CN112357637A - Anticorrosion concrete filling base material production device - Google Patents

Abstract

The invention provides a production device of an anti-corrosion concrete filling base material, and belongs to the technical field of concrete. The automatic yarn cutting machine comprises a production rack platform, a filling substrate production box assembly, a filling substrate production assembly, a yarn cutting glass fiber feeding assembly, a kaolin feeding nozzle, an asbestos powder feeding nozzle, an expanding agent feeding nozzle, two yarn cutting knife rollers of the yarn cutting glass fiber feeding assembly are rotatably arranged on a yarn cutting guide roller support, yarn cutting blades are alternately arranged on the yarn cutting knife rollers, synchronizing gears are coaxially arranged at one ends of the yarn cutting knife rollers and are meshed with each other, yarn supporting rollers are arranged in the yarn cutting glass fiber feeding hopper, yarn supporting rings are uniformly distributed and arranged on the yarn supporting rollers, the yarn guiding rollers are rotatably arranged in yarn guiding seats, the kaolin feeding nozzle, the asbestos powder feeding nozzle and the expanding agent feeding nozzle are arranged on a filling substrate production barrel body. The invention can automatically realize the production of the anti-corrosion concrete filling base material, and has reasonable structure and high automation degree.

Description

Anticorrosion concrete filling base material production device

Technical Field

The invention relates to the technical field of concrete production, in particular to a production device of an anti-corrosion concrete filling base material.

Background

The concrete is artificial stone which is prepared by taking cement as a main cementing material, adding water, sand, stones and chemical additives and mineral admixtures if necessary, mixing the materials according to a proper proportion, uniformly stirring, densely molding, curing and hardening. Concrete is mainly divided into two stages and states: plastic state before setting and hardening, namely fresh concrete or concrete mixture; hardened, i.e. hardened concrete or concrete. The concrete strength grade is divided by a cube compressive strength standard value, and the concrete strength grade is divided into 14 grades: c15, C20, C25, C30, C35, C40, C45, C50, C55, C60, C65, C70, C75 and C80.

Concrete is widely applied to the field of construction as a traditional building engineering material, for concrete, corrosion resistance, acid and alkali resistance, compressive strength and splitting tensile strength are important indexes for judging quality, and particularly new requirements are provided for the corrosion resistance of concrete. At present, several solutions are proposed for improving the corrosion resistance of concrete, such as coating a corrosion-resistant material on the surface of a structure, and then adopting a cathodic protection method, etc. The anti-corrosion material is coated on the surface of the structure, so that the anti-corrosion effect is good, but the service life of the anti-corrosion material coated on the surface is short, the anti-corrosion material is easy to age and fall off, the protection effect is lost after the anti-corrosion material falls off, the anti-corrosion effect is lost, and the construction process is needed to be added when the anti-corrosion material is coated on the surface, so that the construction cost is greatly improved. The cathodic protection method is a protection measure aiming at reinforcing steel bars in concrete, and the cathodic protection technology is one of electrochemical protection technologies, and has the principle that an impressed current is applied to the surface of a corroded metal structure, and the protected structure becomes a cathode, so that the electron migration caused by metal corrosion is inhibited, the corrosion is avoided or weakened, but the cathodic protection method cannot play a role in resisting corrosion of the concrete, needs an external power supply, has large interference on adjacent metal structures, and has large maintenance and management workload. At present, many technical schemes for improving the compactness of concrete by simply adding a water reducing agent or a mineral admixture into ordinary portland cement are adopted, and for example, patent publication numbers CN101269941A and CN11107308A are evolved from the above-mentioned technologies, but the corrosion prevention effect is not ideal.

The special anti-corrosion concrete for buildings is prepared by stirring an anti-corrosion concrete gel base material, an anti-corrosion concrete filling base material and water, and has good anti-corrosion performance. The anti-corrosion concrete filling base material is an important base material, and has a good filling effect so as to improve the anti-corrosion performance of the anti-corrosion concrete special for buildings. The anti-corrosion concrete filling base material is prepared by mixing and stirring chopped glass fiber, kaolin, asbestos powder and an expanding agent, but no anti-corrosion concrete filling base material production equipment exists in the current market.

Disclosure of Invention

The invention aims to provide a production device of an anti-corrosion concrete filling base material, which can automatically realize the production of the anti-corrosion concrete filling base material and has reasonable structure and high automation degree.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides an anticorrosion concrete filling base material apparatus for producing, it includes production rack platform, fills substrate production case subassembly, fills substrate production subassembly, yarn cutting glass fiber and throws the material subassembly, kaolin throws the material mouth, asbestos powder throws the material mouth, the expanding agent throws the material mouth, fill substrate production case subassembly including filling substrate production box, filling substrate production staving, filling substrate production box installs on production rack platform, fill substrate production staving and install in filling substrate production box, fill substrate production subassembly including filling substrate agitator motor, filling substrate stirring fulcrum shaft, filling substrate stirring gyrator, fill substrate stirring fulcrum rotatable setting in filling substrate production staving, filling substrate agitator motor installs on production rack platform, filling substrate agitator motor and filling substrate stirring fulcrum coaxial coupling, the filling substrate stirring gyrator is coaxially arranged on the filling substrate stirring fulcrum shaft, the yarn cutting glass fiber feeding assembly comprises a yarn cutting glass fiber feeding hopper, a yarn cutting knife roller, a yarn cutting guide roller support, a synchronous gear, a yarn cutting driving motor, a first yarn cutting bevel gear, a second yarn cutting bevel gear, a yarn supporting roller, a yarn supporting ring, a yarn walking guide inclined table, a yarn guide seat hinge, a yarn guide roller, a glass fiber net roll unwinding fulcrum shaft, a glass fiber net roll unwinding seat, an unwinding support seat, a glass fiber net roll unwinding motor, a glass fiber net roll unwinding first chain wheel, a glass fiber net roll unwinding second chain wheel and a glass fiber net roll unwinding chain, the yarn cutting glass fiber feeding hopper is arranged on the filling substrate production box body, and the lower end of the yarn cutting glass fiber feeding hopper is connected with the upper end of the filling substrate production box body, the yarn cutting guide roller support is arranged on a yarn cutting glass fiber feeding hopper, the two yarn cutting knife rollers are rotatably arranged on the yarn cutting guide roller support, the yarn cutting knife rollers are parallel to each other, yarn cutting blades are arranged on the yarn cutting knife rollers in an staggered mode, a synchronizing gear is coaxially arranged at one end of each yarn cutting knife roller, the two synchronizing gears are meshed with each other, a second yarn cutting bevel gear is coaxially arranged at the other end of one yarn cutting knife roller, a yarn cutting driving motor is arranged on a filling base material production box body and is coaxially connected with a first yarn cutting bevel gear, the first yarn cutting bevel gear is meshed with the second yarn cutting bevel gear, a yarn supporting roller is arranged in the yarn cutting glass fiber feeding hopper, the yarn supporting roller is parallel to the yarn cutting knife rollers, a yarn supporting roller is positioned right below the two yarn cutting knife rollers, yarn supporting rings are uniformly distributed on the yarn supporting roller, the yarn feeding guide inclined tables are arranged at two ends of the inner side of the yarn cutting glass fiber feeding hopper, the yarn guide seats are hinged to the upper end of the yarn cutting glass fiber feeding hopper through yarn guide seat chains, the number of the yarn guide rollers is more than three, the yarn guide rollers are rotatably arranged in the yarn guide seats, the unwinding support seats are arranged on a production rack platform, the glass fiber net unwinding seat is arranged on the unwinding support seat, the glass fiber net unwinding fulcrum shaft is rotatably arranged on the glass fiber net unwinding seat, the glass fiber net is coaxially arranged on the glass fiber net unwinding fulcrum shaft, the glass fiber net unwinding second chain wheel is coaxially arranged at the side end of the glass fiber net unwinding fulcrum shaft, the glass fiber net unwinding motor is arranged on the glass fiber net unwinding seat, and the glass fiber net unwinding motor is connected with the glass fiber net unwinding first coaxial chain wheel, the first chain wheel for unwinding the glass fiber net roll and the second chain wheel for unwinding the glass fiber net roll are connected through a chain for unwinding the glass fiber net roll, and the kaolin feeding nozzle, the asbestos powder feeding nozzle and the expanding agent feeding nozzle are all installed on the filling base material production barrel body and penetrate through the filling base material production box body.

Furthermore, a gel substrate production box door is arranged on the gel substrate production box body, and a handle is arranged on the gel substrate production box door.

Further, the two synchronous gears are both helical gears.

Compared with the prior art, the invention has the following advantages and effects:

1. the recovered glass fiber net roll unwinding motor acts, the glass fiber net roll unwinding fulcrum shaft drives the glass fiber net roll to gradually unwind, the glass fiber net enters between the two yarn cutting knife rollers through the yarn guide roller, the yarn cutting driving motor drives one of the yarn cutting knife rollers to rotate through the first yarn cutting bevel gear and the second yarn cutting bevel gear, the two yarn cutting knife rollers continuously, rapidly and synchronously rotate under the transmission action of the two synchronous gears, and the two yarn cutting knife rollers perform yarn cutting processing on the glass fiber net. And the setting of holding in the palm yarn roller and holding in the palm yarn ring is favorable to realizing the bearing to the glass fiber net, is favorable to the glass fiber net to cut the yarn processing many times, avoids the glass fiber net directly to fall down, effectively avoids the glass fiber net to shred incompletely. The chopped glass fiber falls into a filling base material production barrel body from a chopped glass fiber feeding hopper, and the kaolin, the asbestos powder and the expanding agent are respectively fed into the filling base material production barrel body from a kaolin feeding nozzle, an asbestos powder feeding nozzle and an expanding agent feeding nozzle. And (3) the filling base material stirring motor acts to drive the filling base material stirring gyrator to continuously rotate through the filling base material stirring fulcrum shaft, so that the mixing of the chopped glass fiber, the kaolin, the asbestos powder and the expanding agent is realized, and the anti-corrosion concrete filling base material is formed. The invention can automatically realize the production of the anti-corrosion concrete filling base material, and has reasonable structure and high automation degree.

2. The preparation of the yarn-cut glass fiber in the anti-corrosion concrete gel base material is very critical, and the addition of the yarn-cut glass fiber greatly improves the strength of the anti-corrosion concrete gel base material, improves the strength of the processed product anti-corrosion concrete special for buildings, and improves the corrosion resistance and heat resistance. The kaolin is specially configured for the chopped glass fiber, is white, fine and soft, and has good fusibility and plasticity, and the fusibility and the plasticity of the chopped glass fiber are poor, so that the gel effect of the anti-corrosion concrete gel base material are ensured by utilizing the fusibility and the plasticity of the kaolin.

3. The gel substrate production box body is provided with a gel substrate production box door, and the gel substrate production box door is provided with a handle, so that the maintenance of the anti-corrosion concrete gel substrate production device is facilitated.

4. The two synchronous gears are helical gears, the meshing contact ratio is high, the transmission stability and synchronism are greatly improved, the synchronous action of the two yarn cutting knife rollers is guaranteed, the yarn cutting processing of the glass fiber net roll is realized, the insulating property of the yarn cutting glass fiber is good, the heat resistance is strong, the corrosion resistance is good, and the corrosion resistance of concrete is greatly improved by using the yarn cutting glass fiber as a base material.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a right side view of the present invention.

Fig. 3 is a partial left side view of the present invention.

Fig. 4 is a schematic structural view of the yarn guide seat of the present invention in an open state for inspection.

Fig. 5 is a plan view showing an opened state of inspection of the yarn guide holder of the present invention.

FIG. 6 is a schematic view showing the structure of a yarn cutter roll according to the present invention.

Fig. 7 is a schematic structural view of the yarn feeding guide inclined table.

In the figure: 1. a production rack platform, 2 a filling substrate production box component, 3 a filling substrate production component, 4 a yarn cutting glass fiber feeding component, 5 a kaolin feeding nozzle, 6 an asbestos powder feeding nozzle, 7 an expanding agent feeding nozzle, 8a filling substrate production box, 9 a filling substrate production barrel body, 10 a filling substrate stirring motor, 11 a filling substrate stirring support shaft, 12 a filling substrate stirring gyrator, 13 a yarn cutting glass fiber feeding hopper, 14 a yarn cutting knife roller, 15 a yarn cutting guide roller support, 16 a synchronizing gear, 17 a yarn cutting driving motor, 18 a first yarn cutting bevel gear, 19 a second yarn cutting bevel gear, 20 a yarn supporting roller, 21 a yarn supporting ring, 22 a yarn feeding guide inclined platform, 23 a yarn guide seat, 24 a yarn guide seat hinge, 25 a yarn guide roller, 26 a glass fiber net roll, 27 a glass fiber net roll unwinding roll, 28 a glass fiber net roll unwinding seat, 29. the glass fiber net unwinding device comprises an unwinding support seat, 30 a glass fiber net unwinding motor, 31 a glass fiber net unwinding first chain wheel, 32 a glass fiber net unwinding second chain wheel, 33 a glass fiber net unwinding chain, 34 a gel substrate production box door, 35 a handle and 36 a yarn cutting blade.

Detailed Description

The present invention will be described in further detail below by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not to be construed as limiting the present invention.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7, the anti-corrosion concrete filling base material production device comprises a production rack platform 1, a filling base material production tank assembly 2, a filling base material production assembly 3, a yarn cutting glass fiber feeding assembly 4, a kaolin feeding nozzle 5, an asbestos powder feeding nozzle 6 and an expanding agent feeding nozzle 7.

Fill substrate production case subassembly 2 including filling substrate production box 8, filling substrate production staving 9, fill substrate production box 8 and install on production rack platform 1, fill substrate production staving 9 and install in filling substrate production box 8, be provided with gel substrate production chamber door 34 on the gel substrate production box 8, be provided with handle 35 on the gel substrate production chamber door 34, be favorable to the maintenance of anticorrosion concrete gel substrate apparatus for producing.

Fill substrate production subassembly 3 including filling substrate agitator motor 10, filling substrate stirring fulcrum 11, filling substrate stirring gyrator 12, the rotatable setting of filling substrate stirring fulcrum 11 is in filling substrate production staving 9, filling substrate agitator motor 10 is installed on production rack platform 1, filling substrate agitator motor 10 and filling substrate stirring fulcrum 11 coaxial coupling, filling substrate stirring gyrator 12 is installed on filling substrate stirring fulcrum 11 with the axle center.

The yarn cutting glass fiber feeding assembly 4 comprises a yarn cutting glass fiber feeding hopper 13, a yarn cutting knife roller 14, a yarn cutting guide roller support 15, a synchronous gear 16, a yarn cutting driving motor 17, a first yarn cutting bevel gear 18, a second yarn cutting bevel gear 19, a yarn supporting roller 20, a yarn supporting ring 21, a yarn feeding guide inclined table 22, a yarn guiding seat 23, a yarn guiding seat hinge 24, a yarn guiding roller 25, a glass fiber net roll 26, a glass fiber net roll unwinding fulcrum shaft 27, a glass fiber net roll unwinding seat 28, an unwinding support seat 29, a glass fiber net roll unwinding motor 30, a glass fiber net roll unwinding first chain wheel 31, a glass fiber net roll unwinding second chain wheel 32 and a glass fiber net roll unwinding chain 33, the yarn cutting glass fiber feeding hopper 13 is installed on a filling base material production box 8, the lower end of the yarn cutting glass fiber feeding hopper 13 is connected with the upper end of a filling production box 9, the yarn cutting guide roller support 15 is installed on the yarn cutting glass fiber feeding hopper 13, the two yarn cutting knife rollers 14 are rotatably arranged on the yarn cutting guide roller support 15, the yarn cutting knife rollers 14 are parallel to each other, the yarn cutting knife blades 36 are arranged on the yarn cutting knife rollers 14 in a staggered mode, the synchronous gear 16 is coaxially arranged at one end of the yarn cutting knife rollers 14, the two synchronous gears 16 are meshed with each other, the second yarn cutting bevel gear 19 is coaxially arranged at the other end of one yarn cutting knife roller 14, the yarn cutting driving motor 17 is arranged on the filling base material production box body 8, the yarn cutting driving motor 17 is coaxially connected with the first yarn cutting bevel gear 18, the first yarn cutting bevel gear 18 is meshed with the second yarn cutting bevel gear 19, the two synchronous gears 16 are bevel gears, the meshing coincidence degree is high, the transmission stability and the transmission synchronism are greatly improved, the synchronous action of the two yarn cutting knife rollers 14 is guaranteed, and the yarn cutting processing of the glass fiber net roll 26 is realized, the chopped glass fiber has good insulativity, strong heat resistance and good corrosion resistance, and the chopped glass fiber serving as a base material greatly improves the corrosion resistance of concrete. The yarn supporting roller 20 is arranged in the yarn cutting glass fiber feeding hopper 13, the yarn supporting roller 20 and the yarn cutting knife roller 14 are parallel to each other, the yarn supporting roller 20 is positioned under the two yarn cutting knife rollers 14, the yarn supporting rings 21 are uniformly arranged on the yarn supporting roller 20, the yarn feeding guide inclined tables 22 are arranged at two ends of the inner side of the yarn cutting glass fiber feeding hopper 13, the yarn guide seats 23 are arranged at the upper end of the yarn cutting glass fiber feeding hopper 13 through yarn guide seat hinges 24, the number of the yarn guide rollers 25 is more than three, the yarn guide seats 23 are rotatably arranged in the yarn guide seats, the unwinding support seat 29 is arranged on the production rack platform 1, the glass fiber net unwinding support seat 28 is arranged on the unwinding support seat 29, the glass fiber net unwinding support shaft 27 is rotatably arranged on the glass fiber net unwinding support seat 28, the glass fiber net winding 26 is coaxially arranged on the glass fiber net unwinding support shaft 27, the glass fiber net roll unwinding second chain wheel 32 is coaxially arranged at the side end of the glass fiber net roll unwinding fulcrum shaft 27, the glass fiber net roll unwinding motor 30 is installed on the glass fiber net roll unwinding seat 28, the glass fiber net roll unwinding motor 30 is coaxially connected with the glass fiber net roll unwinding first chain wheel 31, and the glass fiber net roll unwinding first chain wheel 31 and the glass fiber net roll unwinding second chain wheel 32 are connected through a glass fiber net roll unwinding chain 33.

The kaolin feeding nozzle 5, the asbestos powder feeding nozzle 6 and the expanding agent feeding nozzle 7 are all arranged on the filling base material production barrel body 9 and penetrate through the filling base material production box body 8.

According to the technical scheme, when the anticorrosive concrete filling base material production device is used, the recovered glass fiber net roll unwinding motor 30 acts, the glass fiber net roll unwinding fulcrum shaft 27 drives the glass fiber net roll 26 to unwind gradually, the glass fiber net passes through the yarn guide roller 25 and enters between the two yarn cutting knife rollers 14, the yarn cutting driving motor 17 drives one of the yarn cutting knife rollers 14 to rotate through the first yarn cutting bevel gear 18 and the second yarn cutting bevel gear 19, the two yarn cutting knife rollers 14 continuously and rapidly rotate synchronously under the transmission action of the two synchronous gears 16, and the two yarn cutting knife rollers 14 perform yarn cutting processing on the glass fiber net. And the setting of holding in the palm yarn roller 20 and holding in the palm yarn ring 21 is favorable to realizing the bearing to the glass fiber net, is favorable to the glass fiber net to cut the yarn processing many times, avoids the glass fiber net directly to fall down, effectively avoids the glass fiber net to shred incompletely. The chopped glass fiber falls into a filling base material production barrel body 9 from a chopped glass fiber feeding hopper 13, and kaolin, asbestos powder and an expanding agent are respectively fed into the filling base material production barrel body 9 from a kaolin feeding nozzle 5, an asbestos powder feeding nozzle 6 and an expanding agent feeding nozzle 7. The filling base material stirring motor 10 acts to drive the filling base material stirring gyrator 12 to continuously rotate through the filling base material stirring fulcrum shaft 11, so that the mixing of the chopped glass fiber, the kaolin, the asbestos powder and the expanding agent is realized, and the anti-corrosion concrete filling base material is formed.

The above description of the present invention is intended to be illustrative. Various modifications, additions and substitutions for the specific embodiments described may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (3)

1. The utility model provides an anticorrosion concrete filling base material apparatus for producing which characterized in that: it comprises a production rack platform, a filling substrate production box component, a filling substrate production component, a yarn-cutting glass fiber feeding component, a kaolin feeding nozzle, an asbestos powder feeding nozzle and an expanding agent feeding nozzle, wherein the filling substrate production box component comprises a filling substrate production box body and a filling substrate production barrel body, the filling substrate production box body is arranged on the production rack platform, the filling substrate production barrel body is arranged in the filling substrate production box body, the filling substrate production component comprises a filling substrate stirring motor, a filling substrate stirring fulcrum shaft and a filling substrate stirring gyrator, the filling substrate stirring fulcrum shaft is rotatably arranged in the filling substrate production barrel body, the filling substrate stirring motor is arranged on the production rack platform, the filling substrate stirring motor and the filling substrate stirring fulcrum shaft are coaxially connected, the filling substrate stirring gyrator is coaxially arranged on the filling substrate stirring fulcrum shaft, the yarn cutting glass fiber feeding assembly comprises a yarn cutting glass fiber feeding hopper, a yarn cutting knife roller, a yarn cutting guide roller support, a synchronous gear, a yarn cutting driving motor, a first yarn cutting bevel gear, a second yarn cutting bevel gear, a yarn supporting roller, a yarn supporting ring, a yarn feeding guide inclined platform, a yarn guide seat hinge, a yarn guide roller, a glass fiber net roll unwinding fulcrum shaft, a glass fiber net roll unwinding seat, an unwinding support seat, a glass fiber net roll unwinding motor, a glass fiber net roll unwinding first chain wheel, a glass fiber net roll unwinding second chain wheel and a glass fiber net roll unwinding and unwinding chain, wherein the yarn cutting glass fiber feeding hopper is arranged on a filling base material production box body, the lower end of the yarn cutting glass fiber feeding hopper is connected with the upper end of the filling base material production box body, the yarn cutting guide roller support is arranged on the yarn cutting glass fiber feeding hopper, and the two yarn cutting knife rollers are rotatably arranged on the yarn cutting guide roller support, the yarn cutting knife rollers are parallel to each other, the yarn cutting knife rollers are provided with yarn cutting blades in an staggered manner, the synchronizing gears are coaxially arranged at one end of the yarn cutting knife rollers, the two synchronizing gears are meshed with each other, the second yarn cutting bevel gear is coaxially arranged at the other end of one yarn cutting knife roller, the yarn cutting driving motor is arranged on a filling base material production box body, the yarn cutting driving motor is coaxially connected with the first yarn cutting bevel gear, the first yarn cutting bevel gear is meshed with the second yarn cutting bevel gear, the yarn supporting rollers are arranged in a yarn cutting glass fiber feeding hopper, the yarn supporting rollers are parallel to the yarn cutting knife rollers, the yarn supporting rollers are positioned under the two yarn cutting knife rollers, yarn supporting rings are uniformly arranged on the yarn supporting rollers, yarn feeding guide inclined tables are arranged at two ends of the inner side of the yarn cutting glass fiber feeding hopper, the yarn guide seats are arranged at the upper end of the yarn cutting glass fiber feeding hopper through yarn guide seat hinges, the glass fiber net unwinding device comprises yarn guide rollers, an unwinding support seat, a glass fiber net unwinding support shaft, a glass fiber net unwinding motor, a glass fiber net unwinding chain wheel, a kaolin feeding nozzle, a glass fiber net unwinding support seat and a kaolin feeding nozzle, wherein the yarn guide rollers are more than three in number and are rotatably arranged in the yarn guide seat, the glass fiber net unwinding support seat is arranged on the glass fiber net unwinding support seat in a rotatable manner, the glass fiber net unwinding support seat is coaxially arranged on the glass fiber net unwinding support seat, the asbestos powder feeding nozzle and the expanding agent feeding nozzle are both arranged on the filling base material production barrel body and penetrate through the filling base material production box body.

2. An apparatus for producing an anti-corrosive concrete filling base material according to claim 1, wherein: the gel substrate production box body is provided with a gel substrate production box door, and the gel substrate production box door is provided with a handle.

3. An apparatus for producing an anti-corrosive concrete filling base material according to claim 1, wherein: and the two synchronous gears are helical gears.

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