CN113215908B - High printing opacity solar energy road surface structure - Google Patents

Abstract

The utility model relates to a high printing opacity solar energy road surface structure belongs to solar energy road surface field, and this structure is including inlaying the install bin of locating the road surface, the install bin is the upper end opening setting, be provided with photovoltaic board group in the install bin, the installation case lid is equipped with transparent apron, and the apron is the setting of lower extreme opening, the holding tank has been seted up to the install bin lateral wall, be provided with self-lock device in the holding tank, self-lock device is including setting up the joint subassembly in the holding tank, the application of force end of joint subassembly acts on the apron lateral wall. This application has the effect that solar energy can be fully utilized and realize the electricity generation, has effectively saved the energy, accords with the requirement of green development, and transparent cover plate installation fastness is better, has prolonged the life of this structure, has effectively reduced the maintenance number of times, has saved the manpower.

Description

High printing opacity solar energy road surface structure

Technical Field

The application relates to the field of solar pavements, in particular to a high-light-transmission solar pavement structure.

Background

The solar road surface is totally called as a solar photovoltaic power generation road surface, and refers to a brand new multifunctional road surface which adopts a solar photovoltaic power generation layer to replace a traditional asphalt or cement concrete surface layer as a surface layer.

Solar panels have become a mature technology, and are generally applied to places with strong illumination, such as roofs, etc., with the need of social development, solar panels are gradually applied to highway pavements, and when solar panels are installed on the highway pavements, firstly, a fixed base needs to be arranged on the highway, and then, the solar panels are installed on the fixed base.

For example, the chinese patent with the publication number CN103929119B discloses a photovoltaic solar energy road structure unit, a power generation system and a method for manufacturing the structure unit. The structural unit comprises a concrete base, a photovoltaic solar panel and a PMMA light-transmitting protective plate, a concave part is arranged at the center of the concrete base, the PMMA light-transmitting protective plate is arranged above the concrete base in a covering mode to form a closed space, and the photovoltaic solar panel is packaged in the closed space.

In view of the above-mentioned related technologies, the inventor thinks that in the long-term use process, the number of times of rolling the PMMA light transmission protection plate by the vehicle is large, and the PMMA light transmission protection plate is not firmly installed enough and is easy to loosen.

Disclosure of Invention

In order to improve the problem of printing opacity protection shield installation fastness, this application provides a high printing opacity solar street structure.

The application provides a high printing opacity solar energy road surface structure adopts following technical scheme:

the utility model provides a high printing opacity solar energy road surface structure, is including inlaying the install bin of locating the road surface, the install bin is upper end opening setting, be provided with photovoltaic board group in the install bin, the installation case lid is equipped with transparent apron, and the apron is the setting of lower extreme opening, the holding tank has been seted up to the install bin lateral wall, be provided with self-lock device in the holding tank, self-lock device is including setting up the joint subassembly in the holding tank, the application of force end of joint subassembly acts on the apron lateral wall.

Through adopting above-mentioned technical scheme, during the installation, at first accomplish photovoltaic board group installation, later locate the opening part of install bin with the apron lid, through joint subassembly joint in the lateral wall of apron to the realization is further consolidated the apron, reduces the not hard up possibility of apron, and during operation sunshine passes transparent apron and shines photovoltaic board group, thereby turns into the electric energy with solar energy through photovoltaic board group.

Optionally, the joint subassembly includes lifter, drive rack, drive gear, middle rack, joint gear and joint pole, the elevating groove has vertically been seted up along the installation box inside wall, the lifter level just slides and wears to locate the elevating groove in, the inner chamber of install bin is stretched into to the one end of lifter, the other end of lifter gos deep into the holding tank and connects drive rack, drive gear rotates to be connected in the holding tank inner wall and with drive rack toothing, middle rack along vertically slide set up in the holding tank and with drive gear meshing, joint gear revolve connect in the holding tank inner wall and with middle rack toothing, joint pole fixed connection is in joint gear and can stretch out elevating groove and apron lateral wall butt.

By adopting the technical scheme, when the cover plate is covered on the installation box, the side wall of the cover plate is abutted against the lifting rod and pushes the lifting rod downwards, and simultaneously drives the driving rack to move downwards, the driving rack is meshed with the driving gear, so that the driving gear can be driven to rotate, and further the middle rack is driven to move upwards, the middle rack is meshed with the clamping gear, so that the clamping gear can be driven to rotate, the rotating direction of the clamping gear is consistent with the rotating direction of the driving gear, when the clamping gear rotates, the clamping rod can be driven to rotate towards the side wall of the cover plate, and because the lifting groove is formed, the end part of the clamping rod can extend out of the lifting groove and is abutted against the side wall of the cover plate, the cover plate is fixed through the friction force between the end part of the clamping rod and the side wall of the cover plate, and because the cover plate is generally stressed downwards in the using process, when the apron received the decurrent pressure of wheel, joint rod tip had the extruded trend of orientation apron lateral wall to the longitudinal pressure that the apron received is big more, and the joint rod is big more to the extrusion force of apron lateral wall.

Optionally, self-lock device is still including setting up the bonding subassembly in the holding tank, the bonding subassembly includes the lifter, stores up and glues jar, injecting glue pipe, lifter fixed connection is in middle rack, it is fixed in the holding tank inner wall to store up gluey jar, the one end butt that the lifter deviates from middle rack is extruded in storing up gluey jar, injecting glue pipe one end is connected in the export of storing up gluey jar, and the other end extends to the gap between apron and the holding tank inner wall.

Through adopting above-mentioned technical scheme, when the apron lid closes in the opening of install bin, promote the lifter downstream, simultaneously under drive gear's meshing effect, make middle rack rebound, because the extrusion stem and middle rack fixed connection, can drive the synchronous rebound of extrusion stem and extrude the storage glue jar, glue solution in the storage glue jar receives the extrusion and exports to the gap between apron lateral wall and the holding tank by the injecting glue pipe in, thereby realize bonding the packing through the glue solution to the gap of apron lateral wall, the installation fastness of apron has further been improved.

Optionally, the glue storage tank is including being fixed in the packing element that the holding tank inner wall was used for storing the glue solution, the sliding is connected with the extrusion piston in the packing element, the stripper bar is connected in the extrusion piston, form the cavity that is used for holding the glue solution between extrusion piston and the packing element inner wall, the injecting glue union coupling deviates from the lateral wall of extrusion piston and communicates with the cavity in the packing element.

By adopting the technical scheme, the cavity of the rubber barrel is used for containing the rubber solution, and the extrusion rod can drive the extrusion piston to move and reduce the volume of the cavity, so that the rubber solution in the cavity is extruded by the rubber injection pipe.

Optionally, a plurality of ladders have been seted up along the circumference to the outer wall of apron and holding tank laminating, and the diameter of a plurality of ladders is along the direction from top to bottom crescent.

Through adopting above-mentioned technical scheme, through seting up the ladder, make and form the ring channel between a plurality of ladder and the holding tank inner wall, and along with the change of step diameter, the width of ring channel from top to bottom reduces gradually, thereby when the glue solution pours into the ring channel, at first flow downwards under glue solution self action of gravity, when the ring channel fill of below is full of, upwards fill the ring channel of great width gradually, make the glue solution fill in the ring channel more fully even, and after the glue solution solidifies, because there is the horizontal plane in the ring ladder, with in the butt of formation antagonism between the glue solution that solidifies, make the apron more difficult follow the install bin and deviate from.

Optionally, the cover plate is provided with a diversion trench along the axis direction, and the end of the glue injection pipe extends into the upper part of the diversion trench.

By adopting the technical scheme, the guide groove is formed, so that the glue solution flowing out of the glue injection pipe flows downwards along the guide groove, the glue solution flows downwards more smoothly, and the problem of unsmooth circulation caused by the surface tension of the glue solution is reduced.

Optionally, photovoltaic board group is including the support that is fixed in the install bin bottom surface, the mounting groove has been seted up to the support, mounting groove inner wall fixedly connected with fixed axle, the fixed axle rotates and is connected with solar panel, the support is provided with the adjusting part who is used for adjusting the solar panel angle.

Through adopting above-mentioned technical scheme, solar panel joint is in the mounting groove to when the installation through the adjustable solar panel's of adjusting part angle, make it reach the best extinction angle.

Optionally, the adjusting assembly includes a first limiting member and a second limiting member, the first limiting member is fixedly connected to an end of the fixing rod, the solar panel is rotatably connected to the fixing rod, and the second limiting member is connected to the solar panel and abuts against the first limiting member.

Through adopting above-mentioned technical scheme, after installing solar panel in the dead lever, first locating part and the mutual butt of second locating part, and through the butt power between first locating part and the second locating part, realize the location to solar panel.

Optionally, an end face of the first limiting member facing the second limiting member is provided with a first meshing tooth made of a flexible material, an end face of the second limiting member facing the first limiting member is provided with a second meshing tooth made of a flexible material, and the second meshing tooth is meshed with the first meshing tooth.

Through adopting above-mentioned technical scheme, through the meshing of first meshing tooth and second meshing tooth, realize solar panel's location to when the angle of needs adjustment solar panel when the installation, rotate solar panel, drive second locating part and second meshing tooth and rotate this moment, because first meshing tooth and second meshing tooth are made by flexible material, consequently it can take place to deform and take place relative rotation, realizes the regulation of angle.

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

the bonding assembly and the clamping assembly are linked, so that the clamping assembly and the bonding assembly are started simultaneously and act on the cover plate when the cover plate is installed, the fixing effect is improved, and the efficiency is higher;

through the mutual cooperation of first locating part and second locating part for solar panel's angularly adjustable just can fix a position, adaptable different area solar panel's angle demand.

Drawings

Fig. 1 is an external configuration diagram of an embodiment of the present application.

Fig. 2 is a cross-sectional view of an embodiment of the present application.

Fig. 3 is a partial structural schematic diagram of an embodiment of the present application.

FIG. 4 is a schematic view of an internal structure of an accommodating groove according to an embodiment of the present disclosure.

FIG. 5 is a schematic diagram of a clip assembly according to an embodiment of the present application.

FIG. 6 is a cross-sectional view of a bonding assembly according to an embodiment of the present application.

Fig. 7 is a schematic structural diagram of a photovoltaic panel assembly according to an embodiment of the present application.

FIG. 8 is a schematic structural diagram of an adjustment assembly according to an embodiment of the present application.

Description of reference numerals: 1. installing a box; 2. a photovoltaic panel set; 3. a cover plate; 4. accommodating grooves; 5. a self-locking device; 6. a clamping assembly; 7. a lifting rod; 8. a drive rack; 9. a drive gear; 10. a middle rack; 11. clamping a gear; 12. a clamping and connecting rod; 13. a lifting groove; 14. bonding the assembly; 15. an extrusion stem; 16. a glue storage tank; 17. a glue injection pipe; 18. a rubber cylinder; 19. a squeeze piston; 20. a step; 21. a diversion trench; 22. a support; 23. a solar panel; 24. an adjustment assembly; 25. fixing the rod; 26. a first limit piece; 27. a second limiting member; 28. a first meshing tooth; 29. a second meshing tooth; 30. a first guide groove; 31. a first guide edge; 32. a second guide groove; 33. a second guide edge; 34. a glue outlet; 35. sealing films; 36. a probe; 37. mounting grooves; 38. a spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses high printing opacity solar energy road surface structure. Referring to fig. 1 and 2, the structure comprises an installation box 1 with an opening on the upper surface, a pit groove matched with the installation box 1 is formed on the road surface during use, the installation box 1 is embedded in the pit groove, the surface of the installation box 1 is flush with the road surface, a transparent cover plate 3 is arranged on the installation box 1 in a covering mode, and the cover plate 3 can be made of an organic glass plate, such as a paml plate. And apron 3 includes the roof that flushes with the road surface and connects in the bounding wall at roof border, and bounding wall perpendicular to roof, bounding wall stretch into install bin 1 in and contact with 1 inner wall of install bin during the installation. Still be provided with photovoltaic board group 2 in install bin 1, sunshine can pass apron 3 and shine in photovoltaic board group 2.

Referring to fig. 3 and 4, photovoltaic board group 2 is including fixing support 22 in installation box 1 bottom surface, and support 22 includes two montants and a horizontal pole, and the both ends of horizontal pole are connected respectively at the top of two montants, and seted up mounting groove 37 on the horizontal pole, at the inner wall fixedly connected with dead lever 25 of mounting groove 37, rotate on dead lever 25 and be connected with solar panel 23, and dead lever 25 is passed by solar panel 23's middle part, still is provided with the adjusting part 24 that is used for adjusting solar panel 23 angle in mounting groove 37.

Referring to fig. 4, the adjusting assembly 24 includes a first limiting member 26 fixedly connected to the inner wall of the mounting groove 37 and a second limiting member 27 connected to the side wall of the solar panel 23, the first limiting member 26 is cylindrical, a first engaging tooth 28 is disposed on the side wall of the first limiting member 26 facing the solar panel 23, the first engaging tooth 28 is a face tooth and is made of a flexible material such as rubber, the second limiting member 27 is cylindrical, a second engaging tooth 29 is disposed on the side wall of the second limiting member 27 facing the first limiting member 26, the second engaging tooth 29 is a face tooth and is made of a flexible material such as rubber, and the second engaging tooth 29 is engaged with the first engaging tooth 28. When the solar panel 23 is rotated, the second engaging tooth 29 can be rotated relative to the first engaging tooth 28 and can be positioned at a desired angle by the deformation of the first engaging tooth 28 and the second engaging tooth 29.

Referring to fig. 2 and 5, a holding groove 4 is further formed in the side wall of the installation box 1, a self-locking device 5 is arranged in the holding groove 4, the self-locking device 5 comprises a clamping component 6 and a bonding component 14 which are arranged in the holding groove 4, and a lifting groove 13 is longitudinally formed in the inner side wall of the installation box 1. As shown in fig. 6 and 7, wherein the clamping assembly 6 includes a sliding lifting rod 7 penetrating through the lifting groove 13, the lifting rod 7 is horizontally arranged, one end of the lifting rod 7 extends into the inner cavity of the installation box 1, and the other end of the lifting rod 7 extends into the accommodating groove 4. Be connected with drive gear 9 and joint gear 11 through the pivot rotation in holding tank 4 inner wall, and drive gear 9 and joint gear 11 are located same vertical straight line, and joint gear 11 is located drive gear 9's top in this embodiment.

As shown in fig. 5 and 6, one end of the lifting rod 7 extending into the accommodating groove 4 is connected with a vertically arranged driving rack 8, and the driving rack 8 is meshed with a driving gear 9; in order to realize the direction to drive rack 8, first guide way 30 has still been seted up along vertical direction at the inner wall of holding tank 4, is connected with the first direction arris 31 that stretches into first guide way 30 and slide along first guide way 30 at the lateral wall an organic whole of drive rack 8, slides along first guide way 30 through first direction arris 31, realizes the direction to drive rack 8. The bottom of the driving rack 8 is also connected with a spring 38, and the bottom of the spring 38 is connected to the bottom surface of the accommodating groove 4, so that the effects of buffering, damping and resetting the driving rack 8 can be achieved.

As shown in fig. 6 and 7, an intermediate rack 10 is further connected to the inner wall of the accommodating tank 4 in a sliding manner, the intermediate rack 10 is simultaneously meshed with the driving gear 9 and the clamping gear 11, the intermediate rack 10 and the driving rack 8 are respectively arranged on two sides of the driving gear 9, the driving gear 9 can drive the intermediate rack 10 to ascend and descend when rotating, in order to ensure the stability of the intermediate rack 10 when ascending and descending, a second guide groove 32 is longitudinally formed in the inner wall of the accommodating tank 4, a second guide edge 33 is integrally connected to the side wall of the intermediate rack 10, and the second guide edge 33 slides in the second guide groove 32 and realizes the guide limit of the intermediate rack 10.

Referring to fig. 5 and 6, a clamping rod 12 is fixedly connected to the clamping gear 11, the clamping rod 12 can rotate along with the clamping gear 11, the clamping rod 12 corresponds to the lifting groove 13, when the clamping gear 11 drives the clamping rod 12 to rotate, the end of the clamping rod 12 can extend out of the lifting groove 13 and abut against the side wall of the enclosing plate, and the enclosing plate is pressed and fixed by the extrusion force of the end of the clamping rod 12 to the side wall of the enclosing plate. The end of the clamping rod 12 can be coated with a rubber sheet to increase the friction force of the clamping rod 12 to the coaming.

As shown in fig. 6 and 8, the bonding assembly 14 includes glue storage tank 16, glue storage tank 16 is including being fixed in holding tank 4 inner wall and being hollow circular cylinder's packing element 18, sliding connection is connected with the extrusion piston 19 of being made by rubber in packing element 18, form the cavity between extrusion piston 19 and the packing element 18 inner wall, liquid glue has been stored in the cavity, bonding assembly 14 is still including being the squeeze stem 15 of L shape, the one end fixed connection of squeeze stem 15 is in middle rack 10 lateral wall, the other end butt is used for promoting extrusion piston 19 along packing element 18 axis rebound in extrusion piston 19, glue outlet 34 has been seted up to the one end that deviates from extrusion piston 19 at packing element 18, the lateral wall of packing element 18 is connected with injecting glue pipe 17, 17 and glue outlet 34 intercommunication, the free end of injecting glue pipe 17 extends to the gap between bounding wall and the holding tank 4.

Referring to fig. 8, in order to prevent the liquid glue in the glue cylinder 18 from solidifying when not in use, a sealing film 35 is disposed at the glue outlet 34, and the sealing film 35 may be made of a rubber sheet or an aluminum foil material, and is used for sealing the glue outlet 34 and isolating the glue in the glue cylinder 18 from the outside air. A probe 36 is fixed on the side wall of the extrusion piston 19 facing the glue outlet 34, and the tip of the probe 36 faces the sealing film 35, so that when the extrusion piston 19 is pushed by the extrusion rod 15 to move upwards, the sealing film 35 can be pierced by the probe 36, thereby ensuring that the glue in the glue barrel 18 can be smoothly sent out from the glue injection pipe 17 and reach the gap at the side wall of the enclosing plate. In order to ensure that the glue can smoothly flow downwards, the outer wall of the enclosing plate is longitudinally provided with a guide groove 21, and the end part of the glue injection pipe 17 extends into the upper end of the guide groove 21, so that the glue sent out by the glue injection pipe 17 can smoothly flow downwards along the guide groove 21.

Referring to fig. 5, in order to further improve the bonding strength, the outer wall of the enclosing plate is provided with steps 20 along the circumference, and the widths of the steps 20 are gradually increased along the direction from top to bottom. Form the ring channel that is used for holding glue between 20 lateral walls of ladder and the installation box 1 inner wall, and the width of ring channel from top to bottom reduces gradually to when the glue that injecting glue pipe 17 flowed out flows down along the guide way, can fill up a plurality of ring channel in proper order, make glue fill more abundant and even.

The implementation principle of the high-light-transmission solar pavement structure in the embodiment of the application is as follows: the solar panel 23 is rotated and adjusted to a proper angle, then the transparent cover plate 3 is covered on the installation box 1, at the moment, the enclosing plate extends downwards into the installation box 1 and is attached to the inner wall of the installation box 1, the lifting rod 7 is pushed downwards in the downward movement process of the enclosing plate, the lifting rod 7 drives the driving rack 8 to move downwards and further drives the driving gear 9 to rotate, the driving gear 9 drives the middle rack 10 to move upwards, the middle rack 10 is meshed with the clamping gear 11 and further can drive the clamping gear 11 to rotate, the end part of the clamping rod 12 is further driven to rotate towards the side wall direction of the enclosing plate, and the end part of the clamping rod 12 penetrates through the lifting groove 13 and abuts against the side wall of the enclosing plate to realize abutting and fixing of the enclosing plate; meanwhile, when the middle rack 10 moves upwards, the extrusion rod 15 is driven to ascend, the extrusion piston 19 is further pushed to move upwards, glue in the glue cylinder 18 is extruded out and is sent out through the glue injection pipe 17, the glue flows into the guide groove through the glue injection pipe 17 and flows downwards until a gap between the annular ladder and the inner wall of the installation box 1 is filled, the cover plate 3 moves downwards until the upper surface of the cover plate is flush with the ground, and then the cover plate 3 is fixed after the glue is solidified. .

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a high printing opacity solar energy road surface structure which characterized in that: the photovoltaic mounting structure comprises a mounting box (1) embedded in a road surface, wherein the mounting box (1) is provided with an upper end opening, a photovoltaic panel group (2) is arranged in the mounting box (1), a transparent cover plate (3) is covered on the mounting box (1), the cover plate (3) is provided with a lower end opening, a containing groove (4) is formed in the side wall of the mounting box (1), a self-locking device (5) is arranged in the containing groove (4), the self-locking device (5) comprises a clamping assembly (6) arranged in the containing groove (4), and the force application end of the clamping assembly (6) acts on the side wall of the cover plate (3);

the clamping assembly (6) comprises a lifting rod (7), a driving rack (8), a driving gear (9), a middle rack (10), a clamping gear (11) and a clamping rod (12), wherein a lifting groove (13) is vertically formed in the inner side wall of the installation box (1), the lifting rod (7) is horizontally arranged and slides to penetrate through the lifting groove (13), one end of the lifting rod (7) extends into an inner cavity of the installation box (1), the other end of the lifting rod (7) penetrates into the accommodating groove (4) and is connected with the driving rack (8), the driving gear (9) is rotatably connected to the inner wall of the accommodating groove (4) and is meshed with the driving rack (8), the middle rack (10) is vertically arranged in the accommodating groove (4) in a sliding manner and is meshed with the driving gear (9), the clamping gear (11) is rotatably connected to the inner wall of the accommodating groove (4) and is meshed with the middle rack (10), the clamping rod (12) is fixedly connected to the clamping gear (11) and can extend out of the lifting groove (13) to be abutted against the side wall of the cover plate (3).

2. The high transmission solar energy road surface structure according to claim 1, characterized in that: self-lock device (5) are still including setting up bonding subassembly (14) in holding tank (4), bonding subassembly (14) are including extrusion stem (15), storage glue jar (16), injecting glue pipe (17), extrusion stem (15) fixed connection is in middle rack (10), it is fixed in holding tank (4) inner wall to store up glue jar (16), extrusion stem (15) deviate from the one end butt of middle rack (10) and extrude in storing up glue jar (16), injecting glue pipe (17) one end is connected in the export of storing up glue jar (16), and the other end extends to the gap between apron (3) and holding tank (4) inner wall.

3. A highly transparent solar energy road surface structure as claimed in claim 2, wherein: store up glue jar (16) including being fixed in holding tank (4) inner wall and being used for storing packing element (18) of glue solution, the sliding is connected with extrusion piston (19) in packing element (18), extrusion stem (15) are connected in extrusion piston (19), form the cavity that is used for holding the glue solution between extrusion piston (19) and packing element (18) inner wall, injecting glue pipe (17) are connected in packing element (18) and deviate from the lateral wall of extrusion piston (19) and communicate with the cavity.

4. A highly transparent solar energy road surface structure as claimed in claim 3, wherein: a plurality of ladders (20) have been seted up along the circumference to the outer wall of apron (3) and holding tank (4) laminating, and the diameter of a plurality of ladders (20) is along the direction from top to bottom crescent gradually.

5. A highly transparent solar energy road surface structure as claimed in claim 3, wherein: a guide groove (21) is formed in the cover plate (3) along the axis direction, and the end portion of the glue injection pipe (17) extends into the upper portion of the guide groove (21).

6. The high transmission solar energy road surface structure according to claim 1, characterized in that: photovoltaic board group (2) is including being fixed in support (22) of install bin (1) bottom surface, mounting groove (37) have been seted up in support (22), mounting groove (37) inner wall fixedly connected with fixed axle, the fixed axle rotates and is connected with solar panel (23), support (22) are provided with adjusting part (24) that are used for adjusting solar panel (23) angle.

7. The high optical transparency solar road surface structure as claimed in claim 6, wherein: the adjusting assembly (24) comprises a first limiting part (26) and a second limiting part (27), the first limiting part (26) is fixedly connected to the end of the fixing rod (25), the solar panel (23) is rotatably connected to the fixing rod (25), and the second limiting part (27) is connected to the solar panel (23) and is abutted to the first limiting part (26).

8. The high transmission solar energy road surface structure of claim 7, wherein: the end face of the first limiting piece (26) facing the second limiting piece (27) is provided with a first meshing tooth (28) made of a flexible material, the end face of the second limiting piece (27) facing the first limiting piece (26) is provided with a second meshing tooth (29) made of a flexible material, and the second meshing tooth (29) is meshed with the first meshing tooth (28).

Images