KR101918680B1 - Belt press with press rollers arranged vertically - Google Patents

Abstract

The present invention provides a belt press having a vertically arranged structure of pressure rollers, comprising: upper and lower filter cloths arranged to run a pressurizing-dewatering section by having sludge interposed therebetween; and a vertically arranged structure provided in the pressurizing-dewatering section. The vertically arranged structure comprises: a plurality of pressure rollers arranged in parallel in a vertical direction and arranged in a zigzag pattern and supporting the upper and lower filter cloths; a plurality of filtrate receivers extending in a lateral direction which is an extension direction of the pressure rollers and positioned below each of the pressure rollers for collecting the filtrate separated from the sludge pressurized between the upper and lower filter cloths; left and right supporting columns fixed to the frame of the belt press so as to be apart from each other in the left-right direction and supporting the left and right ends of the pressure rollers and the right and left ends of the filtrate receivers; a filtrate discharging column formed with at least one of the left and right supporting columns, and adapted to receive the filtrate from the filtrate receivers as an internal falling path and discharge the filtrate dropped from the falling path to the outside.

Description

TECHNICAL FIELD [0001] The present invention relates to a belt press having a vertical arrangement of pressure rollers,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a belt press having a vertically arranged structure of pressure rollers for supporting upper and lower filter cloths running continuously, and more particularly, to a belt press for vertically arranging pressurizing rollers in which upper and lower filter cloths To the belt press.

Sewage that is thrown away at home or factory is sent to sewage treatment plant and is processed. The sewage treatment process includes a purification process and a sludge treatment process. In the purification process, the sewage is purified to a range where the self-purification of the river can be activated and discharged to a public water such as a river. In the sludge treatment process, The sludge is treated through processes such as concentration and dehydration.

A dehydrator, which is one of the weight reduction devices used in the sludge treatment process, separates the filtrate from the sludge and is classified into a belt press, a filter press, a screw press, a centrifugal dehydrator, and an electroosmotic dehydrator according to the operation principle.

The belt press is a device for dewatering the sludge while supplying sludge between upper and lower filter cloths running continuously. The upper and lower filter cloths travel while being supported by a plurality of pressure rollers. The sludge between the upper and lower filter cloths is moved while being pressed by the upper and lower filter cloths, and dehydrated in this process to become a sludge cake. The sludge cake is separated from the filter cloth by a scraper, and the filter cloth is cleaned and re-circulated.

Such a belt press is disclosed in Korean Patent No. 10-0390313 (belt press of industrial dehydrator), Korean Patent No. 10-0776339 (dehydrator of sludge cake), Korean Patent No. 10-1114225 (sludge dehydrator), Korea Registration Practical Utility Model No. 20-0275511 (Belt Press for Dewatering).

Korean Patent No. 10-0390313 (belt press of industrial dehydrator) Korean Patent No. 10-0776339 (dehydration apparatus of sludge cake) Korean Patent No. 10-1114225 (sludge dehydrator) Korean Registered Utility Model No. 20-0275511 (Dehydration Belt Press)

As disclosed in the foregoing prior art documents, the belt press generally has a vertical arrangement of pressure rollers. In this vertical arrangement structure, the pressure rollers are vertically arranged along the vertical direction, and arranged in a zigzag form. The belt press has a structure in which the pressure rollers are horizontally arranged along the front-rear direction, but arranged in a zigzag pattern, that is, a horizontally arranged structure. However, in the case of having a horizontal arrangement structure, the length of the belt press is inevitably longer than in the case of having a vertical arrangement structure, and a vertical arrangement structure is provided in at least a part of the entire section in which the upper and lower filter cloths run.

However, when the upper and lower filter cloths pass through the vertical arrangement structure, the filtrate falls from the upper and lower filter cloths to the upper and lower filter cloths located below the upper and lower filter cloths in the belt press having the vertical arrangement structure. Despite this, there is a problem that the filtrate dropped from above.

Such a problem is an obstacle to the improvement of the dewatering performance of the belt press having the vertical arrangement of the pressure roller, and therefore needs to be solved, and the present invention intends to provide a technique capable of satisfying this need.

The present invention relates to an upper filter bag and a lower filter bag which are arranged to run through a pressure dewatering section with sludge therebetween; And a vertically arranged structure provided between the pressurized dewatering section and the pressurizing / dehydrating section. At this time, the vertical arrangement structure includes a plurality of pressure rollers arranged in parallel in a vertical direction and arranged in a zigzag pattern, and supporting the upper and lower filter cloths. A plurality of filtrate receivers extending in a lateral direction which is an extension direction of the pressure rollers and positioned below each of the pressure rollers to collect and collect the filtrate separated from the sludge pressurized between the upper and lower filter cloths; Left and right supporting pillars fixed to the frame of the belt press so as to be apart from each other in the left and right direction and supporting left and right ends of the pressure rollers and left and right ends of the liquid receivers; And the left and right supporting pillars. The filtrate discharging column is configured to receive the filtrate from the filtrate receivers as an internal falling path and discharge the filtrate dropped from the falling path to the outside.

Each of the filtrate receivers includes a bucket having a left end fixed to an inner surface of the left support column and a right end fixed to an inner surface of the right support column; And an inclined plate coupled to the bucket with a slope to allow the filtrate to flow to the bucket. The filtrate inlet port is provided on the inner surface of the filtrate discharge column to allow the filtrate of the bucket to flow into the dropping passage.

The left and right support columns are provided with brackets for supporting left and right ends of the front pressure rollers, which are a part of the pressure rollers, on the front surface, and brackets for supporting the left and right ends of the remaining rear pressure rollers on the back surface.

The left and right support pillars constitute the filtrate discharge column. The filtrate discharge column, which receives the filtrate from the filtrate receiver under the front pressure rollers, and the filtrate discharge column, which receives the filtrate from the filtrate receiver under the rear pressure rollers, different.

Alternatively, the left support column may include a left front support column for supporting the left end of the front pressure rollers, which is a part of the pressure rollers, and the left end of the filtrate receiver below the front pressure rollers. And a left rear support column for supporting the left end of the rear pressure rollers which are the remaining ones of the pressure rollers and the left end of the filtrate receiver below the rear pressure rollers. In this case, the right support column includes a right front support column for supporting the right end of the front pressure rollers and the right end of the filtrate receiver under the front pressure rollers; And a right rear support column for supporting a right end of the rear pressure rollers and a right end of the filtrate receiver under the rear pressure rollers.

Any one of the left front support column and the right front support column, and any one of the left rear support column and the right rear support column is constituted by the filtrate discharge column.

According to the present invention, since the pressure rollers are arranged vertically, the length of the belt press is short and the pressure rollers do not reach the upper and lower filter cloths which fall down from the sludge when the upper and lower filter cloths are wound up. I can do it.

Further, according to the present invention, the vertically aligned structure can be provided in a simple configuration.

In addition, according to the present invention, the front-rear direction spacing distance between the front pressing rollers and the rear pressing rollers can be freely set.

1 is a side view showing a belt press having a vertically arranged structure of a pressure roller according to the present invention.
2 is an exploded perspective view showing a part of the vertically aligned structure shown in FIG.
3 is a longitudinal sectional view showing the vertically aligned structure shown in FIG.
4 is a longitudinal sectional view showing a modified example of the vertically aligned structure shown in FIG.

Hereinafter, preferred embodiments of a belt press having a vertical arrangement structure of a pressure roller according to the present invention will be described in detail with reference to the drawings. It is to be understood that the terminology or words used herein are not to be construed in an ordinary sense or a dictionary, and that the inventor can properly define the concept of a term to describe its invention in the best possible way And should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

In the following, embodiments of the present invention will be described with reference to FIG. 1 for the sake of clarity and ease of explanation of the present invention, with the left side being the front side and the right side being the rear side and the left side and the right side being defined from the front side to the rear side .

The belt press 100 having a vertical arrangement of pressure rollers according to the present invention includes upper and lower filter cloths 122 and 124 and a vertically arranged structure 200 as shown in FIGS.

The lower filter cloth 124, which is one of the upper and lower filter cloths 122 and 124, is designed to run infinitely. In the course of running, the gravure dewatering section G and the pressurized dewatering section P are sequentially routed, (144) and returns to the gravity dehydration section (G).

The upper filter cloth 122 which is the remainder of the upper and lower filter cloths 122 and 124 is also designed to run infinitely. After passing through the pressurizing and dewatering section P, the upper filter cloth 122 passes through the tension rollers 142 for upper filtration, (G).

In the gravity dehydration section G, the sludge S (see FIG. 3) lies on the lower filter cloth 124 and moves backward, but is not caught between the lower filter cloth 124 and the upper filter cloth 122. Therefore, in the gravity dehydration section G, the filtrate is separated from the sludge S by gravity and then passes through the lower filter cloth 124 and falls into the filtrate collector 130. The filtrate collecting body 130 is installed in a frame 110 forming a whole frame of the belt press 100 so as to be positioned below the lower filter cloth 124. On the other hand, the sludge S in the gravity dehydration section G can not pass through the lower filter cloth 124 and is moved by the lower filter cloth 124 to the pressure dewatering section P.

The sludge S is pinched between the lower filter cloth 124 and the upper filter cloth 122 and pressed by the two filter cloths 122 and 124. Therefore, in the pressurized dehydration section P, the filtrate is separated from the sludge by the pressing force of the two filter cloths 122 and 124, and then falls. The sludge in the pressurized and dewatered section P can not pass through the two filter cloths 122 and 124 and is moved by the two filter cloths 122 and 124 and is separated from the lower filter cloth 124 while being scratched by the scrapers 160 The separated sludge, i.e. dehydrated sludge, is called a sludge cake. The scraper 160 is arranged to scrape off the sludge cake from the lower filter cloth 122 when the lower filter cloth 122 passes the tension roller 144 for the lower filtration cloth when the filter cloth 122 is out of the pressure dewatering section P .

The vertical arrangement structure 200 includes a plurality of pressure rollers 242 and 244, a plurality of filtrate receivers 250 and 260, and left and right support columns 210 and 220, which are provided in the pressurized and dewatered section P, do.

The left support post 210, which is one of the left and right support posts 210 and 220, is vertically extended and fixed to the upper frame 110. As shown in FIG. 2, the left support post 210 has front brackets 212 arranged in the upper and lower parts on the front side, and rear brackets 214 arranged on the upper and lower sides on the back side. At this time, the front brackets 212 and the rear brackets 214 are arranged in a zigzag form.

The right support posts 220 which are the other one of the left and right support posts 210 and 220 are fixed to the frame 110 so as to be positioned to the right from the left support posts 210. The right support pillar 220 includes front brackets 222 located on the front side and positioned to the right from the upper front brackets 212 and rear brackets 222 located on the right side from the upper rear brackets 214 224 on the back side.

The right and left ends of the front pressing rollers 242 are rotatably coupled to the front brackets 212 and 222 of the left and right support posts 210 and 220 and the rear brackets 212 and 222 of the left and right support posts 210 and 220 214 and 224 are rotatably engaged with the left and right ends of the rear pressure rollers 244. [ Accordingly, when the upper pressure rollers 242 and 244 are fastened to the left and right support pillars 210 and 220, the pressure rollers 242 and 244 are arranged in the vertical direction as shown in FIGS. 1 and 3, . The upper and lower filter cloths 122 and 124 sandwiching the sludge S are alternately wound around the front pressure roller 242 and the rear pressure roller 244 as shown in FIG.

When the upper and lower filter cloths 122 and 124 pass the pressure rollers 242 and 244 in this manner, the sludge S is dewatered by the pressing force, and the filtrate separates from the sludge S and falls. In order to prevent the falling filtrate from reaching the filter cloths 122 and 124 running from below, the filtrate receivers 250 and 260 are provided in the vertical array structure 200.

The upper liquid receivers 250 and 260 include a front liquid receiver 250 positioned below each of the front pressure rollers 242 and a rear liquid receiver 260 positioned below each of the rear pressure rollers 244, . For reference, FIGS. 1 and 3 illustrate three front pressure rollers 242 and three front liquid receivers 250, two rear pressure rollers 244, and two rear liquid receivers 260.

The front filtrate receiver 250 includes a bucket 254 and a swash plate 252 as shown in FIG. The left end of the bucket 254 is fixed to the inner side (right side) of the left support column 210 and the right end thereof is fixed to the inner side (left side) of the right support column 220. The swash plate 252 extends forward from the bucket 254 and extends obliquely so that the front end is positioned higher than the rear end. The filtrate dropped from the sludge S when the upper and lower filter cloths 122 and 124 wind around the front rollers 242 flows along the upper inclined plate 252 and is collected in the bucket 254.

2, the back filtrate receiver 260 includes a bucket 264 and a swash plate 262. [ The left end of the bucket 264 is fixed to the inner side (right side) of the left support column 210 and the right end thereof is fixed to the inner side (left side) of the right support column 220. The swash plate 262 extends rearwardly from the bucket 264 and extends obliquely so that the rear end is positioned higher than the front end. The filtrate dropped from the sludge S when the upper and lower filter cloths 122 and 124 wind around the rear rollers 244 flows along the upper swash plate 262 and is collected in the bucket 264.

In order to discharge the filtrate collected in the buckets 254 and 264 to the outside as described above, the left and right support pillars 210 and 220 of the vertically aligned structure 200 are all formed of the filtrate discharge pillars.

The filtrate inflow ports 216 arranged in the vertical direction are provided on the inner side surface (right side surface) of the left support column 210. When the filtrate inflow ports 216 are provided in the left support column 210, Is provided so as to extend in the vertical direction. The upper filtrate inlet 216 communicates with the bucket 254 of the front filtrate receiver 250 (not shown). Therefore, the filtrate collected in the bucket 254 of the front filtrate receiver 250 flows into the dropping port (not shown) of the filtrate discharge column composed of the left support column 210 and falls. At this time, the inner side (left side) of the filtrate discharge column formed of the right support column 220 blocks the right end of the bucket 254 of the front filtrate receiver 250, and the bucket 254 of the front filtrate receiver 250, Is not introduced into the falling path of the filtrate discharge column composed of the right support columns 220. [

The filtrate inflow ports 226 arranged in the vertical direction are provided on the inner side (left side) of the right support column 220 when the filtrate discharge column is used as the filtrate discharge column, Not shown) extending in the vertical direction. The upper filtrate inlet 226 communicates with the bucket 264 of the rear filtrate receiver 260 (not shown). Therefore, the filtrate collected in the bucket 264 of the rear filtrate receiver 260 flows into the drop (not shown) of the filtrate discharge column composed of the right support column 220 and falls. At this time, the inner side surface (right side surface) of the filtrate discharge column formed of the left support column 210 blocks the left end of the bucket 264 of the rear filtrate receiver 260 and the left side of the bucket 264 of the rear filtrate receiver 260 The collected filtrate does not flow into the falling path of the filtrate discharge column composed of the left supporting columns 210.

1, a drain port 230 is provided at the lower end of the outer side (right side) of the filtrate discharge column formed of the right support column 220, (Left side) and a drain (not shown) at the bottom. Accordingly, the filtrate dropped from the fall path of the filtrate discharge column composed of the left and right support columns 210 and 220 passes through the upper volley ball 230 (not shown) and then flows along the separate filtration means (hose, (130).

1, a plurality of check windows 232 arranged up and down are provided on the outer side (right side) of the filtrate discharge column composed of the right side support pillars 220, (Not shown) is also provided on the outer side (left side) of the discharge column. Therefore, the operator can visually confirm the situation of the filtrate drop through the above inspection windows 232 (not shown).

On the other hand, the filtrate of the front filtrate receiver 250 is discharged through the filtrate discharge column composed of the left support column 210 and the filtrate of the rear filtrate receiver 260 is discharged through the filtrate discharge column composed of the right support column 220 . On the other hand, on the contrary, the filtrate discharge column constituted by the left support column 210 constitutes the filtrate of the rear filtrate receiver 260, and the filtrate discharge column constituted by the right support column 220 is configured to discharge the filtrate of the front filtrate receiver 250 Of course it is possible.

Further, it has been described that the left and right support pillars 210 and 220 are all formed as the liquid discharge pillars. However, only one of the left and right support pillars 210, 220 can form a filtrate discharge column, in which case all of the filtrate inlets 216, 226 will be provided in one filtrate discharge column. For example, if only the left support column 210 forms the liquid outlet column, the filtrate inflow ports 226 of the right support column 220 are also provided on the inner side (right side) of the left support column 210. Since the right supporting column 220 is not used as a filtrate discharging column, it is not necessary to provide the falling path inside, and the need for providing the inspection window 232 and the drain port 230 on the outer surface (right surface) There will be no.

According to the above description, the vertically aligned structure 200 includes one left support column 210 and one right support column 220. However, the vertically aligned structure 200 may include a pair of left support posts 310a and 310b and a pair of right support posts (not shown) as shown in FIG. 4, Explain.

The pair of left support pillars 310a and 310b are constituted by a left front support pillars 310a and a left back support pillars 310b and a pair of right support pillars (not shown) And a right rear support column located to the right from the upper left rear support column 310b.

The left front support column 310a has a bracket (not shown) coupled to the left end of the front pressure rollers 242 and a right front support column (not shown) is coupled to the right end of the front pressure rollers 242 Brackets (not shown) are provided on the back side. Any one of the left front support column 310a and the right front support column (not shown) is constituted of a filtrate discharge column, and this filtrate discharge column has a filtrate inlet, a drop passage, a check window, Respectively. 4 shows an example in which the left front supporting column 310a is constituted by an outlet liquid column and the filtrate inlet 316 is provided in the left front supporting column 310a.

The bucket 354 of the pre-filtrate receiver located under the front pressure rollers 242 has a left end fixed to the left front support column 310a and a right end fixed to the right front support column (not shown). The swash plate 352 of the front filtrate receiver extends rearward from the upper bucket 354 and extends obliquely so that the rear end is positioned higher than the front end. The filtrate dropped from the sludge S when the upper and lower filter cloths 122 and 124 wind the front rollers 242 flows along the upper inclined plate 352 and is collected in the bucket 354, The left front supporting column 310a in Fig. 4).

The left rear support column 310b is located behind the left front support column 310a and includes a bracket (not shown) coupled to the left end of the rear pressure rollers 244 on the front surface thereof, (Not shown) coupled to the right end of the rear pressing rollers 244 on the front side. Any one of the left rear support column 310b and the right rear support column (not shown) is constituted of a filtrate discharge column, and the filtrate discharge column has a filtrate inlet, a drop passage, Respectively. Fig. 4 shows an example in which the right rear support column (not shown) is constituted by the filtrate discharge column.

The bucket 364 of the rear filtrate receiver located under the rear pressure rollers 244 has a left end fixed to the left rear support column 310b and a right end fixed to the right rear support column (not shown). The swash plate 362 of the back filtrate receiver extends forward from the upper bucket 364 and extends obliquely so that the front end is higher than the rear end. The filtrate dropped from the sludge S when the upper and lower filter cloths 122 and 124 wind around the rear rollers 244 flows along the upper inclined plate 362 and is collected in the bucket 364, (Not shown) in the case of Fig. 4).

On the other hand, reference numeral 132 not shown in FIG. 1 is another filtrate receiver. The filtrate dropped from the sludge S when the upper and lower filter cloths 122 and 144 are wound around the pressing roller 146 immediately before the vertically aligned structure 200 falls into the upper filtrate receiver 132 and then flows into the filtrate collector 130, . The filtrate receiver 132 is fixed to the frame 110.

1, reference numeral 152 denotes a moisture adsorption felt. The moisture adsorption felt 152 is wound around a pressure roller 156 rotatably coupled to the frame 110 and is provided for endless running. The upper and lower filter cloths 122 and 124 that are out of the vertical arrangement structure 200 are wrapped on the moisture adsorption felt 152 and then wound around the pressure roller 156. The filtrate separated from the sludge S at this time is subjected to moisture adsorption And is absorbed by the felt 152. Such a moisture adsorption felt 152 may or may not be provided in the pressurized and dewatered section P, but is generally provided for improving the dewatering efficiency.

The pressure rollers 242 and 244 are vertically arranged so that the length of the belt press 100 is short and the pressure rollers 242 and 244 are pressed against the sludge when the upper and lower filter cloths 122 and 124 are wound. S does not reach the upper and lower filter cloths 122, 124 below the filtrate, thereby improving the dewatering efficiency.

According to the present invention, the vertically aligned structure 200 has one left support column 210 and one right support column 220, and all of the pressure rollers 242 And 244 are supported, the structure of the vertically aligned structure 200 is simple.

Further, since at least one of the upper left and right support pillars 210 is constituted by the filtrate discharge column, there is no need to provide a separate filtrate discharge column, and the simplification of the configuration of the vertically arranged structure 220 is realized also in this respect .

According to the present invention, the vertically aligned structure 200 includes a pair of front supporting pillars 310a (not shown) and rear pressing rollers 244 supporting the front pressing rollers 242 The front pressing rollers 310a and 310b have a rear supporting column 310b (not shown) to adjust a forward and rearward installation distance between a pair of front supporting columns 310a (not shown) and a pair of rear supporting columns 310b The front-rear direction spacing distance between the rear pressing rollers 242 and the rear pressing rollers 244 can be freely set.

At this time, any one of the pair of the front supporting pillars 310a (not shown) and the pair of the back supporting pillars 310b (not shown) is constituted of the liquid discharging pillars, Is unnecessary.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: a belt press having a vertical arrangement of pressure rollers
110: frame 122: upper filter cloth
124: lower filter cloth 130: filtrate collector
200: vertical array structure 210, 310a, 310b:
212, 214: Brackets 216, 226, 316: Filtrate inlet
220: right support post 222, 224: bracket
230: Drain 232: Inspection window
242, 244: pressure roller 250, 260: filtrate receiver
252, 262, 352, 362: inclined plates 254, 264, 353, 364:

Claims (6)

Upper and lower filter cloths arranged so as to travel in a pressurized and dewatered section with sludge interposed therebetween; And
And a vertically arranged structure provided between the pressurized and dehydrated sections,
Wherein the vertical alignment structure comprises:
A plurality of pressure rollers arranged in parallel in a vertical direction and arranged in a zigzag pattern and supporting the upper and lower filter cloths;
A plurality of filtrate receivers extending in a lateral direction which is an extension direction of the pressure rollers and positioned below each of the pressure rollers to collect and collect the filtrate separated from the sludge pressurized between the upper and lower filter cloths;
Left and right supporting pillars fixed to the frame of the belt press so as to be apart from each other in the left and right direction and supporting left and right ends of the pressure rollers and left and right ends of the liquid receivers; And
And a filtrate discharging column which is constituted by at least one of the left and right supporting columns and which is capable of receiving the filtrate from the filtrate receivers as an internal falling path and discharging the filtrate dropped from the falling path to the outside,
Each of the filtrate receivers is provided with:
A bucket having a left end fixed to an inner surface of the left support column and a right end fixed to an inner surface of the right support column; And
And a tilt plate coupled to the bucket with a slope to allow the filtrate to flow into the bucket,
And the inner surface of the filtrate discharge column has a vertical arrangement structure of a pressure roller provided with a filtrate inflow port for allowing the filtrate of the bucket to flow into the falling path. delete The method according to claim 1,
The left and right support pillars include a vertical arrangement structure of a pressure roller provided on brackets for supporting left and right ends of front pressure rollers, which are a part of the pressure rollers, on the front surface, and brackets for supporting left and right ends of the remaining rear pressure rollers, Lt; / RTI > The method of claim 3,
The left and right support pillars constitute the filtrate discharge column. The filtrate discharge column, which receives the filtrate from the filtrate receiver under the front pressure rollers, and the filtrate discharge column, which receives the filtrate from the filtrate receiver under the rear pressure rollers, A belt press having a vertical arrangement of other pressure rollers. The method according to claim 1,
The left support post
A left front support column for supporting the left end of the front pressure rollers, which is a part of the pressure rollers, and the left end of the filtrate receiver under the front pressure rollers; And
And a left rear support column for supporting the left end of the rear pressure rollers which are the remaining ones of the pressure rollers and the left end of the filtrate receiver below the rear pressure rollers,
The right support post
A right front support column supporting the right end of the front pressure rollers and the right end of the filtrate receiver under the front pressure rollers; And
And a right rear support column supporting the right end of the rear pressure rollers and the right end of the filtrate receiver under the rear pressure rollers. 6. The method of claim 5,
Wherein one of the left front support column and the right front support column and any one of the left rear support column and the right rear support column is constituted by the filtrate discharge column.

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