CN115741947A - Road surface brick apparatus for producing that permeates water for bridge - Google Patents

Abstract

The invention discloses a production device of a road surface permeable brick for a bridge, and particularly relates to the field of brick production, and the production device comprises a stamping device and a material bearing plate, wherein a mould is installed at the output end of the stamping device, the mould and the material bearing plate are matched and extruded, a material pushing plate which slides up and down is arranged inside the mould, a forming groove is formed in one side of the material pushing plate, which is close to the material bearing plate, and a stripping mechanism is arranged inside the forming groove; the material taking-off mechanism comprises a material taking-off main board which is movably arranged in the forming groove, the material taking-off main board moves up and down along the forming groove, and the blind spot protrusion is pushed out of the forming groove through the up-and-down movement of the material taking-off main board. The elastic connecting piece drives the stripping side plate to recover deformation so as to deflect upwards, the inclined surface which is slowly adhered with the blind spot bulge of the trapezoidal structure is torn off, the adhesion force between the inclined surface of the bulge and the inner side of the forming groove is reduced, the damage to the side surface of the blind spot bulge in the demoulding process is reduced, and the shape and the structure of the water permeable brick manufactured by the device are complete and attractive.

Description

Road surface brick apparatus for producing that permeates water for bridge

Technical Field

The invention relates to the technical field of brick production, in particular to a production device of a road surface water permeable brick for a bridge.

Background

The water permeable brick is a new century environmental protection building material product which is produced for solving the problem of urban surface hardening, creating a high-quality natural living environment and maintaining urban ecological balance. The water permeable brick has the characteristics of water permeability and moisture retention of the ground, skid resistance, high strength, cold resistance, weather resistance, noise reduction, sound absorption and the like.

Most of the existing permeable bricks are formed by mixing clay, aggregate and a plurality of adhesives according to a certain proportion, the mixture is made and then is pressed and formed, however, the top surface of the permeable brick for the blind road is usually pressed with blind spot bulges, the permeable brick with larger viscosity is easy to adhere to the inner wall of a stamping die, and the blind spot bulges on the permeable brick are especially easy to adhere to the inner wall of a forming groove, so that the damage of the permeable brick product is caused.

Disclosure of Invention

The invention provides a production device of a road surface water permeable brick for a bridge, which aims to solve the problems that: the blind spot on the existing water permeable brick is easy to stick on the inner wall of the forming groove, so that the appearance of the water permeable brick is damaged.

In order to achieve the purpose, the invention provides the following technical scheme: a production device of a permeable pavement brick for a bridge is used for stamping to obtain a product A and a product B and comprises a stamping device and a material bearing plate, wherein a die is installed at the output end of the stamping device, the die and the material bearing plate are matched and extruded, a material pushing plate which slides up and down is arranged inside the die, a forming groove is formed in one side, close to the material bearing plate, of the material pushing plate, and a material stripping mechanism is arranged inside the forming groove;

blind point bulges are arranged at the tops of the product A and the product B;

take off material mechanism and take off material mainboard movable mounting in the shaping inslot including taking off the material mainboard, and take off the material mainboard and move about from top to bottom along the shaping inslot, take off the material mainboard and move about from top to bottom and release the blind spot arch from the shaping inslot.

In a preferred embodiment, the cross section of the blind spot bulge is rectangular, the cross section of the forming groove is also rectangular, and the stripping main plate is matched with the groove top surface of the forming groove.

In a preferred embodiment, the cross section of the blind spot bulge is in the shape of an isosceles trapezoid, the cross section of the forming groove is also in the shape of an isosceles trapezoid, and the stripping main plate is matched with the groove top surface of the forming groove;

the stripping mechanism further comprises a connecting piece capable of restoring deformation and a stripping side plate, the stripping side plate is connected with the stripping main plate through the connecting piece, the stripping side plate is installed on the side edge of the stripping side plate, and the bottom surface of the stripping side plate is flush with the bottom surface of the stripping main plate.

In a preferred embodiment, the connecting piece is a hinge, two movable sides of the hinge are fixedly connected with the stripping main plate and the stripping side plate respectively, and a torsional spring is mounted in a hinged shaft of the hinge; when the blind spot bulge is separated from the forming groove, the stripping side plate rotates around the hinge axis of the hinge in the direction away from the side of the blind spot bulge inclined plane, and the overlapping area of the stripping side plate and the blind spot bulge inclined plane side is gradually reduced.

In a preferred embodiment, the connecting piece is an elastic belt, two sides of the elastic belt are respectively fixedly connected with the bottom sides of the stripping main plate and the stripping side plate, a side plate driving mechanism is installed on the top surface of the forming groove and used for driving the stripping side plate to slide with the inclined plane of the blind spot protrusion, and when the stripping main plate and the stripping side plate are extruded to the top surface of the forming groove, the side plate driving mechanism extends into a position between the stripping main plate and the stripping side plate.

In a preferred embodiment, curb plate actuating mechanism includes the dead axle, and dead axle fixed mounting is on the shaping groove, and the cover is equipped with the gear on the axostylus axostyle of dead axle, and the one side that takes off the material mainboard and be close to taking off the material curb plate is equipped with the teeth of a cogwheel of vertical distribution, takes off the material curb plate and install the rack near the one side that takes off the material mainboard, and when taking off the material mainboard and taking off the material curb plate and being extruded the groove top surface in shaping groove, the teeth of a cogwheel and take off the material curb plate and all be connected with gear engagement.

In a preferred embodiment, the angle between the length direction of the rack and the side edge of the stripping side plate close to the stripping main plate is an acute angle or a right angle, and a groove is formed in the side surface of the stripping main plate close to the stripping side plate and used for loading the rack.

In a preferred embodiment, a first elastic telescopic rod is mounted at the top of the material pushing plate, and penetrates through the top of the material pushing plate and extends out of the material pushing plate.

In a preferred embodiment, a second elastic telescopic rod is mounted at the top of the stripping main plate, movably penetrates through the groove top surface of the forming groove and extends to a position between the material pushing plate and the stamping device.

In a preferred embodiment, the molding machine further comprises a conveying device, the material bearing plate is mounted on a conveying belt of the conveying device, and the conveying device conveys the material bearing plate to the mold.

The invention has the technical effects and advantages that:

1. the conveying device intermittently conveys the material bearing plate containing the mixture to the lower part of the mold, then the material bearing plate is punched and molded to obtain the water permeable brick, the material pushing plate and the material removing mechanism completely demold the water permeable brick and the blind point bulge thereof from the mold cavity of the mold and the groove of the molding groove to the material bearing plate respectively, and the completely molded water permeable brick is conveyed to the next station, so that the function of the device for producing the water permeable brick fully automatically is realized;

2. the elastic connecting piece drives the stripping side plate to recover deformation and deflect upwards, the stripping side plate is slowly torn off from an inclined surface adhered to the blind spot bulge of the trapezoidal structure, the adhesion force between the inclined surface of the bulge and the inner side of the forming groove is reduced, the damage to the side surface of the blind spot bulge in the demolding process is reduced, the problems that the inclined surface of the blind spot bulge of the trapezoidal structure on the water permeable brick is easily adhered to a mold cavity and the appearance of the trapezoidal bulge is damaged are solved, and the complete and attractive shape and structure of the water permeable brick manufactured by the device are ensured.

Drawings

FIG. 1 is a schematic view of the overall construction of a production apparatus of the present invention;

FIG. 2 is a schematic structural diagram of a stamping apparatus according to a first embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a punching apparatus according to a second embodiment of the present invention;

FIG. 4 is a schematic view of a material-removing mechanism according to a second embodiment of the present invention;

FIG. 5 is a schematic view of a first state of the stripping mechanism of the present invention;

FIG. 6 is a schematic view of a second state of the stripping mechanism of the present invention;

FIG. 7 is a schematic view of a material-stripping side plate and a blind spot protrusion with a trapezoidal cross section according to a second embodiment of the present invention;

FIG. 8 is a schematic view showing a state where a stripper side plate is fitted with a blind spot protrusion of a trapezoidal cross section in the third embodiment of the present invention;

FIG. 9 is an enlarged view of the structure at A of FIG. 8 according to the present invention;

fig. 10 is a schematic structural view of two water permeable brick products of the present invention.

The reference signs are: 1. a stamping device; 11. a mold; 12. a material bearing plate; 2. a material pushing plate; 21. forming a groove; 22. a first elastic telescopic rod; 3. a material stripping mechanism; 31. a stripping main board; 311. gear teeth; 32. a connecting member; 33. a material removing side plate; 331. a rack; 34. a second elastic telescopic rod; 4. a side plate driving mechanism; 41. fixing a shaft; 42. a gear; 5. a conveying device; 6. product A; 7. product B; 8. the blind spot is raised.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to the attached drawing 10 in the specification, the water permeable brick processed and produced by the invention comprises a product A6 and a product B7, blind point bulges 8 are arranged at the tops of the product A6 and the product B7, the blind point bulges 8 on the product A6 are in a rectangular structure, and the blind point bulges on the product B7 are in a trapezoidal structure.

Example 1

Referring to the attached drawings 1 and 2 of the specification, the production device of the road surface water permeable brick for the bridge comprises a stamping device 1 and a material bearing plate 12, wherein a mixture for manufacturing the water permeable brick is contained on the material bearing plate 12, a die 11 is installed at the output end of the stamping device 1, the die 11 and the material bearing plate 12 are matched and extruded, a material pushing plate 2 which slides up and down is arranged inside the die 11, a forming groove 21 is formed in one side, close to the material bearing plate 12, of the material pushing plate 2, and a stripping mechanism 3 is arranged inside the forming groove 21;

take off material mechanism 3 including taking off material mainboard 31, take off material mainboard 31 movable mounting in shaping groove 21, and take off material mainboard 31 and move about from top to bottom along shaping groove 21, take off material mainboard 31 and move about from top to bottom and release blind spot arch 8 from shaping inslot 21.

The cross section of the blind spot bulge 8 is rectangular, the cross section of the forming groove 21 is also rectangular, and the stripping main plate 31 is matched with the groove top surface of the forming groove 21.

It should be noted that a driving cylinder is installed at the top of the inner cavity of the mold 11 for driving the material pushing plate 2 to move up and down, and a driving cylinder is also installed at the top of the material removing main plate 31 for driving the material removing main plate 31 to push the side of the rectangular blind spot protrusion 8 to remove the material from the inner wall of the forming groove 21.

In this embodiment, the implementation scenario specifically includes: placing a material bearing plate 12 containing a mixture below a die 11, driving the die 11 to move downwards by a stamping device 1 to be matched with the material bearing plate 12 to extrude the mixture, and forming the mixture in the die 11;

the mixture is reversely extruded to remove the main board 31, and in the extrusion process, the mixture is extruded in the forming groove 21 to form a blind spot bulge 8 with a rectangular structure;

after the product A6 is punched, the punching device 1 drives the die 11 to move upwards to be separated from the material bearing plate 12, then the driving cylinder firstly pushes the material pushing plate 2 to move downwards along the inner die cavity of the die 11 to push the top of the formed product A6, so that the product A6 is integrally pushed out from the die cavity, the side surface of the product A6 is prevented from being adhered to the inner wall of the die cavity of the die 11, and the water permeable brick product cannot be demoulded from the die cavity;

when the material pushing plate 2 completely pushes the product A6 out of the die cavity and falls on the material bearing plate 12, the other driving cylinder pushes the material stripping main plate 31 to move downwards along the forming groove 21 to push the top surface of the blind point bulge 8 of the rectangular structure, the pushing force is balanced, and the blind point bulge 8 of the rectangular structure is pushed out of the forming groove 21, so that the problems that the blind point bulge 8 on the water permeable brick is easily adhered to the die cavity, the bulge appearance is damaged, the automatic processing of equipment is influenced are solved, and the shape and the structure of the water permeable brick manufactured by the device are complete and attractive.

Example 2

Based on embodiment 1, referring to the attached drawings 1-7 of the specification, the embodiment provides a water permeable brick product B7 with trapezoidal structure blind spot protrusions 8, and solves the problem that two inclined surfaces of the trapezoidal structure blind spot protrusions 8 are adhered to the inner side of a forming groove 21, the cross section of each blind spot protrusion 8 is isosceles trapezoid, the cross section of the forming groove 21 is isosceles trapezoid, and a stripping main plate 31 is matched with the groove top surface of the forming groove 21;

the stripping mechanism 3 further comprises a connecting piece 32 capable of restoring deformation and a stripping side plate 33, the stripping side plate 33 is connected with the stripping main plate 31 through the connecting piece 32, the stripping side plate 33 is installed on the side edge of the stripping side plate 33, and the bottom surface of the stripping side plate 33 is flush with the bottom surface of the stripping main plate 31.

The connecting piece 32 is a hinge, two movable sides of the hinge are respectively and fixedly connected with the stripping main board 31 and the stripping side board 33, and a torsional spring is arranged in a hinged shaft of the hinge and is used for driving the stripping side board 33 to reset to an initial state; when the blind spot bulge 8 is separated from the forming groove 21, the stripping side plate 33 rotates around the hinge axis of the hinge in the direction far away from the inclined plane side of the blind spot bulge 8, and the overlapping area of the stripping side plate 33 and the inclined plane side of the blind spot bulge 8 is gradually reduced.

It should be noted that, in the initial state of the stripping mechanism 3, the stripping main plate 31 is flush with the stripping side plate 33, and the flat plate structure formed by the stripping main plate 31 and the stripping side plate 33 is flush with the bottom surface of the material pushing plate 2; when the stripping mechanism 3 is extruded by the mixture, the stripping main plate 31 is in contact with the top surface of the forming groove 21 in a pressing manner, the stripping side plate 33 is in contact with the inner side of the forming groove 21 in a pressing manner, the stripping main plate 31 and the stripping side plate 33 form an inverted concave structure, and the mixture is pressed into a product B7 by the stripping mechanism 3 and the material pushing plate 2.

In this embodiment, the implementation scenario specifically includes:

before the mixture is punched, a flat plate structure consisting of the stripping main plate 31 and the stripping side plate 33 is in contact with the bottom surface of the material pushing plate 2 and is flush;

in the process of punching the mixture, the mixture reversely extrudes the stripping main plate 31 and the stripping side plate 33, the two plates form an inverted concave structure under the limitation of the forming groove 21, and after extrusion, the mixture is extruded in the forming groove 21 to form a water permeable brick product B7 with a blind spot bulge 8 of a trapezoidal structure;

after the product B7 is stamped and manufactured, the stamping device 1 drives the die 11 to move upwards to be separated from the material bearing plate 12, then the driving cylinder firstly pushes the material pushing plate 2 to move downwards along the inner die cavity of the die 11 to push the top of the molded product B7, so that the whole product B7 is pushed out from the die cavity of the die 11, and the side surface of the product B7 is prevented from being adhered to the inner wall of the die cavity of the die 11;

when the material pushing plate 2 completely pushes the product B7 out of the mold cavity and falls on the material bearing plate 12, the other driving cylinder pushes the stripping main plate 31 to move downwards along the forming groove 21, the stripping main plate 31 pushes the top surface of the blind spot bulge 8 of the trapezoid structure downwards, the stripping side plate 33 moves downwards along with the whole stripping mechanism 3, the limit of the inner side of the forming groove 21 on the stripping side plate 33 is gradually reduced, the torsion spring in the hinge drives the stripping side plate 33 to gradually restore to the initial state, and in the process of restoring the deformation of the stripping side plate 33, the stripping side plate 33 deflects upwards around the hinge shaft of the hinge, so that the inclined plane which is slowly adhered with the blind spot bulge 8 of the trapezoid structure is torn (as shown in fig. 7), and then the problem that the inclined plane which is instantly adhered with the blind spot bulge 8 is pulled upwards and downwards is avoided, the gradual peeling mode is favorable for reducing the adhesion force of the inclined plane and the inner side of the forming groove 21, and reducing the damage to the bulge in the demolding process, thereby solving the problem that the inclined plane of the blind spot bulge 8 of the water permeable brick with the structure on the water permeable brick is easily adhered and damaged, and ensuring the beautiful appearance of the device.

Example 3

Based on embodiment 2, referring to fig. 8 and 9 in the specification, this embodiment provides a specific implementation manner of a structure of a connecting member 32 in different embodiment 2, where the connecting member 32 is an elastic belt, two sides of the elastic belt are respectively fixedly connected to bottom sides of a stripping main plate 31 and a stripping side plate 33, a side plate driving mechanism 4 is installed on a groove top surface of the forming groove 21, the side plate driving mechanism 4 is used for driving the stripping side plate 33 to slide along an inclined surface of the blind spot protrusion 8, and when the stripping main plate 31 and the stripping side plate 33 are pressed to the groove top surface of the forming groove 21, the side plate driving mechanism 4 extends between the stripping main plate 31 and the stripping side plate 33.

It should be noted that the elastic band may be a memory metal band, and the memory metal band is a multi-segment retractable structure, for example, the memory metal band further has a corrugated structure, which facilitates the extension and recovery between the stripping side plate 33 and the stripping main plate 31; however, when the side plate driving mechanism 4 is a separate driving mechanism, the elastic belt only needs to be an elastic structure capable of restoring the stripping side plate 33 and the stripping main plate 31 to be flush or approximately flush;

it should be further noted that, when the memory metal belt is used, in the initial process of downward moving the stripping main plate 31, the stripping side plate 33 is adhered to the inclined surface of the blind spot protrusion 8, the elastic belt is compressed, and the rack 331 is still engaged with the gear 42, so that the gear 42 rotates to drive the rack 331 to move.

The side plate driving mechanism 4 comprises a fixed shaft 41, the fixed shaft 41 is fixedly installed on the forming groove 21, a gear 42 is sleeved on a shaft rod of the fixed shaft 41, one side, close to the material removing side plate 33, of the material removing main plate 31 is provided with gear teeth 311 which are vertically distributed, one side, close to the material removing main plate 31, of the material removing side plate 33 is provided with a rack 331, and when the material removing main plate 31 and the material removing side plate 33 are extruded to the groove top surface of the forming groove 21, the gear teeth 311 and the material removing side plate 33 are both meshed with the gear 42.

It should be noted that, in a specific application, the side plate driving mechanism 4 may also be configured as a single driving mechanism, for example, a plurality of driving cylinders, a telescopic mechanism, or other mechanisms for driving the stripping side plate 33 to move along the side direction are installed at the top of the inner cavity of the forming groove 21, and the action of generating the mutual movement between the stripping side plate 33 and the inclined plane of the blind spot protrusion 8 of the trapezoid structure in this embodiment may also be realized.

The length direction of rack 331 and the angle that takes off between the material curb plate 33 and be close to the side of taking off material mainboard 31 are acute angle or right angle, and take off and be equipped with the recess in the material mainboard 31 is close to the side of taking off material curb plate 33, and the recess is used for loading rack 331, avoids under the initial condition, takes place to interfere when taking off material mainboard 31 and taking off the material curb plate 33 parallel and level.

It should be noted that when the angle between the length direction of the rack 331 and the side edge of the stripping side plate 33 close to the stripping main plate 31 is an acute angle, the stripping side plate 33 slides downwards along the inclined plane with a certain upward warping angle between the inclined planes to which the blind spot protrusion 8 of the trapezoid structure is adhered, so that a chamfer is formed on the top edge of the blind spot protrusion 8 of the trapezoid structure, and the adhesion between the stripping side plate 33 and the inclined plane of the blind spot protrusion 8 of the trapezoid structure is eliminated; when the angle between the length direction of the rack 331 and the side edge of the stripping side plate 33 close to the stripping main plate 31 is a right angle, the stripping side plate 33 slides downwards with the inclined plane of the blind spot protrusion 8 of the trapezoid structure, and the adhesion between the stripping side plate 33 and the inclined plane of the blind spot protrusion 8 of the trapezoid structure is separated.

In this embodiment, the implementation scenario specifically includes:

when the product B7 is punched, the stripping main plate 31 and the stripping side plate 33 form an inverted concave structure under the limitation of the forming groove 21, and at this time, the rack 331 is just meshed with the gear 42, and the gear teeth 311 and the gear 42 are meshed by one section;

when the material pushing plate 2 pushes the product B7 out of the die cavity, the driving cylinder pushes the stripping main plate 31 to move downwards along the forming groove 21, the gear teeth 311 push the gear 42 to rotate clockwise in the downward moving process of the stripping main plate 31, the gear 42 pushes the rack 331 again, so that the rack 331 pulls the stripping side plate 33 to slide relative to the inclined plane of the blind spot protrusion 8, and the stripping side plate 33 is separated from the inclined plane of the blind spot protrusion 8 of the trapezoid structure;

then, the stripping main board 31 continues to push the top surface of the blind spot bulge 8 of the trapezoid structure downwards, the rack 331 is separated from the gear 42, and then, the limitation of the inner side of the forming groove 21 on the stripping side board 33 is gradually reduced, the elastic belt drives the stripping side board 33 to recover deformation, and the stripping side board 33 deflects upwards, so that the inclined plane adhered to the blind spot bulge 8 of the trapezoid structure is slowly torn (the same way as the above embodiment), thereby avoiding the instant upward and downward pulling of the inclined plane adhered to the blind spot bulge 8 of the stripping side board 33, firstly sliding to separate the inclined plane of the stripping side board 33 and the inclined plane of the blind spot bulge 8 from adhesion, and then gradually peeling off, being beneficial to further reducing the adhesion force between the inclined plane of the bulge and the inner side of the forming groove 21, reducing the damage to the bulge in the demolding process, solving the problem that the inclined plane of the blind spot bulge 8 of the trapezoid structure on the permeable brick is easy to adhere to a mold cavity and damage the appearance of the trapezoid bulge, and ensuring the complete and beautiful shape structure of the permeable brick manufactured by the device.

Example 4

Based on the above embodiment 1, embodiment 2 or embodiment 3, referring to fig. 1 to fig. 10 of the specification, the first elastic telescopic rod 22 is installed at the top of the material pushing plate 2, and the first elastic telescopic rod 22 penetrates through the top of the material pushing plate 2 and extends out of the material pushing plate 2.

The top of the stripping main plate 31 is provided with a second elastic expansion link 34, and the second elastic expansion link 34 movably penetrates through the groove top surface of the forming groove 21 and extends to a position between the material pushing plate 2 and the punching device 1.

The die further comprises a conveying device 5, the material bearing plate 12 is installed on a conveying belt of the conveying device 5, and the conveying device 5 conveys the material bearing plate 12 to the die 11.

In this embodiment, the implementation scenario specifically includes: the conveying device 5 intermittently conveys the material bearing plate 12 containing the mixture to move below the die 11, and then the stamping device 1 drives the die 11 to move downwards to be matched with the material bearing plate 12 to extrude the mixture so as to form the mixture in the die 11;

after the water permeable bricks are punched, the water permeable bricks and the blind point bulges 8 thereof are respectively demoulded onto the material bearing plate 12 from the die cavities of the die 11 and the forming grooves 21 by the material pushing plate 2 and the material removing mechanism 3, and finally, the completely formed water permeable bricks are conveyed to the next station by the conveying device 5, so that the function of the device for fully automatically producing the water permeable bricks is realized.

And finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides a road surface brick apparatus for producing that permeates water for bridge for the punching press makes product A (6) and product B (7), including stamping device (1) and holding flitch (12), mould (11) are installed to the output of stamping device (1), mould (11) and holding flitch (12) cooperation extrusion, its characterized in that: a material pushing plate (2) which slides up and down is arranged in the die (11), a forming groove (21) is formed in one side, close to the material bearing plate (12), of the material pushing plate (2), and a material stripping mechanism (3) is arranged in the forming groove (21);

blind point bulges (8) are arranged at the tops of the product A (6) and the product B (7);

take off material mechanism (3) including taking off material mainboard (31), take off material mainboard (31) movable mounting in shaping groove (21), just take off material mainboard (31) and follow shaping groove (21) are movable from top to bottom, take off material mainboard (31) activity from top to bottom will blind spot arch (8) are released from shaping groove (21) interior.

2. The production device of the water permeable bricks for the road surface of the bridge as claimed in claim 1, characterized in that: the cross-sectional shape of blind spot arch (8) is the rectangle, the cross-sectional shape of shaping groove (21) also is the rectangle, take off material mainboard (31) and the groove top surface phase-match of shaping groove (21).

3. The production device of the permeable pavement bricks for the bridge as claimed in claim 1, characterized in that: the cross section of the blind spot bulge (8) is in an isosceles trapezoid shape, the cross section of the forming groove (21) is also in an isosceles trapezoid shape, and the stripping main plate (31) is matched with the groove top surface of the forming groove (21);

the stripping mechanism (3) further comprises a connecting piece (32) capable of restoring deformation and a stripping side plate (33), the stripping side plate (33) is connected with the stripping main plate (31) through the connecting piece (32), the stripping side plate (33) is installed on the side edge of the stripping main plate (31), and the bottom surface of the stripping side plate (33) is flush with the bottom surface of the stripping main plate (31).

4. The production device of the water permeable bricks for the road surface of the bridge as claimed in claim 3, characterized in that: the connecting piece (32) is a hinge, two movable sides of the hinge are respectively and fixedly connected with the stripping main board (31) and the stripping side board (33), and a torsional spring is arranged in a hinged shaft of the hinge; when blind spot arch (8) is followed when separating in shaping groove (21), take off material curb plate (33) around the articulated axial of hinge is kept away from blind spot arch (8) inclined plane side direction rotates, take off material curb plate (33) with the area that the inclined plane side of blind spot arch (8) coincide reduces gradually.

5. The production device of the water permeable bricks for the road surface of the bridge as claimed in claim 3, characterized in that: connecting piece (32) are the elastic webbing, the both sides of elastic webbing respectively with take off material mainboard (31) and take off the bottom side fixed connection of material curb plate (33), curb plate actuating mechanism (4) are installed to the groove top surface of shaping groove (21), curb plate actuating mechanism (4) are used for the drive take off material curb plate (33) and the protruding inclined plane of (8) of blind spot slide, work as take off material mainboard (31) and take off material curb plate (33) and be extruded when the groove top surface of shaping groove (21), curb plate actuating mechanism (4) stretch into to take off between material mainboard (31) and the material curb plate (33) of taking off.

6. The production device of the water permeable pavement brick for the bridge according to claim 5, characterized in that: curb plate actuating mechanism (4) are including dead axle (41), dead axle (41) fixed mounting is on shaping groove (21), the cover is equipped with gear (42) on the axostylus axostyle of dead axle (41), take off material mainboard (31) and be close to one side of taking off material curb plate (33) and be equipped with the teeth of a cogwheel (311) of vertical distribution, take off material curb plate (33) and be close to one side of taking off material mainboard (31) and install rack (331), work as take off material mainboard (31) and take off material curb plate (33) and be extruded when the groove top surface of shaping groove (21), teeth of a cogwheel (311) and take off material curb plate (33) all are connected with gear (42) meshing.

7. The production device of the water permeable pavement brick for the bridge according to claim 6, characterized in that: the angle between the length direction of rack (331) and the side that takes off material curb plate (33) and be close to and take off material mainboard (31) is acute angle or right angle, just take off and be equipped with the recess in the side that takes off material mainboard (31) is close to and take off material curb plate (33), the recess is used for loading rack (331).

8. The apparatus for producing permeable pavement bricks for bridges according to claim 1, 2, 4 or 7, wherein: the top of the material pushing plate (2) is provided with a first elastic telescopic rod (22), and the first elastic telescopic rod (22) penetrates through the top of the material pushing plate (2) and extends out of the material pushing plate (2).

9. The production device of the water permeable pavement brick for the bridge according to claim 8, characterized in that: and a second elastic telescopic rod (34) is installed at the top of the stripping main plate (31), and the second elastic telescopic rod (34) movably penetrates through the groove top surface of the forming groove (21) and extends to a position between the material pushing plate (2) and the stamping device (1).

10. The production device of the water permeable pavement brick for the bridge according to claim 9, characterized in that: the die is characterized by further comprising a conveying device (5), wherein the material bearing plates (12) are arranged on a conveying belt of the conveying device (5), and the conveying device (5) conveys the material bearing plates (12) to the die (11).

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