Will be.

During this cleaning operation, the fluid is continuously supplied without interruption, and the cleaning operation is completed within 20 to 30 seconds.

Industrial filter of the present invention is not limited to the above-described embodiment can be carried out in various modifications within the range allowed by the technical idea of the present invention. For example, it will be apparent to those skilled in the art that foreign substances can be removed by directly communicating the foreign matter collecting container and the drain chamber.

As apparent from the above description, the industrial filter of the present invention has the following effects.

First, the inlet and outlet housing is formed; A plurality of filter barrels mounted on the housing; A cleaning bag disposed in each of the filter barrels; An idle unit for revolving each of the cleaning bags; A drive unit for driving the idle unit; A rotating unit for rotating each of the cleaning bags; And a drain unit installed below the housing, wherein the idle unit includes a shaft disposed between the drive unit and the cleaning bag, an arm connecting the cleaning bag and the shaft, and an upper portion of the filter barrel. The shaft is composed of a shaft support plate which is coupled to the shaft rotatably while being arranged, (1) by installing a plurality of filter barrels and cleaning of the filter cylinders, which enables large-capacity wastewater filtration and (2) It is supported to simplify the coupling of the lower end of the shaft and ③ the shaft is not disposed in the drain chamber to facilitate the discharge of foreign matters, as well as to prevent the corrosion of the shaft by the foreign matters, thereby improving durability.

Secondly, the shaft support plate is further provided with a communication hole communicating with the filter barrel, it is possible to smoothly flow the fluid.

Third, the drive unit includes a drive unit for providing rotational power; An upper end is coupled to the driving unit, and a lower end is rotatably supported by the shaft support plate; By the power transmission member for transmitting the rotational force of the axle to the shaft, ① axles can be adapted to the conventional driving unit, ② axle is supported on the shaft support plate, the axle support mechanism is easy.

Fourth, the axle is rotatably supported by a support on which the upper portion of the filter barrel is placed, thereby stably rotating the axle.

Fifth, the power transmission member is composed of a drive gear coupled to the axle and a driven gear coupled to the upper end of the shaft while meshing with the drive gear, thereby accurately transmitting the rotational force of the axle to the shaft.

Sixth, each of the driven gear is further provided with a communication hole communicating with the shaft support plate and the filter barrel, it is possible to smoothly flow the fluid.

Claims (6)

A housing formed with an inlet and an outlet; A plurality of filter barrels mounted on the housing; A cleaning bag disposed in each of the filter barrels; An idle unit for revolving each of the cleaning bags; A drive unit for driving the idle unit; A rotating unit for rotating each of the cleaning bags; Including the drain unit is installed on the lower side of the housing, The idle unit, A shaft disposed between the drive unit and the cleaning bag; An arm connecting the cleaning bag and the shaft, Industrial shaft filter, characterized in that consisting of a shaft support plate which is coupled to the shaft rotatably while the shaft is disposed above the filter barrel. The industrial filter according to claim 1, wherein the shaft support plate is further provided with a communication hole communicating with the filter barrel. According to claim 1 or 2, wherein the drive unit is a drive unit for providing rotational power; An upper end is coupled to the driving unit, and a lower end is rotatably supported by the shaft support plate; And a power transmission member for transmitting the rotational force of the axle to the shaft. 4. The industrial filter according to claim 3, wherein the axle is rotatably supported by a pedestal on which an upper portion of the filter barrel is placed. 5. The industrial filter according to claim 4, wherein the power transmission member is composed of a drive gear coupled to the axle and a driven gear coupled to the top of the shaft while engaged with the drive gear. 6. The industrial filter according to claim 5, wherein each of the driven gears is further provided with a communication hole communicating with the shaft support plate and the filter barrel.