CN116374344B - Gabion net packing compressor - Google Patents

Abstract

The invention relates to the technical field of gabion networks, and provides a gabion network packing compressor which is convenient for automatically adjusting the position of a gabion network when the stacked gabion networks are compressed, effectively preventing the gabion networks from tilting during compression, automatically and quickly binding and packing the gabion networks after the gabion networks are compressed, reducing the labor intensity of operators and improving the packing efficiency of the gabion networks, and comprises the following steps: frame and compression motor install in the frame and be used for carrying out the compression board of compression to gabion net, and compression motor installs in the frame, and compression motor's output runs through the frame and fixedly connected with lifting screw, still includes: gabion net compression stop gear and gabion net packing and binding mechanism, gabion net compression stop gear include the spacing, and the spacing sets up to a plurality ofly, and a plurality of spacing equal sliding connection are in the frame, and gabion net packing and binding mechanism is including packing shifting ring, packing shifting ring fixed connection in the frame, and fixedly connected with ring gear on the packing shifting ring.

Description

Gabion net packing compressor

Technical Field

The invention relates to the technical field of gabion networks, in particular to a gabion network packing compressor.

Background

Gabion mesh cages are widely applied to civil engineering such as water conservancy, roads, water and soil conservation and the like, stone blocks with proper size are filled in the mesh cages to form a fixed whole, and the mesh cages are just like a huge stone block and are not easy to wash away by water, so that smaller stone blocks collected locally can be utilized according to local conditions, damage to the environment caused by mountain-opening stone blocks can be avoided, and after the mesh cages are filled with the stone blocks and paved on a river bed or a construction embankment and a retaining wall, sediment is slowly filled between the stone blocks in the mesh cages, so that the stone blocks in the mesh cages and the sediment of the river bed form a firm plate block, and at the moment, even if the mesh cages are rotten, the inner stone blocks are piled up to form a whole with the sediment;

through retrieving, when the existing gabion networks need to be packed and transported after processing is finished, the gabion networks are stacked together after being folded by workers, then the stacked gabion networks are placed into a compressor by workers through a forklift, the existing compressor drives a compression plate to downwards press the gabion networks to compress the gabion networks through a motor, the gabion networks are easy to deviate and incline during compression, operators are required to continuously adjust the positions of the stacked gabion networks, the compressed gabion networks are required to be bound and packed by operators, the manual operation procedures of the existing compression and packing mode are more, the labor intensity of operators is increased, and meanwhile the compression and packing efficiency of the gabion networks is reduced.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides the gabion mesh packing compressor which is convenient for automatically adjusting the position of the gabion mesh when the stacked gabion meshes are compressed, effectively prevents the gabion mesh from tilting during compression, can automatically and rapidly bind and pack the gabion mesh after the gabion mesh is compressed, reduces the labor intensity of operators and improves the packing efficiency of the gabion mesh.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: a gabion mesh packing compressor comprising: frame and compression motor, install the compression board that is used for compressing gabion net in the frame, compression motor installs in the frame, compression motor's output runs through the frame and fixedly connected with lifting screw, set up screw and threaded connection on lifting screw on the compression board, still include: the device comprises a gabion mesh compression limiting mechanism and a gabion mesh packing binding mechanism, wherein the gabion mesh compression limiting mechanism is installed in a frame, the gabion mesh compression limiting mechanism comprises a limiting frame, the limiting frames are arranged into a plurality of limiting frames, the limiting frames are slidably connected in the frame and used for preventing deviation and inclination during compression of stacked gabion meshes, the gabion mesh packing binding mechanism is installed in the frame and comprises a packing moving ring, the packing moving ring is fixedly connected in the frame, and a toothed ring is fixedly connected on the packing moving ring and used for packing and binding the compressed gabion meshes.

Preferably, the gabion mesh compression limiting mechanism further comprises: slider, rotating turret and rotation gear, the slider sets up to a plurality ofly, and is a plurality of the equal sliding connection of slider is in the frame, and is a plurality of fixed connection is on a plurality of sliders respectively, the rotating turret sets up to two, two the equal swivelling joint of rotating turret is in the frame, two all rotate on the rotating turret and be connected with the carriage release lever, a plurality of the carriage release lever rotates respectively and connects on a plurality of sliders, rotation gear rotates to be connected on one of them rotating turret, install the second motor through the mounting bracket in the frame, the output of second motor runs through mounting bracket and fixedly connected with drive gear, drive gear and rotation gear engagement.

Further, the gabion mesh packing and binding mechanism further comprises: the packing frame, iron wire dish, mount, carriage, first electric jar and iron wire shutdown mechanism, packing frame sliding connection is in the packing shifting ring, install first motor on the packing shifting ring, the output fixedly connected with of first motor removes the gear, remove gear and ring gear meshing, the iron wire dish rotates to be connected on the packing frame, the winding has the packing iron wire on the iron wire dish, mount sliding connection is in the frame, it is connected with rotary gear to rotate on the mount, install the third motor on the mount, the output of third motor runs through mount and fixedly connected with drive gear, drive gear and rotary gear meshing, carriage fixed connection is on rotary gear, the carriage internal rotation is connected with two clamping bars, two all rotate on the clamping bar and be connected with the grip block, first electric jar is installed on rotary gear, the output of first electric jar runs through rotary gear and fixedly connected with driving frame, rotate on the driving frame and be connected with two connecting rods respectively with two cut off the wire netting, two and hang down the wire netting after the wire netting is installed in the wire netting.

Still further, the iron wire cutting mechanism includes: the cutting board and the second electric jar, cut the board and set up to two, two cut the board respectively fixed connection on two grip blocks, the second electric jar sets up to two, two the second electric jar is installed respectively on two cuts the board, two the output of second electric jar all runs through cuts the board and all fixedly connected with cuts the sword, two all set up flutedly on the cutting board, two cut the sword and set up respectively in two recesses.

As a further scheme of the scheme, a fourth motor is installed on the frame, the output end of the fourth motor is fixedly connected with a movable screw rod, and a screw hole is formed in the fixing frame and is in threaded connection with the movable screw rod.

As still further scheme of this scheme, fixedly connected with a plurality of backup pads in the frame, all rotate between every adjacent two backup pads and be connected with the back shaft, install the fifth motor in one of them backup pad of adjacent two backup pads, the output of fifth motor runs through the backup pad and with back shaft fixed connection.

On the basis of the scheme, a plurality of support frames are fixedly connected in the frame, and the support frames are arranged at gaps between two adjacent support shafts.

On the basis of the scheme, a plurality of sliding grooves are formed in the frame, a plurality of sliding blocks are respectively and slidably connected in the sliding grooves, connecting plates are fixedly connected to the sliding blocks, and the moving rods are respectively and rotatably connected to the connecting plates.

(III) beneficial effects

Compared with the prior art, the invention provides a gabion mesh packing compressor, which has the following beneficial effects:

1. according to the invention, when the gabion network is required to be compressed, the lifting screw is driven to rotate by the compression motor arranged on the frame, so that the compression plate in threaded connection on the lifting screw is driven to descend, the gabion network is compressed, and the gabion network is limited when being compressed by the gabion network compression limiting mechanism arranged on the frame, so that the phenomenon of deviation of the gabion network during compression is effectively prevented;

2. according to the invention, when the gabion mesh is required to be packed, the iron wires are wound on the compressed gabion mesh through the gabion mesh packing and binding mechanism arranged on the frame, after the iron wires are wound, the iron wires are clamped through the clamping plates, the clamping plates are driven to rotate through the third motor, so that the two iron wire heads are screwed, and the iron wires are cut off through the iron wire cutting mechanism arranged on the clamping plates, so that the packing of the gabion mesh is completed.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of another angle of the present invention;

fig. 3 is a schematic diagram of a three-dimensional structure of the gabion mesh compression limiting mechanism, the gabion mesh packing and binding mechanism and the iron wire cutting mechanism in the invention;

FIG. 4 is a schematic diagram of a partial perspective structure of a gabion mesh compression limiting mechanism according to the present invention;

FIG. 5 is a schematic perspective view of a portion of the gabion mesh packing and binding mechanism of the present invention;

FIG. 6 is a schematic perspective view of the cooperation of the clamping plate, the first cylinder and the driving frame;

fig. 7 is a schematic view of a part of the iron wire cutting mechanism of the present invention.

In the figure: 1. a frame; 2. a compression plate; 3. a compression motor; 4. lifting screw rods; 5. a limiting frame; 6. packing a movable ring; 7. a slide block; 8. a rotating frame; 9. a moving rod; 10. rotating the gear; 11. a second motor; 12. a drive gear; 13. a packing rack; 14. a first motor; 15. a moving gear; 16. an iron wire disc; 17. packaging an iron wire; 18. a fixing frame; 19. a rotary gear; 20. a third motor; 21. a transmission gear; 22. a clamping frame; 23. a clamping rod; 24. a clamping plate; 25. a first electric cylinder; 26. a drive rack; 27. a connecting rod; 28. a cutoff plate; 29. a second electric cylinder; 30. a cutting knife; 31. a fourth motor; 32. moving the screw; 33. a support plate; 34. a support shaft; 35. a fifth motor; 36. a support frame; 37. and (5) connecting a plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, a gabion mesh packing compressor includes: frame 1 and compression motor 3, a plurality of spouts have been seted up in the frame 1, a plurality of sliding connection respectively in a plurality of spouts of slider 7, a plurality of equal fixedly connected with connecting plate 37 on the slider 7, a plurality of movable rod 9 rotates respectively to be connected on a plurality of connecting plates 37, fixedly connected with a plurality of support frames 36 in the frame 1, a plurality of support frames 36 all set up the clearance department between two adjacent back shaft 34 to support the gabion net when being convenient for compress to the gabion net, install fourth motor 31 in the frame 1, the output fixedly connected with of fourth motor 31 removes screw 32, set up screw and threaded connection on removal screw 32 on the mount 18, drive removal screw 32 through the fourth motor 31 of installing in the frame 1 to drive the mount 18 and remove, thereby support grip block 24 and remove, fixedly connected with a plurality of backup pads 33 in the frame 1, all rotate between every two adjacent backup pads 33 and be connected with back shaft 34, install fifth motor 35 in two backup pads 33 and install the fifth motor 35 in the frame 1 and carry out compression cage 2 and install the compression cage 3, thereby install the compression cage 2 in the frame 1, install the compression cage 2 and install the compression cage 3, the compression cage 2 through the screw 35, install the fifth motor 35 in the frame 1, and the compression cage 2 is gone up-down, thereby the frame is installed in the compression cage 2. The device comprises a gabion mesh compression limiting mechanism and a gabion mesh packing binding mechanism, wherein the gabion mesh compression limiting mechanism is installed in a frame 1, the gabion mesh compression limiting mechanism comprises limiting frames 5, the limiting frames 5 are arranged in a plurality, the limiting frames 5 are slidably connected in the frame 1 and used for preventing deflection and inclination during stacked gabion mesh compression, the gabion mesh packing binding mechanism is installed in the frame 1 and comprises a packing moving ring 6, the packing moving ring 6 is fixedly connected in the frame 1, and toothed rings are fixedly connected on the packing moving ring 6 and used for packing and binding the compressed gabion mesh.

The gabion mesh compression limiting mechanism further comprises: slider 7, rotating frame 8 and rotation gear 10, slider 7 sets up to a plurality ofly, a plurality of the equal sliding connection of slider 7 is in frame 1, a plurality of spacing frame 5 is fixed connection respectively on a plurality of sliders 7, rotating frame 8 sets up to two, two rotating frame 8 all rotates to be connected on frame 1, two all rotate on rotating frame 8 and be connected with movable rod 9, a plurality of movable rod 9 rotates respectively to be connected on a plurality of sliders 7, rotation gear 10 rotates to be connected on one of them rotating frame 8, install second motor 11 through the mounting bracket on frame 1, the output of second motor 11 runs through mounting bracket and fixedly connected with drive gear 12, drive gear 12 and rotation gear 10 meshing, and then drive rotation frame 8 of fixed connection on rotation gear 10 and rotate, drive movable rod 9 that rotates to be connected on rotating frame 8 and carry out the expansion and shrinkage, drive frame 5 through movable rod 9 and carry out the compression grid through the drive frame that moves in frame 1 and the expansion and shrinkage grid, thereby prevent that the expansion and shrinkage grid from falling into position grid when the frame 5 is connected to the frame, and compression grid is passed.

The gabion mesh packing and binding mechanism further comprises: the packing frame 13, the iron wire disc 16, the fixing frame 18, the clamping frame 22, the first electric cylinder 25 and the iron wire cutting mechanism, the packing frame 13 is slidingly connected in the packing moving ring 6, the first motor 14 is installed on the packing moving ring 6, the output end of the first motor 14 is fixedly connected with the moving gear 15, the moving gear 15 is meshed with the toothed ring, the iron wire disc 16 is rotationally connected on the packing frame 13, the iron wire disc 16 is wound with the packing iron wire 17, the fixing frame 18 is slidingly connected on the frame 1, the fixing frame 18 is rotationally connected with the rotating gear 19, the fixing frame 18 is provided with the third motor 20, the output end of the third motor 20 penetrates through the fixing frame 18 and is fixedly connected with the transmission gear 21, the transmission gear 21 is meshed with the rotating gear 19, the clamping frame 22 is fixedly connected on the rotating gear 19, the clamping frame 22 is rotationally connected with two clamping rods 23, the two clamping rods 23 are respectively rotationally connected with a clamping plate 24, a first electric cylinder 25 is installed on a rotary gear 19, the output end of the first electric cylinder 25 penetrates through the rotary gear 19 and is fixedly connected with a driving frame 26, the driving frame 26 is rotationally connected with two connecting rods 27, the two connecting rods 27 are respectively rotationally connected with the two clamping rods 23, an iron wire cutting mechanism is installed on the clamping plates 24 and is used for cutting iron wires after gabion mesh compression and packing, the driving rods are driven to stretch and retract through a first electric cylinder 25 installed on the rotary gear 19, the driving frame 26 is driven to move when the driving rods stretch and retract, the connecting rods 27 rotationally connected with the driving frame 26 are driven to move when the driving frame 26 moves, the clamping rods 23 are driven to open and close when the connecting rods 27 move, thereby drive grip block 24 that rotates on the grip lever 23 and connect and press from both sides tight to the one end of iron wire, after the one end of iron wire is pressed from both sides tight, carry the check net after compressing into packing shift ring 6, and drive shift gear 15 and ring gear meshing and rotate through the first motor 14 of installing on packing frame 13, and then drive packing frame 13 and rotate in packing shift ring 6, and then drive winding iron wire on the iron wire dish 16 and twine the check net after compressing, the iron wire is cut off through the iron wire shutdown mechanism of installing on grip block 24 after the check net is twined packing, two grip blocks 24 loosen the iron wire, put into two grip blocks 24 after unclamping, then press from both sides tight to both ends of iron wire clamp in two grip blocks 24, then drive gear 21 and rotatory gear 19 through the third motor 20 of installing on mount 18 and mesh and rotate, thereby drive two grip blocks 24 and twine together, thereby accomplish the check net after compressing and twine.

The iron wire cutting mechanism includes: the cutting plates 28 and the second electric cylinders 29, the cutting plates 28 are two, the cutting plates 28 are respectively and fixedly connected to the two clamping plates 24, the second electric cylinders 29 are two, the second electric cylinders 29 are respectively arranged on the two cutting plates 28, the output ends of the second electric cylinders 29 penetrate through the cutting plates 28 and are fixedly connected with cutting blades 30, the cutting plates 28 are provided with grooves, the cutting blades 30 are respectively arranged in the two grooves, the cutting blades 30 are driven to stretch through the second electric cylinders 29 arranged on the cutting plates 28, so that an iron wire is clamped between the two cutting blades 30, the two cutting blades 30 are continuously stretched out through the two second electric cylinders 29, and the iron wire is cut off by the two cutting blades 30.

In summary, in the gabion mesh packing compressor, when the gabion mesh is compressed and packed, the gabion mesh is placed on the support frame 36 through the left side of the frame 1, then the second motor 11 installed on the frame 1 drives the driving gear 12 to be meshed with the rotating gear 10, and further drives the rotating frame 8 fixedly connected with the rotating gear 10 to rotate, when the rotating frame 8 rotates, the moving rod 9 rotationally connected with the rotating frame 8 is driven to stretch and retract, the limit frame 5 slidingly connected with the frame 1 is driven to move through the stretch and retract of the moving rod 9, and then the qualified gabion mesh is attached when the gabion mesh is compressed, so that the gabion mesh is limited, the gabion mesh is effectively prevented from being deviated when being compressed, then the compression motor 3 installed on the frame 1 drives the lifting screw 4 to rotate, and further drives the compression plate 2 to press the gabion mesh downwards, so as to compress the gabion mesh, the compressed gabion mesh is driven to rotate by a fifth motor 35 arranged on a supporting plate 33 to drive a supporting shaft 34 to rotate, so that the compressed gabion mesh is conveyed back and forth to be conveyed into a packing moving frame, then a driving rod is driven to stretch and retract by a first electric cylinder 25 arranged on a rotary gear 19, a driving frame 26 is driven to move when the driving rod stretches and contracts, a connecting rod 27 which is rotationally connected on the driving frame 26 is driven to move when the driving frame 26 moves, a clamping rod 23 is driven to open and close when the connecting rod 27 moves, one end of an iron wire is clamped by a clamping plate 24 which is rotationally connected on the clamping rod 23, the compressed gabion mesh is conveyed into a packing moving ring 6 after one end of the iron wire is clamped, a moving gear 15 is driven to mesh with a toothed ring through a first motor 14 arranged on the packing frame 13 and rotate, and then the packing frame 13 is driven to rotate in the packing moving ring 6, and then the iron wire wound on the iron wire tray 16 is driven to wind the compressed gabion mesh, after the gabion mesh is wound and packed, the second electric cylinders 29 arranged on the cutting plates 28 drive the cutting blades 30 to stretch so as to clamp the iron wire between the two cutting blades 30, and the two cutting blades 30 are driven to continuously stretch out through the two second electric cylinders 29, then the two clamping plates 24 are loosened to loosen the iron wire, the iron wire at the other end is also put into the two clamping plates 24 after the iron wire tray 16 is loosened, the iron wire at the other end can be sent into the two clamping plates 24 after the iron wire tray 16 rotates to the positions of the two clamping plates 24, then the two clamping plates 24 are clamped, thereby press from both sides both ends of iron wire in two grip blocks 24, then drive gear 21 and rotation gear 19 meshing and rotation through the third motor 20 of installing on mount 18, and then drive two grip blocks 24 and rotate, thereby turn round the both ends of the iron wire that will be cliied together, when turning round both ends of two iron wires together, drive the removal screw 32 through the fourth motor 31 of installing on frame 1 and rotate, thereby drive mount 18 and remove, thereby support grip block 24 and remove, and then pull backward and the iron wire when twisting both ends of iron wire, thereby improve the dynamics that the iron wire was tied up, thereby accomplish and pack the gabion net after compressing and bind, the gabion net after packing is carried on support frame 36, thereby make things convenient for operating personnel to take it out.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A gabion mesh packing compressor comprising:

the compression device comprises a frame (1), wherein a compression plate (2) for compressing a gabion mesh is arranged in the frame (1);

the compression motor (3), compression motor (3) are installed on frame (1), the output of compression motor (3) runs through frame (1) and fixedly connected with lifting screw (4), set up screw and threaded connection on lifting screw (4) on compression board (2), its characterized in that still includes:

the gabion mesh compression limiting mechanism is arranged in the frame (1) and comprises a plurality of limiting frames (5), and the limiting frames (5) are slidably connected in the frame (1) and used for preventing deviation and inclination during stacked gabion mesh compression;

the gabion mesh packing and binding mechanism is installed in the frame (1), the gabion mesh packing and binding mechanism comprises a packing movable ring (6), the packing movable ring (6) is fixedly connected in the frame (1), and a toothed ring is fixedly connected on the packing movable ring (6) and used for packing and binding the compressed gabion mesh, and the gabion mesh packing and binding mechanism further comprises:

the packing device comprises a packing frame (13), wherein the packing frame (13) is slidably connected in a packing movable ring (6), a first motor (14) is installed on the packing movable ring (6), the output end of the first motor (14) is connected with a movable gear (15), and the movable gear (15) is meshed with a toothed ring;

an iron wire disc (16), wherein the iron wire disc (16) is rotationally connected to the packing frame (13), and a packing iron wire (17) is wound on the iron wire disc (16);

the fixing frame (18), the fixing frame (18) is connected to the frame (1) in a sliding manner, a rotary gear (19) is connected to the fixing frame (18) in a rotating manner, a third motor (20) is installed on the fixing frame (18), the output end of the third motor (20) penetrates through the fixing frame (18) and is fixedly connected with a transmission gear (21), and the transmission gear (21) is meshed with the rotary gear (19);

the clamping frame (22), the clamping frame (22) is fixedly connected to the rotary gear (19), two clamping rods (23) are rotatably connected to the clamping frame (22), and clamping plates (24) are rotatably connected to the two clamping rods (23);

the first electric cylinder (25), the first electric cylinder (25) is installed on the rotary gear (19), the output end of the first electric cylinder (25) penetrates through the rotary gear (19) and is fixedly connected with a driving frame (26), two connecting rods (27) are rotatably connected to the driving frame (26), and the two connecting rods (27) are rotatably connected with the two clamping rods (23) respectively;

the iron wire cutting mechanism is arranged on the clamping plate (24) and is used for cutting off the iron wires after the gabion mesh is compressed and packed.

2. The gabion mesh packing compressor of claim 1, wherein the gabion mesh compression limit mechanism further comprises:

the sliding blocks (7) are arranged in a plurality, the sliding blocks (7) are all connected in the frame (1) in a sliding mode, and the limiting frames (5) are respectively and fixedly connected to the sliding blocks (7);

the two rotating frames (8) are arranged, the two rotating frames (8) are both connected to the frame (1) in a rotating mode, the two rotating frames (8) are both connected with moving rods (9) in a rotating mode, and the plurality of moving rods (9) are respectively connected to the plurality of sliding blocks (7) in a rotating mode;

the rotary gear (10), rotary gear (10) rotate and connect on one of them rotating turret (8), install second motor (11) through the mounting bracket on frame (1), the output of second motor (11) runs through the mounting bracket and fixedly connected with drive gear (12), drive gear (12) and rotary gear (10) meshing.

3. The gabion mesh packing compressor of claim 2, wherein the wire cutoff mechanism comprises:

the cutting plates (28) are arranged in two, and the two cutting plates (28) are fixedly connected to the two clamping plates (24) respectively;

the second electric cylinder (29), second electric cylinder (29) set up to two, two second electric cylinder (29) are installed respectively on two clipper (28), two the output of second electric cylinder (29) all runs through clipper (28) and all fixedly connected with clipper (30), two all set up flutedly on clipper (28), two clipper (30) set up respectively in two flutedly.

4. A gabion mesh packing compressor according to claim 3, wherein a fourth motor (31) is installed on the frame (1), an output end of the fourth motor (31) is fixedly connected with a moving screw (32), and the fixing frame (18) is provided with a screw hole and is in threaded connection with the moving screw (32).

5. The gabion mesh packing compressor according to claim 4, wherein a plurality of support plates (33) are fixedly connected to the frame (1), a support shaft (34) is rotatably connected between each two adjacent support plates (33), a fifth motor (35) is mounted on one support plate (33) of the two adjacent support plates (33), and an output end of the fifth motor (35) penetrates through the support plate (33) and is fixedly connected with the support shaft (34).

6. The gabion mesh packing compressor of claim 5, wherein a plurality of support frames (36) are fixedly connected in the frame (1), and a plurality of the support frames (36) are arranged at gaps between two adjacent support shafts (34).

7. The gabion mesh packing compressor of claim 6, wherein a plurality of sliding grooves are formed in the frame (1), a plurality of sliding blocks (7) are respectively and slidably connected in the sliding grooves, connecting plates (37) are fixedly connected to the sliding blocks (7), and a plurality of moving rods (9) are respectively and rotatably connected to the connecting plates (37).