CN216372796U - Fiber reinforcement high fluidity is strong effect mixing system for recycled concrete - Google Patents

Abstract

The utility model relates to a deal with technical field useless admittedly, disclose fibre reinforcing high mobility recycled concrete is with imitateing mixing system by force, including the device body, the first backup pad of bottom fixedly connected with of device body, the first support column of top fixedly connected with of first backup pad, the top fixedly connected with roof of first support column, the bottom fixedly connected with motor of roof, the output fixedly connected with axostylus axostyle of motor. This fibre reinforcing high fluidity is strong mixing system for recycled concrete, through throwing into the polypropylene fibre pan feeding pipe in, then remove the stripper plate and go on the gasbag to blow in the inside polypropylene fibre of square pipe portion device body, make polypropylene fibre homodisperse as far as possible on recycled concrete, avoid the polypropylene fibre gathering in a certain department of recycled concrete as far as possible, thereby probably lead to the less recycled concrete of polypropylene fibre content and cement mortar bonding inseparable.

Description

Fiber reinforcement high fluidity is strong effect mixing system for recycled concrete

Technical Field

The application relates to the technical field of solid waste disposal, in particular to a fiber-reinforced high-fluidity reinforced concrete high-efficiency stirring system.

Background

At present, the treatment of solid waste includes the treatment of building materials, wherein recycled concrete is an important item, in order to realize the recycling of concrete, polypropylene fibers are required to be doped, the polypropylene fibers are soft in texture and are tightly bonded with cement mortar in the concrete, the capability of resisting internal and external stress and deformation of a matrix is effectively enhanced, the shrinkage rate is reduced, and the fluidity of the recycled concrete is improved.

In this in-process often need use to imitate agitating unit by force, and present imitate agitating unit by force has possessed good stirring effect, but present imitate agitating unit by force and generally can directly drop into the polypropylene fibre and stir on the recycled concrete, make the polypropylene fibre gathering in a certain department of recycled concrete easily to probably lead to the less recycled concrete of polypropylene fibre content and cement mortar bonding inseparable, influence building quality.

SUMMERY OF THE UTILITY MODEL

The utility model provides an aim at provides fibre reinforcement high fluidity is strong mixing system for recycled concrete to current strong effect agitating unit who proposes in solving above-mentioned background art generally can directly drop into the polypropylene fibre and stir on the recycled concrete, makes the polypropylene fibre gathering in a certain department of recycled concrete easily, thereby probably leads to the less recycled concrete of polypropylene fibre content and cement mortar bonding inseparable, influences the problem of building quality.

In order to achieve the above purpose, the present application provides the following technical solutions: fiber reinforcement high fluidity is strong effect mixing system for recycled concrete, including the device body, the first backup pad of bottom fixedly connected with of device body, the first support column of top fixedly connected with of first backup pad, the top fixedly connected with roof of first support column, the bottom fixedly connected with motor of roof, the output fixedly connected with axostylus axostyle of motor, the outer fixed surface of axostylus axostyle is connected with changes the leaf, the outer fixed surface intercommunication of device body has square pipe, the outer fixed surface intercommunication of square pipe has the pan feeding pipe, the fixed intercommunication of one end that the device body was kept away from to square pipe has the gasbag, the outside of device body is provided with the extrusion structure, the inside of square pipe is provided with and keeps off the mud structure.

Preferably, the extrusion structure includes U type backup pad, one side of U type backup pad is connected with the surface fixed of device body, U type backup pad be provided with first spout sliding connection's first slider, one side fixedly connected with stripper plate of first slider, one side fixedly connected with push rod of stripper plate, the inside resilience module that is provided with of U type backup pad.

Preferably, the resilience module comprises a spring, one end of the spring is fixedly connected with the U-shaped supporting plate through a first sliding groove, and the other end of the spring is fixedly connected with one side of the first sliding block.

Preferably, the fender mud structure includes the baffle, the hole of placing has been seted up to the surface of square pipe, square pipe is through placing hole and baffle swing joint, the surface of baffle is laminated mutually with the internal surface of square pipe, the top fixedly connected with pull rod of baffle, the top fixedly connected with magnetic path of square pipe.

Preferably, the bottom of the top plate is fixedly connected with an electric telescopic rod, the telescopic end of the electric telescopic rod is fixedly connected with a sealing plate, a sealing ring is arranged at the bottom of the sealing plate, the bottom side of the sealing ring is attached to the top of the device body, a round hole is formed in the top of the sealing plate, and the sealing plate is movably connected with the outer surface of the shaft rod through the round hole.

Preferably, the bottom of the device body is fixedly communicated with a discharge pipe, and one end, far away from the device body, of the discharge pipe is in threaded connection with a cover.

Preferably, the bottom of the first supporting plate is fixedly connected with a second supporting column, the bottom of the second supporting column is fixedly connected with a second supporting plate, a second sliding groove is formed in the top of the second supporting plate, a second sliding block in sliding connection with the second sliding groove is arranged on the second supporting plate, and a collecting box is arranged on the top of the second sliding block.

To sum up, the technical effect and the advantage of this application: according to the reinforced high-fluidity recycled concrete strong-effect stirring device, the polypropylene fibers are put into the feeding pipe, and then the extrusion plate is moved to extrude the air bag, so that the polypropylene fibers in the square pipe are blown into the device body, the polypropylene fibers are uniformly dispersed on recycled concrete as much as possible, the polypropylene fibers are prevented from gathering at a certain position of the recycled concrete as much as possible, and the recycled concrete with less polypropylene fiber content is not tightly bonded with cement mortar; in addition, after the device is processed, the collecting box is moved to the bottom of the device body, the cover is unscrewed from the discharging pipe, so that the recycled concrete processed in the device body falls into the collecting box to be collected, the collecting box is pushed out of the bottom of the device body, and convenience is brought to a user to use the recycled concrete in the collecting box.

Drawings

Fig. 1 is a front perspective view of the structure of the present application.

Fig. 2 is a schematic perspective view of the present application in cross-sectional configuration.

Fig. 3 is a perspective view of the air blowing structure of the present application.

Fig. 4 is a schematic bottom perspective view of the structure of the present application.

Description of reference numerals:

1. a device body; 2. a first support plate; 3. a first support column; 4. a top plate; 5. a motor; 6. a shaft lever; 7. rotating the leaves; 8. a square tube; 9. a feeding pipe; 10. an air bag; 11. a U-shaped support plate; 12. a pressing plate; 13. a push rod; 14. a first chute; 15. a first slider; 16. a spring; 17. a baffle plate; 18. a pull rod; 19. a magnetic block; 20. an electric telescopic rod; 21. a sealing plate; 22. a seal ring; 23. a discharge pipe; 24. a cover; 25. a second support plate; 26. a second support column; 27. a second chute; 28. a second slider; 29. and a collection box.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

Referring to fig. 1 and 2, the forced mixing system for fiber-reinforced high-fluidity recycled concrete includes a device body 1, and the inside of the device body 1 is used for mixing recycled concrete. The first backup pad 2 of bottom fixedly connected with of device body 1, the bottom fixedly connected with second support column 26 of first backup pad 2, second support column 26 are provided with four, and four second support columns 26 distribute in the bottom of first backup pad 2. The bottom end of the second supporting column 26 is fixedly connected with a second supporting plate 25, the second supporting plate 25 is of a square block structure, the four second supporting columns 26 are located above the second supporting plate 25, and the second supporting plate 25 is used for supporting the whole device. The top of the second support plate 25 is opened with a second sliding slot 27, the second support plate 25 is provided with a second sliding block 28 connected with the second sliding slot 27 in a sliding manner, and the second sliding block 28 can slide on the second support plate 25 through the second sliding slot 27. The top fixedly connected with first support column 3 of first backup pad 2, first support column 3 is provided with threely, and three first support column 3 distributes in the top of first backup pad 2. The top end of the first supporting column 3 is fixedly connected with a top plate 4, and the three first supporting columns 3 are located below the top plate 4. The bottom fixedly connected with motor 5 of roof 4, motor 5 are prior art, and roof 4 is used for supporting motor 5. The output end of the motor 5 is fixedly connected with a shaft lever 6, and the shaft lever 6 is positioned below the motor 5. The outer fixed surface of axostylus axostyle 6 is connected with commentaries on classics leaf 7, and commentaries on classics leaf 7 is provided with a plurality ofly, and every three is a set of, evenly distributed on axostylus axostyle 6.

Referring to fig. 1-3, the outer surface of the device body 1 is fixedly communicated with a square tube 8, the outer surface of the square tube 8 is fixedly communicated with a feeding tube 9, and the feeding tube 9 is used for feeding polypropylene fibers into the square tube 8. The one end that square pipe 8 kept away from device body 1 is fixed the intercommunication has gasbag 10, extrudees gasbag 10 and can insufflate the inside polypropylene fibre of square pipe 8 to the inside of device body 1. The device body 1 is provided with an extrusion structure outside, the extrusion structure comprises a U-shaped support plate 11, one side of the U-shaped support plate 11 is fixedly connected with the outer surface of the device body 1, and the inner surface of the U-shaped support plate 11 is in contact with the outer surface of the air bag 10. The inner surface of the U-shaped supporting plate 11 is provided with a first sliding groove 14, the U-shaped supporting plate 11 is provided with a first sliding block 15 which is slidably connected with the first sliding groove 14, and the first sliding block 15 can slide on the U-shaped supporting plate 11 through the first sliding groove 14. One side of the first sliding block 15 is fixedly connected with a squeezing plate 12, and the squeezing plate 12 can be in any shape. The pressing plate 12 is regularly moved by the cooperation of the first chute 14 and the first slider 15. One side fixedly connected with push rod 13 of stripper plate 12, push rod 13 are the columnar structure, and push rod 13 is located the right side of stripper plate 12, and push rod 13 conveniently carries out stripper plate 12 and removes.

Referring to fig. 3, the rebound module is arranged in the U-shaped support plate 11 and comprises a spring 16, one end of the spring 16 is fixedly connected with the U-shaped support plate 11 through a first chute 14, the other end of the spring 16 is fixedly connected with one side of a first slider 15, the spring 16 is also stretched after the extrusion plate 12 is applied with force, and the spring 16 drives the extrusion plate 12 to return rapidly when the extrusion plate 12 is not applied with force.

Referring to fig. 3, square 8 inside of managing is provided with and keeps off the mud structure, keeps off the mud structure and includes baffle 17, and baffle 17 specifically is iron plate, and square 8's surface has been seted up and has been placed the hole, and square 8 manages 17 swing joint through placing hole and baffle 17, and baffle 17 can reciprocate. The surface of baffle 17 and the internal surface of square pipe 8 laminate mutually, insufflate device body 1 inside back from square pipe 8 at the fibre, move down baffle 17 for baffle 17 and the laminating of square pipe 17 internal surface, baffle 17 can minimize recycled concrete this moment and enter into the inside of square pipe 8 and cause the jam. The top of baffle 17 is fixedly connected with pull rod 18, and pull rod 18 conveniently removes baffle 17. The top of the square pipe 8 is fixedly connected with a magnetic block 19, and the magnetic block 19 can magnetically adsorb the baffle 17.

Referring to fig. 2, an electric telescopic rod 20 is fixedly connected to the bottom of the top plate 4, and the electric telescopic rod 20 can be extended or shortened. The telescopic end of the electric telescopic rod 20 is fixedly connected with a sealing plate 21, and the sealing plate 21 is used for blocking the top of the device body 1. The bottom of the seal plate 21 is provided with a seal ring 22, the bottom side of the seal ring 22 is attached to the top of the apparatus body 1, and the seal ring 22 seals the gap between the apparatus body 1 and the seal plate 21 as much as possible. The top of the sealing plate 21 is provided with a round hole, the sealing plate 21 is movably connected with the outer surface of the shaft lever 6 through the round hole, and the shaft lever 6 can normally rotate.

Referring to fig. 4, a discharge pipe 23 is fixedly communicated with the bottom of the apparatus body 1, the discharge pipe 23 is used for discharging the recycled concrete inside the apparatus body 1, a cover 24 is screwed to one end of the discharge pipe 23 far away from the apparatus body 1, and the cover 24 is used for sealing the discharge pipe 23.

Referring to fig. 1, the second slider 28 is provided at the top thereof with a collection box 29, and the collection box 29 is used to receive concrete produced from the apparatus body 1. The collection bin 29 is movable by the cooperation of the second chute 27 and the second slide 28.

Theory of operation, this fibre reinforcement high mobility recycled concrete is with imitate mixing system by force, through starting electric telescopic handle 20, make closing plate 21 and sealing washer 22 cooperate, top with device body 1 is sealed as far as possible, restart motor 5, make it drive axostylus axostyle 6 and rotate, the rotation of axostylus axostyle 6 has driven the rotation of commentaries on classics leaf 7 this moment, thereby realized stirring the inside recycled concrete of device body 1, during this period, with polypropylene fiber through pan feeding pipe 9 drop into square inside of managing 8, then remove push rod 13, make it drive stripper plate 12 extrude gasbag 10, gasbag 10 blows at this moment, blow in the inside of device body 1 with the inside polypropylene fiber of square tub 8, make polypropylene fiber can disperse and fall on the recycled concrete.

After the device is processed, the collection box 29 is moved to the bottom of the device body 1, and then the cover 24 is unscrewed from the discharge pipe 23, so that the processed recycled concrete inside the device body 1 falls into the collection box 29, and the collection box 29 is pushed out of the bottom of the device body 1, thereby facilitating the use of the processed recycled concrete.

Finally, it should be noted that: although the present application has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or some features may be replaced with equivalents, and any modifications, equivalents, improvements, etc. that fall within the spirit and scope of the present application are intended to be covered by the present application.

Claims (7)

1. Fibre reinforcement high fluidity is forced mixing system for recycled concrete, including device body (1), its characterized in that: the bottom of the device body (1) is fixedly connected with a first supporting plate (2), the top of the first supporting plate (2) is fixedly connected with a first supporting column (3), the top end of the first supporting column (3) is fixedly connected with a top plate (4), the bottom of the top plate (4) is fixedly connected with a motor (5), the output end of the motor (5) is fixedly connected with a shaft lever (6), the outer surface of the shaft lever (6) is fixedly connected with a rotating blade (7), the outer surface of the device body (1) is fixedly communicated with a square pipe (8), the outer surface of the square pipe (8) is fixedly communicated with a feeding pipe (9), one end of the square pipe (8) far away from the device body (1) is fixedly communicated with an air bag (10), the device is characterized in that an extrusion structure is arranged outside the device body (1), and a mud blocking structure is arranged inside the square pipe (8).

2. The strong stirring system for fiber-reinforced high-fluidity recycled concrete according to claim 1, wherein: the extrusion structure comprises a U-shaped supporting plate (11), one side of the U-shaped supporting plate (11) is fixedly connected with the outer surface of the device body (1), a first sliding groove (14) is formed in the inner surface of the U-shaped supporting plate (11), the U-shaped supporting plate (11) is provided with a first sliding block (15) which is connected with the first sliding groove (14) in a sliding mode, one side of the first sliding block (15) is fixedly connected with an extrusion plate (12), one side of the extrusion plate (12) is fixedly connected with a push rod (13), and a rebound module is arranged inside the U-shaped supporting plate (11).

3. The strong stirring system for fiber-reinforced high-fluidity recycled concrete according to claim 2, wherein: the resilience module comprises a spring (16), one end of the spring (16) is fixedly connected with the U-shaped supporting plate (11) through a first sliding groove (14), and the other end of the spring (16) is fixedly connected with one side of a first sliding block (15).

4. The strong stirring system for fiber-reinforced high-fluidity recycled concrete according to claim 1, wherein: the mud blocking structure comprises a baffle (17), a placing hole is formed in the outer surface of the square pipe (8), the square pipe (8) is movably connected with the baffle (17) through the placing hole, the outer surface of the baffle (17) is attached to the inner surface of the square pipe (8), a pull rod (18) is fixedly connected to the top of the baffle (17), and a magnetic block (19) is fixedly connected to the top of the square pipe (8).

5. The strong stirring system for fiber-reinforced high-fluidity recycled concrete according to claim 1, wherein: the bottom of the top plate (4) is fixedly connected with an electric telescopic rod (20), the telescopic end of the electric telescopic rod (20) is fixedly connected with a sealing plate (21), a sealing ring (22) is arranged at the bottom of the sealing plate (21), the bottom side of the sealing ring (22) is attached to the top of the device body (1), a round hole is formed in the top of the sealing plate (21), and the sealing plate (21) is movably connected with the outer surface of the shaft rod (6) through the round hole.

6. The strong stirring system for fiber-reinforced high-fluidity recycled concrete according to claim 1, wherein: the device is characterized in that a discharge pipe (23) is fixedly communicated with the bottom of the device body (1), and one end, far away from the device body (1), of the discharge pipe (23) is in threaded connection with a cover (24).

7. The strong stirring system for fiber-reinforced high-fluidity recycled concrete according to claim 1, wherein: the bottom fixedly connected with second support column (26) of first backup pad (2), the bottom fixedly connected with second backup pad (25) of second support column (26), second spout (27) have been seted up at the top of second backup pad (25), second backup pad (25) be provided with second spout (27) sliding connection's second slider (28), the top of second slider (28) is provided with collecting box (29).

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