CN114892467B - Sponge green road circulation system for ecological gardens and construction method thereof - Google Patents

Abstract

The application relates to the technical field of ecological gardens, in particular to a sponge green road circulation system for ecological gardens and a construction method thereof, wherein the sponge green road circulation system comprises a drainage channel arranged at a road structure and a drainage well cover arranged on the drainage channel, a cleaning device is arranged in the road structure and comprises a scraping plate for cleaning sundries on the drainage well cover and a pushing mechanism for pushing the scraping plate to move along the drainage well cover. This application has the effect that can improve the drainage efficiency of drainage well lid.

Description

Sponge green road circulation system for ecological gardens and construction method thereof

Technical Field

The invention relates to the technical field of ecological gardens, in particular to a sponge green road circulation system for ecological gardens and a construction method thereof.

Background

At present, ecological gardens are experiences of inheriting and developing traditional gardens, and follow ecological principles to construct multi-level, multi-structure, multifunctional and scientific plant communities, wherein a sponge green road circulation system is an essential ring in ecological gardens and is mainly used for collecting and recycling rainwater on road structures in ecological gardens.

The existing sponge green road circulation system generally comprises a drainage channel and a drainage well cover arranged on the drainage channel, after rainwater is arranged on a road structure, the rainwater can move along the road structure and towards the drainage well cover, and enters the drainage channel through a drainage hole on the drainage well cover, and finally is discharged from the drainage channel for subsequent recycling.

In view of the above-mentioned related art, the inventors believe that there is a defect that the drainage efficiency of the drainage manhole cover is low because debris on the road structure including fallen leaves, crushed stones, and the like flows to the drainage manhole cover along with rainwater and is accumulated on the drainage manhole cover.

Disclosure of Invention

In order to improve drainage efficiency of a drainage well cover, the application provides a sponge green road circulation system for ecological gardens and a construction method of the sponge green road circulation system.

In a first aspect, the application provides a sponge green road circulation system for ecological garden, adopts following technical scheme:

the utility model provides a sponge green road circulation system for ecological garden, is including setting up in the drainage channel of road structure department and setting up the drainage well lid on the drainage channel, be provided with cleaning device in the road structure, cleaning device is including being used for carrying out the scraper blade of clearance and being used for promoting the scraper blade along the drainage well lid the promotion mechanism that moves to debris on the drainage well lid.

Through adopting above-mentioned technical scheme, be provided with cleaning device in the road structure, after piling up debris on the drainage well lid, start pushing mechanism, drive the scraper blade and promote the collection with debris on the drainage well lid, and then can improve drainage well lid's drainage efficiency.

Optionally, the pushing mechanism includes the drive assembly who is used for promoting the scraper blade and carries out the motion along the drain cover and is used for driving the drive assembly of drive assembly motion, the drive assembly is including setting up the sliding plate on the scraper blade, butt sliding lever and the catch bar on the drive assembly, the both ends of catch bar respectively with sliding plate and sliding lever normal running fit.

Through adopting above-mentioned technical scheme, start drive assembly, can promote the carriage release lever, and then drive the carriage release lever and rotate simultaneously and slide, promote the sliding plate, drive the scraper blade motion, realize the clearance to debris on the drainage well lid.

Optionally, the drive assembly includes the cam that is used for promoting the slide bar, sets up dwang and the driving piece that is used for driving dwang pivoted in the cam, be provided with the return mechanism that promotes the slide bar butt on the cam in the road structure.

Through adopting above-mentioned technical scheme, start the driving piece, can drive the dwang and rotate, drive the cam and rotate, and then promote the slide bar, simultaneously through canceling release mechanical system's setting, make canceling release mechanical system can promote the slide bar, when making the cam no longer promote the slide bar, canceling release mechanical system can promote the slide bar butt on the cam, and then realizes the reciprocating motion of slide bar.

Optionally, the return mechanism includes the mounting panel that sets up in the road structure and is used for promoting the elastic component of slide bar butt on the cam.

Through adopting above-mentioned technical scheme, the cam promotes the slide bar and then drives the scraper blade during operation, can extrude the elastic component, and the cam no longer promotes the back to the slide bar, and the elastic component releases elasticity restoring force, drives the slide bar and resets, and then drives the slide bar and carry out reciprocating motion, realizes the reciprocating motion of scraper blade.

Optionally, a storage channel for collecting sundries is formed in the road structure.

Through adopting above-mentioned technical scheme, through the setting of storage channel, can conveniently store the debris that the scraper blade was collected.

Optionally, be provided with the shutoff mechanism of control storage channel and drainage channel break-make in the road structure, the shutoff mechanism is including the shutoff board of normal running fit on the road structure and be used for promoting the torsional spring that the shutoff board reset, the one end butt of torsional spring is on the road structure, and the other end butt is on the side of shutoff board back from the drain hole lid.

Through adopting above-mentioned technical scheme, be provided with shutoff mechanism in the road structure, when the scraper blade is collected debris, can promote the shutoff board, after compressing the torsional spring, promote debris to the storage channel in, when need not collect debris, the shutoff board separates storage channel and drainage channel, can reduce the rainwater and get into in the storage channel, causes the spoil phenomenon of debris in the storage channel.

Optionally, the spout has been seted up in the road structure, be provided with the shielding plate in the spout, set up the hole of permeating water corresponding with the drainage hole on the drainage well lid on the shielding plate, the hole of permeating water is with the drainage well lid behind the high direction dislocation setting of drainage hole along the road structure, and the shielding plate is used for shielding the drainage hole on the drainage well lid.

Through adopting above-mentioned technical scheme, through the setting of shielding plate, when the drain cover does not need the drainage, with the shielding plate pulling, make the hole of permeating water and the drainage hole that the drainage well covers dislocation along the direction of height on the road structure, cover the drainage hole that the drainage well covers, can reduce debris in the drainage channel and the stink that ponding produced from the drainage channel in the phenomenon of discharge, when the drain cover needs the drainage, the pulling shielding plate makes the hole of permeating water and the drainage hole that the drainage well covers set up relatively in vertical direction, supplies the rainwater to pass through.

Optionally, the shielding plate comprises a plurality of connecting plates which are in rotary fit with each other from beginning to end, and the connecting plates are connected with the sliding plates.

Through adopting above-mentioned technical scheme, through the setting of a plurality of connecting plates, make the sliding plate can drive the connecting plate motion, realize coincidence and dislocation set between the hole that permeates water on the connecting plate and the filtration pore, the simple operation.

Optionally, an elastic piece for pulling the connecting plate to move towards the position close to the plugging plate is arranged on the connecting plate close to the plugging plate.

Through adopting above-mentioned technical scheme, through the setting of elastic component, make the sliding plate drive the connecting plate motion after to stretch the elastic component, after the sliding plate resets, the elastic component can be better drive the connecting plate and reset.

In a second aspect, a construction method of a sponge green road circulation system for ecological gardens, which uses the sponge green road circulation system for ecological gardens, includes the following steps:

s1: firstly, respectively excavating a storage channel and a drainage channel in a road structure, and communicating the storage channel with the drainage channel;

s2: a plugging mechanism is arranged at the connection position of the storage channel and the drainage channel;

s3: installing a drain well cover in a drain channel, excavating an installation groove in a road structure, and installing a cleaning device in the installation groove;

s4: digging a chute in a road structure, installing a shielding plate in the chute, and shielding a drainage hole on a drainage well cover by the shielding plate;

s5: and installing a filter plate at the top end of the drainage channel to seal the drainage channel.

Through adopting above-mentioned technical scheme, install shutoff mechanism in the storage channel earlier, install clearance mechanism and shielding plate afterwards, after piling up debris on the drainage well cover, promote the collection with debris on the drainage well cover through clearance mechanism, and then can improve drainage well lid's drainage efficiency.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the cleaning device in the road structure, after sundries are accumulated on the drainage well cover, the pushing mechanism is started to drive the scraping plate to push and collect the sundries on the drainage well cover, so that the drainage efficiency of the drainage well cover can be improved;

2. through being provided with shutoff mechanism in the road structure, when the scraper blade is collected debris, can promote the shutoff board, after compressing torsion spring, promote debris to the storage channel in, when need not collecting debris, the shutoff board separates storage channel and drainage channel, can reduce in the rainwater gets into storage channel, causes the spoil phenomenon of debris in the storage channel.

Drawings

FIG. 1 is a partial cross-sectional view of the present application;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a partial enlarged view at B in FIG. 1;

FIG. 4 is a partial cross-sectional view showing the positional relationship of the drain cover and the cleaning device;

fig. 5 is a partial enlarged view at C in fig. 4.

Reference numerals illustrate: 1. a road structure; 2. a drainage channel; 3. a drain well lid; 4. a cleaning device; 5. a scraper; 51. an arc surface; 6. a pushing mechanism; 61. a pushing assembly; 611. a sliding plate; 612. a slide bar; 613. a push rod; 62. a drive assembly; 621. a cam; 622. a rotating lever; 623. a driving member; 624. a worm; 625. a worm wheel; 7. a reset mechanism; 71. a mounting plate; 72. an elastic member; 8. a storage channel; 9. a plugging mechanism; 91. a plugging plate; 92. a torsion spring; 10. a shielding plate; 101. a water permeable hole; 102. a connecting plate; 103. a rotating shaft; 104. a connecting sheet; 11. a chute; 12. an elastic member; 13. a mounting groove; 14. a filter plate; 141. a filter hole; 15. and rotating the plate.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses a sponge green road circulation system for ecological gardens and a construction method thereof. Referring to fig. 1 and 2, including setting up in the drainage channel 2 of road structure 1 department and setting up the drainage well lid 3 on drainage channel 2, drainage well lid 3 is rectangular structure, and the length direction of drainage well lid 3 is the width direction of road structure 1, and drainage channel 2 is provided with two along the width direction interval of road structure 1, and the bottom intercommunication of two drainage channels 2, and all communicates with drainage system. After the rainwater is arranged on the road structure 1, the rainwater flows out into the drainage channel 2, reaches the drainage well cover 3, and sundries filtered by the drainage well cover 3 are intercepted on the drainage well cover 3, so that the rainwater reaches the bottom of the drainage channel 2 and is discharged.

Referring to fig. 1 and 3, the filter plate 14 is installed at the top of the drainage channel 2, the filter holes 141 are uniformly formed in the filter plate 14, the diameter of each filter hole 141 is larger than that of each filter hole in the drainage well cover 3, after rainwater passes through the filter plate 14, larger sundries are intercepted on the filter plate 14, cleaning staff can conveniently clean the rainwater, and smaller sundries are intercepted on the drainage well cover 3.

Referring to fig. 1 and 2, a cleaning device 4 is provided in the road structure 1 for cleaning sundries on the drain cover 3. The cleaning device 4 comprises a scraping plate 5 for cleaning sundries on the drain well cover 3 and a pushing mechanism 6 for pushing the scraping plate 5 to move along the drain well cover 3, the bottom surface of the scraping plate 5 is abutted to the upper surface of the drain well cover 3, the side surface of the scraping plate 5 in the length direction is in sliding fit in the road structure 1, and one side surface of the two scraping plates 5, which are far away from each other, is set to be an arc-shaped surface 51.

Referring to fig. 1 and 2, the pushing mechanism 6 includes a pushing component 61 for pushing the scraper 5 to move along the drain well lid 3 and a driving component 62 for driving the pushing component 61 to move, and referring to fig. 4, a mounting groove 13 is formed in the road structure 1, the driving component 62 includes a cam 621, a rotating rod 622 fixedly disposed in the cam 621, and a driving element 623 for driving the rotating rod 622 to rotate, the driving element 623 is fixedly mounted in the mounting groove 13, the driving element 623 can directly adopt a motor, an output shaft of the driving element 623 is coaxially fixed with a worm 624, a worm wheel 625 is meshed on the worm 624, the rotating rod 622 is fixedly disposed in the worm wheel 625 in a penetrating manner, and a plate for rotatably supporting the rotating rod 622 is fixedly mounted in the mounting groove 13. The driving member 623 is activated to sequentially rotate the worm 624, the worm wheel 625, the rotation lever 622, and the cam 621.

Referring to fig. 1 and 2, the pushing assembly 61 includes a sliding plate 611 fixedly disposed on the scraper 5, a sliding rod 612 abutting on the cam 621, and a pushing rod 613, and referring to fig. 4, the sliding rod 612 is slidably fitted in the road structure 1 along the height direction of the road structure 1, the sliding plate 611 is a "convex" plate, the long side of the sliding plate 611 is slidably fitted in the road structure 1, and both ends of the pushing rod 613 are respectively hinged with the sliding plate 611 and the sliding rod 612. When the cam 621 rotates, the sliding rod 612 can be pushed to descend along the height direction of the road structure 1, one end of the pushing rod 613 is driven to descend, the other end of the pushing rod 613 slides in a direction away from the sliding rod 612, the sliding plate 611 and the scraping plate 5 are driven to slide, and sundries on the drain well lid 3 are collected.

Referring to fig. 1 and 2, a return mechanism 7 for pushing the slide rod 612 to abut against the cam 621 is provided in the road structure 1, and the return mechanism 7 is used for pushing the bottom end of the slide rod 612 to rise. The reset mechanism 7 comprises a mounting plate 71 with a fixed rod arranged in the road structure 1 and an elastic piece 72 for pushing the sliding rod 612 to be abutted against the cam 621, wherein the elastic piece 72 can directly adopt a spring, one end of the elastic piece 72 is fixedly arranged on the mounting plate 71, and the other end is fixedly arranged at the bottom end of the sliding rod 612. When the sliding rod 612 descends, the elastic piece 72 is extruded, and when the cam 621 does not extrude the sliding rod 612 any more, the elastic piece 72 releases the elastic restoring force to drive the sliding rod 612 to ascend and reset, and the pushing rod 613 drives the scraping plate to reset.

Referring to fig. 1 and 2, in order to reduce the phenomenon that accumulated water is stored at the bottom of a drainage channel 2 and decayed in high-temperature weather when rainwater is not required to be discharged, a chute 11 is formed in a road structure 1, a shielding plate 10 is arranged in the chute 11, the shielding plate 10 comprises a plurality of connecting plates 102 which are sequentially matched in a head-to-tail mode, two ends of each connecting plate 102 are respectively provided with a rotating shaft 103 in a rotating mode, connecting plates 104 are respectively matched with the two adjacent rotating shafts 103 in a rotating mode, and the connecting plates 102 are fixedly connected with a sliding plate 611.

Referring to fig. 4 and 5, the connection plate 102 of the shielding plate 10 is provided with water penetration holes 101 having the same diameter as the water penetration holes on the drain cover 3. The elastic piece 12 used for pulling the connecting plate 102 to move towards the position close to the plugging plate 91 is fixedly arranged on the connecting plate 102 close to the plugging plate 91, the elastic piece 12 can directly adopt a spring, when rainwater does not need to be collected, the elastic piece 12 pulls the connecting plate 102, the water permeable holes 101 and the water filtering holes on the water drainage well cover 3 are arranged in a staggered mode along the height direction of the road structure 1, and the water filtering holes on the water drainage well cover 3 are shielded by the shielding plate 10 (the state is shown in fig. 4). When rainwater is required to be collected, the pushing mechanism 6 is started to drive the sliding plate 611 to slide, the connecting plate 102 is pulled to stretch the elastic piece 12, and after the connecting plate 102 slides for a certain distance, the water permeable hole 101 is communicated with the water filtering hole on the drain well cover 3 to allow the rainwater to pass through.

Referring to fig. 1 and 2, in order to store the sundries, a storage channel 8 for collecting the sundries is provided in the road structure 1, a rotating plate 15 is hinged to the top of the storage channel 8, a rectangular plate for supporting the lower surface of the rotating plate 15 is fixedly provided at the top of the storage channel 8, the sundries are pushed by the scraping plate 5 and fall into the storage channel 8, and after a certain sundries are accumulated in the storage channel 8, the rotating plate 15 is rotated away, and then the sundries in the storage channel 8 are cleaned.

Referring to fig. 1 and 3, in order to reduce the phenomenon that rainwater gets into in the storage channel 8, be provided with the shutoff mechanism 9 of control storage channel 8 and drainage channel 2 break-make in road structure 1, shutoff mechanism 9 includes the shutoff board 91 of normal running fit on road structure 1 and is used for promoting the torsional spring 92 that shutoff board 91 reset, the shutoff board 91 sets up along the direction of height of road structure 1, the bottom normal running fit of shutoff board 91 has the pivot of fixed mounting in road structure 1, the torsional spring 92 cover is located in the pivot, one end of torsional spring 92 is installed in road structure 1, the other end butt is on the side that shutoff board 91 deviates from drainage well lid 3, after the debris is moved to shutoff board 91 department to scraper blade 5 promotion debris, extrude shutoff board 91, make the top of shutoff board 91 rotate in the direction that keeps away from drainage well lid 3, compress torsional spring 92, debris gets into in the storage channel 8, after the scraper blade 5 no longer promotes the shutoff board 91, torsional spring 92 releases elasticity restoring force, drive shutoff board 91 rotates and resets.

The implementation principle of the sponge green road circulation system for ecological gardens is as follows: after having the rainwater on the road structure 1, the rainwater filters through filter 14, drainage well lid 3, and the rainwater after filtering gets into drainage channel 2 bottom, and debris is intercepted on drainage well lid 3, when needs clear up debris on the drainage well lid 3, starts pushing mechanism 6, drives scraper blade 5 motion, and scraper blade 5 promotes shutoff board 91 to promote debris in the storage channel 8, after storing certain debris in the storage channel 8, turns away the rotor plate 15, clears up debris in the storage channel 8.

Referring to fig. 1 and 2, the application also provides a construction method of the sponge green road circulation system for ecological gardens, and the construction method adopts the system as shown in the figure, and specifically comprises the following steps:

s1: firstly, respectively excavating a storage channel 8 and a drainage channel 2 in a road structure 1, and communicating the storage channel 8 with the drainage channel 2;

s2: a plugging mechanism 9 is arranged at the connection position of the storage channel 8 and the drainage channel 2;

s3: installing the drain cover 3 into the drain channel 2, simultaneously excavating an installation groove 13 in the road structure 1, and installing the cleaning device 4 into the installation groove 13;

s4: a chute 11 is excavated in the road structure 1, a shielding plate 10 is installed in the chute 11, and the shielding plate 10 shields a drainage hole on the drainage well cover 3;

s5: a filter plate 14 is attached to the top end of the drain passage 2 to close the drain passage 2.

When the sponge green road circulation system is required to be constructed, the storage channel 8 and the drainage channel 2 are firstly excavated at the road structure 1, and then the plugging mechanism 9, the cleaning device 4, the shielding plate 10, the drainage well cover 3 and the filter plate 14 are installed, so that rainwater is collected after construction is completed.

The specific implementation principle of the method is described in detail in the foregoing embodiments, so details are not repeated here.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (1)

1. A construction method of a sponge green road circulation system for ecological gardens is characterized by comprising the following steps: the method utilizes a sponge green road circulation system for ecological gardens, and comprises the following steps:

s1: firstly, respectively excavating a storage channel (8) and a drainage channel (2) in a road structure (1), and communicating the storage channel (8) with the drainage channel (2);

s2: a blocking mechanism (9) is arranged at the connection position of the storage channel (8) and the drainage channel (2);

s3: installing the drain well cover (3) into the drain channel (2), simultaneously excavating an installation groove (13) in the road structure (1), and installing the cleaning device (4) into the installation groove (13);

s4: digging a chute (11) in a road structure (1), installing a shielding plate (10) in the chute (11), and shielding a drainage hole on a drain well cover (3) by the shielding plate (10);

s5: a filter plate (14) is arranged at the top end of the drainage channel (2) to seal the drainage channel (2);

wherein, filter holes (141) are uniformly formed on the filter plate (14), the diameter of the filter holes (141) is larger than that of the water filtering holes on the drain well cover (3), and after rainwater passes through the filter plate (14), sundries are intercepted on the filter plate (14) and the drain well cover (3);

wherein, ecological garden is with sponge green road circulation system including setting up in drainage channel (2) of road structure (1) department and setting up drain well lid (3) on drainage channel (2), its characterized in that: the cleaning device is arranged in the road structure (1), the cleaning device (4) comprises a scraping plate (5) for cleaning sundries on the drainage well cover (3) and a pushing mechanism (6) for pushing the scraping plate (5) to move along the drainage well cover (3), the bottom surface of the scraping plate (5) is abutted to the upper surface of the drainage well cover (3), the side surfaces of the scraping plate (5) in the length direction are in sliding fit in the road structure (1), one side surfaces of the two scraping plates (5) which are far away from each other are arranged to be arc-shaped surfaces (51), the drainage well cover (3) is of a rectangular structure, the length direction of the drainage well cover (3) is the width direction of the road structure (1), two drainage channels (2) are arranged at intervals along the width direction of the road structure (1), and the bottom ends of the two drainage channels (2) are communicated with a drainage system;

the pushing mechanism (6) comprises a pushing component (61) for pushing the scraper (5) to move along the drain well cover (3) and a driving component (62) for driving the pushing component (61) to move, the pushing component (61) comprises a sliding plate (611) arranged on the scraper (5), a sliding rod (612) and a pushing rod (613) which are abutted to the driving component (62), two ends of the pushing rod (613) are respectively in running fit with the sliding plate (611) and the sliding rod (612), the sliding rod (612) is in sliding fit in the road structure (1) along the height direction of the road structure (1), the sliding plate (611) is a convex plate, and the long side of the sliding plate (611) is in sliding fit in the road structure (1);

the utility model discloses a storage device, including road structure (1), road structure (1) is provided with in the road structure (1) is used for collecting debris storage channel (8), be provided with in road structure (1) shutoff mechanism (9) of control storage channel (8) and drain channel (2) break-make, shutoff mechanism (9) are including shutoff board (91) and torsional spring (92) that are used for promoting shutoff board (91) to reset on road structure (1), the one end butt of torsional spring (92) is on road structure (1), and the other end butt is on the side that shutoff board (91) deviates from drain cover (3), spout (11) have been seted up in road structure (1), be provided with in spout (11) shielding plate (10), set up on shielding plate (10) with drain hole on drain cover (3) corresponding water hole (101), after dislocation set up in the direction along road structure (1) on the drain hole on shielding plate (101) is used for shielding drain hole (3), shielding plate (8) are used for carrying out the surperficial to keep down in the water channel (8) of support of surperficial (8) in the road structure (1), the surface is used for carrying out debris storage channel (15) is fixed to the top of storing debris (8), after certain sundries are accumulated in the storage channel (8), the rotating plate (15) is rotated away, and then the sundries in the storage channel (8) are cleaned;

the shielding plate (10) comprises a plurality of connecting plates (102) which are sequentially in rotary fit end to end, the connecting plates (102) are connected with sliding plates (611), elastic pieces (12) used for pulling the connecting plates (102) to move towards the position close to the blocking plates (91) are arranged on the connecting plates (102) close to the blocking plates (91), two ends of each connecting plate (102) are respectively in rotary fit with a rotary shaft (103), and connecting pieces (104) are respectively in rotary fit with two adjacent rotary shafts (103);

the driving assembly (62) comprises a cam (621) for pushing the sliding rod (612), a rotating rod (622) arranged in the cam (621) and a driving piece (623) for driving the rotating rod (622) to rotate, a reset mechanism (7) for pushing the sliding rod (612) to abut against the cam (621) is arranged in the road structure (1), a worm (624) is coaxially fixed on an output shaft of the driving piece (623), a worm wheel (625) is meshed on the worm (624), the rotating rod (622) is fixedly arranged in the worm wheel (625) in a penetrating mode, a mounting groove (13) is formed in the road structure (1), the driving piece (623) is fixedly arranged in the mounting groove (13), a plate for rotatably supporting the rotating rod (622) is fixedly arranged in the mounting groove (13), and the driving piece (623) is started to sequentially drive the worm (624), the worm wheel (625), the rotating rod (622) and the cam (621) to rotate.

The reset mechanism (7) comprises a mounting plate (71) arranged in a road structure (1) and an elastic piece (72) used for pushing the sliding rod (612) to be abutted against the cam (621), one end of the elastic piece (72) is fixedly arranged on the mounting plate (71), the other end of the elastic piece is fixedly arranged at the bottom end of the sliding rod (612), the elastic piece (72) is extruded when the sliding rod (612) descends, and the elastic piece (72) releases elastic restoring force to drive the sliding rod (612) to ascend and reset when the cam (621) does not extrude the sliding rod (612), and the pushing rod (613) drives the scraping plate (5) to reset.