JP2019118842A - Sludge scraping-up machine, derailment guard member and method for modification of sludge scraping-up machine - Google Patents

Abstract

To provide a sludge scraping-up machine in which a cost can be reduced when taking measures to prevent chain detachment at a sloshing occurrence time.SOLUTION: A sludge scraping-up machine 1 in which a scraping-up plate 20 is provided between a pair of endless chains 19, and sludges in a precipitation basin 2 are scraped up with a scraping-up plate 20 by circulation of the endless chain 19. The endless chain 19 has plural links 30, and a connection part which connects adjacent links 30 to each other. The scraping-up plate 20 is fitted to a specific link 30(A) of the endless chain 19, and a derailment guard member 42 is fitted to the specific link 30(A) to which the scraping-up plate 20 is fitted. A guard rail 58, in which upward 65 fluctuation and lateral 66 fluctuation of the endless chain 19 is regulated by contact of the derailment guard member 42, is fixed to a side wall 7 side of the precipitation basin 2.SELECTED DRAWING: Figure 3

Description

  The present invention relates to, for example, a sludge scraping machine installed in a sedimentation tank provided in a water treatment facility or the like, a derailment guard member installed in the sludge scraping machine, and a method of remodeling the sludge scraping machine.

  Heretofore, as this type of sludge scraper, for example, as shown in FIG. 22 and FIG. The sludge scraping machine 121 includes a plurality of sprockets 122 provided in the sedimentation basin 120, a pair of left and right endless chains 123 wound around the sprockets 122, and a plurality of flights provided between the endless chains 123. And a plate 124. The flight plates 124 are provided at predetermined intervals in the longitudinal direction of the endless chain 123. The endless chain 123 is a general-purpose chain in which a plurality of link members 125 are connected by a connection pin 126.

  According to this, when the pair of endless chains 123 circulate, the flight plate 124 moves together with the endless chain 123, and the sludge deposited on the bottom of the settling tank 120 is scraped into the sludge pit (not shown). Further, when the flight plate 124 moves along the water surface track portion 127, the scum floating on the water surface is scraped by the flight plate 124 onto the scum skimmer 131.

  However, in the above-mentioned conventional type, when the water surface of the sedimentation tank 120 is greatly wavy due to an earthquake or the like (hereinafter referred to as sloshing), the endless chain 123 largely shakes in the pond width direction (left and right direction) or up and down. The endless chain 123 may be disengaged from the water surface track portion 127 or the sprocket 122.

  As a measure for preventing chain detachment when such sloshing occurs, as shown in FIGS. 24 and 25, guide members 129 are provided on the left and right side walls 128 of the sedimentation basin 120 in the water surface track portion 127 of the endless chain 123 There is a use of a special endless chain 130 provided with a connecting pin 126 having protruding parts 126a projecting at both ends.

  A first interval S1 is formed between the guide member 129 and the projection 126a of the connecting pin 126 in the pond width direction 132 (left and right direction), and a second interval S2 is formed in the vertical direction. .

  According to this, when sloshing occurs, the projecting portion 126a of the connection pin 126 of the endless chain 130 abuts on the guide member 129 even if the endless chain 130 swings in the pond width direction 132 (left and right direction). Fluctuation of 130 in the pond width direction 132 is regulated. In addition, even if the endless chain 130 swings in the vertical direction, the protrusion 126a of the connection pin 126 of the endless chain 130 abuts on the guide member 129, thereby restricting the vertical chain 130 from moving in the vertical direction.

  As described above, since the fluctuation in the pond width direction 132 (left and right direction) and the vertical direction of the endless chain 130 is restricted, it is possible to prevent the endless chain 130 from being detached from the sprocket 122.

  In addition, the sludge scraping machine which took the measures for chain detachment prevention at the time of the above sloshing generation is described, for example in the following patent document 1.

JP 2013-651

  However, in the above-mentioned conventional type, as shown in FIG. 22 and FIG. 23, the endless chain 123 of the existing sludge scraping machine 121 is a general-purpose chain, and this sludge scraping machine 121 prevents chain detachment when sloshing occurs. In this case, it is necessary to replace a complete universal endless chain 123 with a special endless chain 130 provided with a connecting pin 126 having a projecting portion 126a as shown in FIG. 25, resulting in an increase in cost.

  An object of the present invention is to provide a sludge scraping machine, a derailment guard member, and a method for modifying a sludge scraping machine, which can reduce the cost when taking measures to prevent chain detachment when sloshing occurs.

In order to achieve the above object, according to the first invention, a pair of endless chains are wound between a drive wheel and a driven wheel,
A scraping plate is provided between both endless chains,
It is a sludge scraper that scrapes the sludge in the sedimentation basin with a scraping plate by circulating endless chains,
The endless chain has a plurality of links and a connecting portion for connecting adjacent links,
The scraping plate is attached to a specific link of the endless chain,
A derailment guard member is attached to a specific link at or near a specific link to which a scraping plate is attached;
The derailment guard member projects from the specific link or a nearby link towards the side wall of the sedimentation basin,
A guard rail is fixed to the side wall of the sedimentation basin, which is restricted from upward and sideward movement of the endless chain by the abutment of the wheel removal guard member.

  According to this, when taking measures to prevent chain detachment at the time of sloshing occurrence to the existing sludge scraping machine, the guardrail is fixed to the side wall side of the sedimentation basin, and the above specified link of the endless chain or the adjacent link is derailed guard Since it is sufficient to attach the members, the existing endless sludge scraper endless chain can be used as it is, and there is no need to replace the endless chain set. As a result, it is possible to reduce the cost when taking measures to prevent chain detachment when sloshing occurs to the existing sludge scraper.

  As described above, when sloshing occurs after applying anti-chain detachment prevention measures to the existing sludge scraping machine, the derailment guard member abuts against the guard rail, thereby restricting the upward and lateral fluctuation of the endless chain. Therefore, it is possible to prevent the endless chain from coming off the wheel.

  In the sludge scraper according to the second aspect of the present invention, the wheel removal guard member is detachably attached to a specific link of the endless chain or a link in the vicinity thereof.

  According to this, since the derailment guard member can be attached later to a specific link of the endless chain of the existing sludge scraper or a link in the vicinity thereof, the endless chain of the existing sludge scraper is used as it is There is no need to replace the complete endless chain. As a result, it is possible to reduce the cost when taking measures to prevent chain detachment when sloshing occurs to the existing sludge scraper.

  In the sludge scraper according to the third aspect of the present invention, the wheel removal guard member is inserted and attached to a specific link of the endless chain or a link in the vicinity thereof.

  According to this, it is possible to insert and attach the derailment guard member later to a specific link of the endless chain of the existing sludge scraper or a link in the vicinity thereof.

  In the sludge scraper according to the fourth aspect of the present invention, the wheel removal guard member is fastened by a fastening member to a specific link of the endless chain or a link in the vicinity thereof.

  According to this, the derailment guard member can be later fastened by the fastening member to a specific link of the endless chain of the existing sludge scraper or a link in the vicinity thereof.

In the sludge scraper according to the fifth aspect of the present invention, the derailment guard member has a guard portion that protrudes from the specific link toward the side wall of the sedimentation basin,
The cross section of the guard part is formed in an L shape,
When the guard portion abuts on the guard rail, upward and sideward movement of the endless chain is restricted.

  According to this, when the sloshing occurs, the guard portion of the wheel removal guard member abuts on the guard rail, whereby the upward and sideward fluctuation of the endless chain is restricted. The guard portion has sufficient strength because its cross section is L-shaped, and can be prevented from being damaged when it abuts on the guard rail.

In the sludge scraper according to the sixth aspect of the present invention, the guardrail is fixed to the side wall side of the sedimentation basin rather than the endless chain in the water surface movement area where the endless chain moves along the water surface,
A guide shoe is provided on the raking plate,
In the water surface movement area, the guide rail is fixed to the side wall of the sedimentation basin rather than the guard rail,
The guide shoes slide on the guide rails while being supported on the guide rails as the endless chain moves.

  According to this, as the endless chain circulates, the scraping plate moves along with the endless chain. When the scraping plate moves in the water surface movement area, the guide shoes slide on the guide rails while being supported on the guide rails. As a result, the scraping plate moves in the water surface movement area while being supported and guided by the guide rails via the guide shoes, so that the scum floating on the water surface is reliably scraped by the scraping plate.

In the seventh invention, a pair of endless chains are wound between the drive wheel and the driven wheel,
A scraping plate is provided between both endless chains,
The endless chain has a plurality of links and a connecting portion for connecting adjacent links,
A derailment guard member attached to an endless chain of a sludge scraper that scrapes sludge in a sedimentation basin with a scraping plate by circulating movement of the endless chain,
An attachment portion which can be detachably attached to a specific link on which a scraping plate is attached or a link in the vicinity thereof;
By abutting on a guard rail fixed to the side wall side of the sedimentation basin, it has a guard portion in which the upward and sideward fluctuation of the endless chain is restricted.

  According to this, by attaching the attachment portion to the specific link or a link in the vicinity thereof, the wheel removal guard member can be attached to the specific link or the adjacent link later. Therefore, when taking measures to prevent chain detachment when sloshing occurs to the existing sludge scraping machine, it is possible to use the endless chain of the existing sludge scraping machine as it is, and it is not necessary to replace the endless chain set, Cost can be reduced.

  When sloshing occurs after attaching the derailment guard member to the above specific link or a link in the vicinity thereof, the guard portion of the derailment guard member abuts against the guard rail, thereby causing upward and sideward fluctuation of the endless chain Is regulated.

  The wheel removal guard member in the eighth aspect of the invention is one in which the cross section of the guard portion is formed in an L shape.

  According to this, the guard portion has sufficient strength because the cross section thereof is L-shaped, and can prevent damage when the guard portion abuts on the guard rail.

A ninth aspect of the present invention is a method of remodeling a sludge scraper using the wheel removal guard member according to the seventh aspect or the eighth aspect of the present invention,
Attaching a derailment guard member to a specific link of the endless chain of the existing sludge scraping machine or a link in the vicinity thereof;
And a fixing step of fixing the guard rail on the side wall side of the sedimentation basin.

  According to this, by performing the post-attaching step and the fixing step, the existing sludge scraping machine may be subjected to a countermeasure for preventing chain detachment when sloshing occurs, using the existing endless scrap of the sludge scraping machine as it is. Because it is possible, it is not necessary to replace the complete endless chain, and the cost can be reduced.

  As described above, according to the present invention, it is possible to reduce the cost when taking measures to prevent chain detachment when sloshing occurs to an existing sludge scraper.

It is sectional drawing of the sedimentation basin provided with the sludge scraper in the 1st Embodiment of this invention. It is a plan view of the settling basin. It is an XX arrow line view in FIG. It is the figure which expanded and displayed a part of FIG. It is a partially enlarged plan view of the endless chain of the sludge scraper in the same. Similarly, it is a partially expanded side view of an endless chain of a sludge scraper. Similarly, it is an enlarged front view of the derailment guard member attached to the endless chain of a sludge scraper. Similarly, it is an enlarged plan view of the derailment guard member attached to the endless chain of a sludge scraper. Similarly, it is an enlarged side view of the derailment guard member attached to the endless chain of a sludge scraper. It is a partially expanded sectional view of the sludge scraper in the 2nd Embodiment of this invention. It is a partially enlarged plan view of the endless chain of the sludge scraper in the same. Similarly, it is a partially expanded side view of an endless chain of a sludge scraper. Similarly, it is an enlarged front view of the derailment guard member attached to the endless chain of a sludge scraper. Similarly, it is an enlarged side view of the derailment guard member attached to the endless chain of a sludge scraper. It is sectional drawing of the sludge scraper in the 3rd Embodiment of this invention. It is a partially expanded sectional view of a sludge scraper similarly. Similarly, it is a partially enlarged plan view of a notch type endless chain of a sludge scraper. Similarly, it is a partially expanded side view of a notch type endless chain of a sludge scraper. The same is the enlarged plan view of the derailment guard member attached to the notch type endless chain of a sludge scraper. Similarly, it is an enlarged front view of the derailment guard member attached to the notch type endless chain of a sludge scraper. Similarly, it is an enlarged side view of the derailment guard member attached to the endless chain of a sludge scraper. It is sectional drawing of the sedimentation basin provided with the conventional sludge scraper. It is a partially expanded sectional view of a sludge scraper similarly. It is sectional drawing of the sedimentation basin provided with the conventional sludge scraping machine, Comprising: The chain detachment prevention measures at the time of sloshing generation are taken. Similarly, it is a partially enlarged cross-sectional view of the sludge scraping machine, which has taken measures against chain detachment when sloshing occurs.

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

First Embodiment
In the first embodiment, as shown in FIGS. 1 and 2, 1 is a sludge scraping machine installed in the sedimentation tank 2, and this sludge scraping machine 1 has a chain detachment preventing measure when sloshing occurs. It was done. The sedimentation basin 2 is a rectangular pond surrounded by the upstream wall 5 on the front, the downstream wall 6 on the rear, and the pair of side walls 7 on the left and right. The sedimentation tank 2 receives sewage such as sewage and rainwater from the upstream side, precipitates sludge contained in the sewage on the bottom 8 of the sedimentation tank 2 and discharges it from the downstream side.

  The settling basin 2 is provided with a scum skimmer 10 for removing scum floating on the water surface, and a sludge pit 11 to which the sludge deposited on the bottom portion 8 of the settling basin 2 is transported.

  The sludge scraping machine 1 includes a drive wheel 15 rotationally driven by a motor 14, driven wheels 16-18, an endless chain 19 wound between the wheels 15-18, and a plurality of flight plates 20 (scratched An example of the plate).

  The drive wheel 15 and the driven wheels 16 to 18 are provided on the both side walls 7 of the sedimentation basin 2 in a pair. In addition, endless chains 19 are also provided in pairs. The flight plates 20 are attached between the endless chains 19 at predetermined intervals in the longitudinal direction of the endless chains 19.

  The endless chain 19 includes a water surface movement region 24 moving from upstream to downstream along the water surface, a bottom movement region 25 moving from downstream to upstream along the bottom 8 of the sedimentation basin 2, and a water surface movement region 24. And the downward movement area 26 following the bottom movement area 25 and the upward movement area 27 returning from the bottom movement area 25 to the upstream side of the water surface movement area 24 in a circulating manner.

  As shown in FIGS. 3 to 6, the endless chain 19 has a plurality of links 30 and a connecting portion 31 connecting adjacent links 30. The link 30 has a pair of link plates 32. Moreover, the connection part 31 has the connection pin 33 inserted in the edge part of the link 3 to mutually adjacent | abut. As a result, the adjacent links 30 are rotatably coupled about the coupling pin 33.

  Both ends 20 a of the flight board 20 are attached to a link 30 of a particular (A) of the links 30 of the endless chains 19. That is, the attachment 35 is integrally provided on the link plate 32 of the link 30 of the specific (A), and the end 20 a of the flight plate 20 is detachably attached to the attachment 35 by a plurality of bolts 36 and nuts 37. ing.

  Guide shoes 39 are provided at both ends 20 a of the flight board 20.

  In the water surface movement area 24, a plurality of support frames 38 are provided on both side walls 7 of the sedimentation basin 2 respectively. Guide rails 40 are supported on the support frame 38. The guide rails 40 are provided in a pair on the left and right in the water surface movement area 24 and fixed at a position closer to the side wall 7 than the endless chain 19.

  In the water surface movement area 24, the guide shoes 39 slide on the guide rails 40 while being supported on the guide rails 40 as the endless chain 19 moves.

  A derailment guard member 42 is removably attached to the link 30 of the particular (A) to which the flight plate 20 is attached at its end 20a. As shown in FIGS. 3 to 9, the derailment guard member 42 is provided with an attachment portion 43 that can be detachably attached to the link plate 32 outside the link 30 of the specific (A); A guard portion 44 protruding toward the side wall 7 and a spacer 45 are provided.

  The mounting portion 43 has a pair of inner and outer mounting plates 47 and 48 whose upper end portions are joined to each other. A gap 49 having a predetermined gap is formed between the mounting plates 47 and 48. Further, bolt holes 50 are formed in lower portions of both mounting plates 47 and 48.

  The guard portion 44 has an L-shaped cross section, and is provided on the mounting plate 47 outside the mounting portion 43. The spacer 45 is a cylindrical member.

  As shown by phantom lines in FIGS. 4 and 7, the attachment portion 43 is inserted from above into the link plate 32 outside the link 30 of the specific (A), whereby the outer link plate 32 is attached to both attachment plates 47, It is inserted into the gap 49 between 48. In this state, the spacer 45 is inserted between the lower portions of the mounting plates 47 and 48, the low head bolt 51 is inserted into the bolt holes 50 of the mounting plates 47 and 48 and the spacer 45, and the nut 52 is engaged with the low head bolt 51. It is done.

  As shown in FIGS. 3 to 5, a guard rail 58 is detachably attached to the support frame 38 via an L-shaped mounting bracket 55, a plurality of bolts 56 and a nut 57. The guard rails 58 are provided in a pair on the left and right in the water surface movement area 24 and fixed on the side wall 7 side between the endless chain 19 and the guide rail 40. The guard rail 58 is L-shaped in cross section, and includes an upper guard plate 59 and a side guard plate 60 depending from the outer edge of the upper guard plate 59.

  As shown in FIG. 4, in the water surface movement area 24, the guard portion 44 of the wheel removal guard member 42 is lower than the upper guard plate 59 of the guard rail 58 and inward of the side guard plate 60 of the guard rail 58. Located in A predetermined vertical space 62 is formed between the guard 44 and the upper guard plate 59, and a predetermined horizontal space 63 is formed between the guard 44 and the side guard plate 60. Further, the guard portion 44 and the upper guard plate 59 overlap with each other at a predetermined overlap width 64 in the vertical direction. The overlap width 64 is preferably set to be larger than the left-right interval 63.

  Further, as shown in FIG. 3, the dimension from the outer edge of the upper end of the guide rail 40 to the outer edge of the guide shoe 39 is D, and this dimension D is the lateral direction of the guide shoe 39 with respect to the guide rail Preferably, the lateral spacing 63 is set to be larger than the meandering distance D of the guide shoe 39.

  The abutment of the guard portion 44 with the guard rail 58 restricts the upward and downward movement of the endless chain 19.

  Hereinafter, the operation in the above configuration will be described.

  As shown in FIG. 1, by driving the motor 14, the drive wheel 15 is rotationally driven, and both endless chains 19 synchronously circulate at a low speed, and the flight plates 20 move together with the endless chain 19. At this time, the sludge deposited on the bottom of the settling tank 2 is scraped into the sludge pit 11 by the flight plate 20 moving in the bottom moving area 25. Further, the scum floating on the water surface is scraped onto the scum skimmer 10 by the flight plate 20 moving in the water surface movement area 24.

  Further, when sloshing occurs, the guard portion 44 of the wheel removal guard member 42 abuts on the upper guard plate 59 of the guard rail 58 from below, thereby restricting the upward movement of the endless chain 19. In addition, when the tip end of the guard portion 44 abuts on the side guard plate 60 of the guard rail 58, the fluctuation of the endless chain 19 in the side direction 66 (left and right direction) is restricted. This makes it possible to prevent the endless chain 19 from coming off the normal trajectory in the water surface movement area 24 and the wheels 15 to 18.

  In addition, if the overlap width 64 is set larger than the left and right interval 63, for example, as shown by the phantom line in FIG. Even when abutting on the side guard plate 60, the guard portion 44 of the other derailment guard member 42 on the opposite side and the upper guard plate 59 of the other guard rail 58 are kept overlapped in the vertical direction Therefore, the upward movement of the endless chain 19 is surely restricted.

  Further, the guard portion 44 has a sufficient strength because the cross section thereof is L-shaped, and can prevent damage when contacting the guard rail 58.

  Further, when the flight plate 20 moves in the water surface movement area 24, as shown in FIG. 3, the guide shoe 39 slides on the guide rail 40 while being supported on the guide rail 40. As a result, the flight plate 20 moves on the water surface movement area 24 while being supported and guided by the guide rails 40 via the guide shoes 39, so that the scum floating on the water surface is reliably scraped by the flight plate 20.

  In addition, if the left and right interval 63 is set larger than the meandering distance D of the guide shoe 39, the guard portion 44 of the wheel removal guard member 42 is on the side of the guard rail 58 in a normal operation state where sloshing does not occur. It does not abut on the side guard plate 60, and is always separated from the side guard plate 60. Thereby, the function as the sludge scraper 1 is not disturbed.

  The sludge scraping machine 1 as described above is subjected to the chain detachment prevention measures at the time of sloshing generation, but the sludge scraping machine without the chain detachment prevention measures at the time of sloshing generation is a derailment guard member 42 and the guard rail 58 are not attached. The remodeling method in the case of remodeling the existing sludge scraper which is not provided with such a chain detachment prevention measure and taking a chain detachment prevention measure is demonstrated below.

  The remodeling method includes a post-attaching step of attaching the derailment guard member 42 to the link 30 (ie, the link 30 provided with the attachment 35) of the specified (A) of the endless chain 19 of the existing sludge scraper; And a fixing step of fixing the guard rail 58 on the side wall 7 side of

  First, the above-mentioned retrofitting process will be described below.

  The bolts 36 and nuts 37 of the existing sludge scraper are removed, the flight plates 20 are removed from both endless chains 19, and both endless chains 19 are removed from the respective wheels 15-18. Thereafter, as shown in FIG. 7, the outer link plate 32 is attached by inserting the attachment portion 43 of the derailment guard member 42 from the upper side into the link plate 32 outside the link 30 of the specific (A) of the endless chain 19 Insert into the gap 49 between the mounting plates 47 and 48 of the part 43.

  In this state, the spacer 45 is inserted between the lower portions of the mounting plates 47 and 48, the low head bolt 51 is inserted into the bolt holes 50 of the mounting plates 47 and 48 and the spacer 45, and the nut 52 is screwed into the low head bolt 51. Then, as shown in FIG. 4, the derailment guard member 42 is attached to the link 30 of the specific (A).

Next, the fixing step will be described below.
As shown in FIG. 5, the mounting bracket 55 is attached to the guard rail 58 using the bolt 56 and the nut 57, and the mounting bracket 55 is attached to the support frame 38, so that the guard rail 58 is on the side wall 7 side of the sedimentation basin 2. It is fixed to

  After performing the above-mentioned post-attaching step and fixing step, endless chain 19 is wound around each wheel 15 to 18, and as shown in FIG. It attaches to the attachment 35 of the link 30 of 19 specific (A).

  In the post-attachment step and the fixing step, either one step may be performed first, and then the other step may be performed, or both steps may be performed simultaneously. Further, the derailment guard member 42 may be attached to the link 30 of the identification (A) of the endless chain 19 in a state in which the endless chain 19 is wound around the wheels 15 to 18 in the post-attaching step.

  When remodeling the existing sludge scraping machine which is not subjected to the chain detachment prevention measure as described above and taking the chain detachment prevention measure, the above-mentioned post-attachment process and fixing process may be performed. The endless chain 19 of the machine can be used as it is, and there is no need to replace the complete endless chain 19. As a result, it is possible to reduce the cost when taking measures to prevent chain detachment when sloshing occurs to the existing sludge scraper.

Second Embodiment
In the second embodiment, as shown in FIG. 10 to FIG. 12, the wheel removal guard member 42 has a plurality of bolts 71 (fastened to the link plate 32 outside the link 30 of the specific (A) of the endless chain 19). An example of the member) and a nut 72 (an example of a fastening member) are detachably fastened.

  That is, as shown in FIG. 13 and FIG. 14, the attachment portion 43 of the wheel removal guard member 42 is a plate-like member, and a plurality of upper and lower bolt holes 73 are formed in the attachment portion 43. Further, the guard portion 44 is provided at the attachment portion 43.

  A plurality of upper and lower attachment holes 75 are formed in the link plate 32 and the attachment 35 outside the link 30 of the specific (A). Each bolt 71 is inserted into the bolt hole 73 and the mounting hole 75, and the nut 72 is screwed to the bolt 71 and tightened, whereby the mounting portion 43 is attached to the link 30 of the specific (A).

  Hereinafter, the operation in the above configuration will be described.

  In the second embodiment, the same operation and effect as the first embodiment described above can be obtained. In addition, the post-addition process in the second embodiment will be described below.

  The bolts 36 and nuts 37 of the existing sludge scraper are removed, the flight plates 20 are removed from both endless chains 19, and both endless chains 19 are removed from the respective wheels 15-18.

  Next, drilling processing is performed to form mounting holes 75 in the link plate 32 and the attachment 35 outside the link 30 of the specific (A) of the endless chain 19 as shown in FIG.

  After that, attach the mounting portion 43 of the derailment guard member 42 to the link plate 32 outside the link 30 of the specific (A) of the endless chain 19, insert the bolt 71 into the bolt hole 73 and the mounting hole 75, and By screwing and fastening the bolt 72 to the bolt 71, as shown in FIGS. 10 and 12, the derailment guard member 42 is fastened to the link 30 of the specific (A).

Third Embodiment
In the third embodiment, a notch type chain is used as the endless chain 19, as shown in FIGS. Each link 30 of both endless chains 19 has a pair of left and right mounting pieces 79. Each mounting piece 79 is formed with a plurality of mounting holes 80 for mounting the two end portions 20 a of the flight plate 20.

  The flight plate 20 is detachably attached at its end 20 a to a link 30 of a specific (A) of the links 30 of the endless chain 19 by a plurality of countersunk bolts 81 and nuts 91. The countersunk bolt 81 is inserted through the end 20a of the flight plate 20 and the mounting hole 80 of the link 30 of the specific (A), and a nut 91 is screwed to the countersink 81 and tightened.

  A derailing guard member 82 is detachably attached to the link 30 (an example of a nearby link, hereinafter referred to as the adjacent link 30) adjacent to one of the front and rear of the link 30 of the specific (A) There is. The wheel removal guard member 82 is provided with a mounting portion 83 that can be detachably attached to the adjacent link 30 by a plurality of bolts 85 (an example of a fastening member) and a nut 92 (an example of a fastening member) And a guard portion 84 projecting toward the side wall 7.

  The bolt 85 is inserted through the hole 86 formed in the mounting portion 83 and the mounting hole 80 of the adjacent link 30, and the nut 92 is screwed to the bolt 85 and tightened.

  The guard portion 84 is an L-shaped member, and includes a horizontal plate portion 84 a and a vertical plate portion 84 b standing from the outer edge of the horizontal plate portion 84 a.

As shown in FIGS. 15 to 17, a guard rail 90 is detachably attached to the support frame 38 via a mounting frame 87 and a plurality of bolts 88 and nuts 89. The guard rails 90 are provided in a pair on the left and right in the water surface movement area 24 and fixed to the side wall 7 above the endless chain 19.
Further, the cross section of the guard rail 90 is formed in an L shape, and the lower end portion is bent outward in the left and right direction.
As shown in FIG. 16, a predetermined vertical interval 62 is formed between the horizontal plate portion 84 a of the guard portion 84 and the lower end portion of the guard rail 90, and the vertical plate portion 84 b of the guard portion 84 and the lower end portion of the guard rail 90 A predetermined left and right space 63 is formed between the two.

  The guard portion 84 abuts on the guard rail 90 to restrict the upward and lateral movement of the endless chain 19.

  Hereinafter, the operation in the above configuration will be described.

  When sloshing occurs, the horizontal plate portion 84a of the guard portion 84 of the wheel removal guard member 82 abuts on the lower end portion of the guard rail 90 from below, thereby restricting the upward movement of the endless chain 19. Further, when the vertical plate portion 84b of the guard portion 84 abuts on the lower end portion of the guard rail 90, the fluctuation of the endless chain 19 in the lateral direction 66 (horizontal direction) is restricted. This makes it possible to prevent the endless chain 19 from coming off the normal trajectory in the water surface movement area 24 and the wheels 15 to 18.

  Also, for example, as shown by the phantom line in FIG. 15, even when the vertical plate portion 84b of the guard portion 84 of either the left or right rear wheel guard member 82 abuts against the lower end portion of one guard rail 90, the opposite side Because the horizontal plate portion 84a of the guard portion 84 of the other wheel removal guard member 82 and the lower end portion of the other guard rail 90 are kept overlapped in the vertical direction, the upward movement 65 of the endless chain 19 is Certainly regulated.

  Further, in the meandering range of the guide shoe 39 in the normal operation state where no sloshing occurs, the positional relationship and shape between the derailment guard member 82 and the guard rail 58 so that the derailment guard member 82 does not abut the guard rail 58. Is set in the same manner as the first embodiment.

  The sludge scraping machine 1 as described above is subjected to the chain detachment prevention measures at the time of sloshing generation, but the sludge scraping machine without the chain detachment prevention measures at the time of sloshing generation is a derailment guard member 82 and guardrail 90 are not attached. The remodeling method in the case of remodeling the existing sludge scraper which is not provided with such a chain detachment prevention measure and taking a chain detachment prevention measure is demonstrated below.

  The above modification method includes a post-attaching step of attaching the derailment guard member 82 to the adjacent link 30 of the endless chain 19 of the existing sludge scraper and a fixing step of fixing the guard rail 90 on the side wall 7 side of the sedimentation basin 2 Have.

  First, the above-mentioned retrofitting process will be described below.

  As shown in FIGS. 19 to 21, the mounting portion 83 of the derailment guard member 82 is abutted against the mounting piece 79 of the adjacent link 30 of the endless chain 19, and the bolt 85 is used as the hole 86 of the mounting portion 83 and the adjacent link 30. The derailment guard member 82 is fastened to the adjacent link 30 as shown in FIGS. 15 to 18 by inserting the bolt 92 into the mounting hole 80 and screwing and tightening the nut 92 with the bolt 85.

  Next, the fixing step will be described below.

  As shown in FIGS. 15 and 16, the mounting frame 87 is attached to the guard rail 90 using bolts 88 and nuts 89, and the mounting frame 87 is attached to the support frame 38 so that the guard rail 90 is in the sedimentation basin 2. It is fixed to the side wall 7 side.

  In the first and second embodiments, as shown in FIGS. 6 and 12, the derailment guard member 42 is attached to the link 30 of the specific (A) of the endless chain 19 to which the flight plate 20 is attached. However, as in the third embodiment, the derailment guard member 42 may be attached to the link 30 adjacent to either one of the front and rear of the link 30 of the specific (A). In this case, it is not necessary to remove the flight plate 20 from the endless chain 19 in the retrofitting process of the modification method.

  In the first to third embodiments, the derailment guard members 42 and 82 may be attached to the link 30 in the vicinity of the link 30 of the specific (A) of the endless chain 19 to which the flight plate 20 is attached. In the specific (A) pair of links 30 to which the flight plate 20 is attached, the distance between the pair of links 30 is fixed by the flight plate 20, so that the detachment prevention effect of the endless chain 19 is maximized. As the link 30 to which the wheel removal guard members 42 and 82 are attached moves away from the link 30 of the specific (A), the movable range of the link 30 in the width direction (left and right direction) of the sedimentation basin 2 becomes larger. Since the prevention effect is reduced, the range from the link 30 of the specific (A) to the three links 30 in front and behind is preferable as the link 30 in the vicinity.

  In each of the above embodiments, as shown in FIG. 1, the guard rail 58 is provided in the water surface movement area 24, but may be provided in the bottom movement area 25 or the downward movement area 26.

  Further, in each of the above embodiments, the guard rail 58 linearly extends in the front and rear direction, but in the vicinity of the drive wheel 15 or the driven wheel 16, the end of the guard rail 58 follows the track of the endless chain 19. It may be inclined up and down, or may be deformed in an arc or the like along the outer circumference of each wheel 15, 16.

DESCRIPTION OF SYMBOLS 1 Sludge scraping machine 2 Settling basin 7 Side wall 15 Drive wheel 16, 17, 18 Driven wheel 19 Endless chain 20 Flight board (scratch board)
24 water surface movement area 30 link 31 connection part 39 guide shoe 40 guide rail 42 derailment guard member 43 attachment part 44 guard part 58 guard rail 71 bolt (fastening member)
72 nut (fastening member)
82 Derailment guard member 84 Guard 85 bolt (fastening member)
92 Nut (fastening member)

Claims (9)

A pair of endless chains are wound between the drive and driven wheels,
A scraping plate is provided between both endless chains,
It is a sludge scraper that scrapes the sludge in the sedimentation basin with a scraping plate by circulating endless chains,
The endless chain has a plurality of links and a connecting portion for connecting adjacent links,
The scraping plate is attached to a specific link of the endless chain,
A derailment guard member is attached to a specific link at or near a specific link to which a scraping plate is attached;
The derailment guard member projects from the specific link or a nearby link towards the side wall of the sedimentation basin,
A sludge scraping machine characterized in that a guard rail whose upward and lateral fluctuation of an endless chain is restricted by abutment of a derailment guard member is fixed to a side wall of a sedimentation tank. The sludge scraping machine according to claim 1, wherein the wheel removal guard member is detachably attached to a specific link of the endless chain or a link in the vicinity thereof. The sludge scraping machine according to claim 2, wherein the derailment guard member is inserted and attached to a specific link of the endless chain or a link in the vicinity thereof. The sludge scraping machine according to claim 2, wherein the wheel removal guard member is fastened to a specific link of the endless chain or a link in the vicinity thereof by a fastening member. The derailment guard member has a guard portion projecting from the specific link toward the side wall of the sedimentation basin,
The cross section of the guard part is formed in an L shape,
The sludge scraping machine according to any one of claims 1 to 4, wherein the upward and sideward movement of the endless chain is restricted by the abutment of the guard portion with the guard rail. The guardrail is fixed to the side wall of the sedimentation basin rather than the endless chain in the water surface movement area where the endless chain moves along the water surface,
A guide shoe is provided on the raking plate,
In the water surface movement area, the guide rail is fixed to the side wall of the sedimentation basin rather than the guard rail,
The sludge scraping machine according to any one of claims 1 to 5, wherein the guide shoe slides on the guide rail while being supported on the guide rail as the endless chain moves. . A pair of endless chains are wound between the drive and driven wheels,
A scraping plate is provided between both endless chains,
The endless chain has a plurality of links and a connecting portion for connecting adjacent links,
A derailment guard member attached to an endless chain of a sludge scraper that scrapes sludge in a sedimentation basin with a scraping plate by circulating movement of the endless chain,
An attachment portion which can be detachably attached to a specific link on which a scraping plate is attached or a link in the vicinity thereof;
What is claimed is: 1. A derailment guard member comprising: a guard portion which is restrained from moving upward and laterally of an endless chain by abutting against a guard rail fixed to a side wall of the sedimentation basin. The wheel removing guard member according to claim 7, wherein a cross section of the guard portion is formed in an L shape. A method of remodeling a sludge scraper using the wheel removal guard member according to claim 7 or claim 8, wherein
Attaching a derailment guard member to a specific link of the endless chain of the existing sludge scraping machine or a link in the vicinity thereof;
And a fixing step of fixing a guard rail on the side wall side of the sedimentation basin.

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