CN114770746A - Processing technology of energy-saving environment-friendly pervious concrete - Google Patents

Abstract

The invention belongs to the technical field of concrete processing, in particular to a processing technology of energy-saving and environment-friendly pervious concrete, wherein, the processing device comprises a cylinder body, the lower end of the cylinder body is provided with a discharge valve, the upper end of the cylinder body is fixedly connected with a top plate through a plurality of support rods, the upper end of the top plate is provided with a driving cylinder, the output end of the driving cylinder downwards penetrates through the top plate and is fixedly connected with a conical hopper, the middle part of the lower end of the conical hopper is provided with an internal thread cylinder communicated with the internal thread cylinder, the inner side of the internal thread cylinder is in threaded connection with a vertical pipe rotationally connected with the lower end of the top plate, the lower part of the side surface of the vertical pipe is provided with a plurality of stirring pieces, the upper part of the side surface of the vertical pipe is provided with a plurality of feeding grooves, when the processing technology adds ice blocks into the mixture, the ice blocks are directly injected into the middle part of the mixture, therefore, the ice blocks are not required to be extruded by the workers, so that the labor intensity of the workers can be reduced, and the working efficiency can be improved.

Description

Processing technology of energy-saving environment-friendly pervious concrete

Technical Field

The invention belongs to the technical field of concrete processing, and particularly relates to a processing technology of energy-saving and environment-friendly pervious concrete.

Background

The processing technology provided by the application is that small ice blocks are added into some existing concrete raw materials, and the small ice blocks can occupy partial space inside a mixture, so that after the energy-saving and environment-friendly pervious concrete is solidified, the ice blocks are gradually melted to form pores, namely, the addition of the ice blocks reserves the pores for an energy-saving and environment-friendly pervious concrete final product and protects the reserved pores, and a large number of pores are effectively prevented from being damaged under higher pressure, so that the energy-saving and environment-friendly pervious concrete obtains high pressure resistance and high water permeability.

The concrete processing technology discloses adding ice blocks into a mixture, but does not disclose a better ice block adding mode, the conventional adding mode is directly poured onto the mixture at present, because the density of the ice blocks is smaller than that of the mixture, the ice blocks are poured onto the mixture and are difficult to sink and blend into the mixture for stirring, generally, manual tools are required to extrude the ice blocks to blend into the mixture, the labor intensity of workers is not increased, the working efficiency is also reduced, and aiming at the problems, an energy-saving environment-friendly water-permeable concrete processing technology is provided

Disclosure of Invention

The purpose of the invention is: aims to provide a processing technology of energy-saving and environment-friendly pervious concrete, which is used for solving the problems in the background technology.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows:

a processing technology of energy-saving and environment-friendly pervious concrete comprises the following steps:

s1: when the concrete is manufactured, cement, gypsum powder, silica fume, aggregate, a water reducing agent and water are poured into the cylinder from the upper side of the cylinder of the processing device, and the lower end of the vertical pipe is submerged;

s2: the output end of the driving cylinder is controlled to extend and retract circularly, so that the conical hopper moves up and down circularly, the conical hopper can drive the internal thread cylinder to move up and down circularly when moving up and down circularly, the vertical pipe is forced to rotate forward and backward alternately, and various concrete raw materials are stirred by the stirring piece when the vertical pipe rotates, so that a mixture is formed;

s3: after the mixture is uniformly stirred, controlling the driving cylinder to stop moving, then pouring ice blocks on the conical hopper, and then controlling the output end of the driving cylinder to extend and retract circularly;

s4: the output end of the driving cylinder is controlled to extend and retract circularly, so that the conical hopper moves up and down circularly, ice blocks in the conical hopper fall into the vertical pipe through the feed chute under the action of gravity, and when the conical hopper moves upwards, the vertical pipe rotates forwards, so that the vertical pipe drives the first crown gear to rotate forwards, and when the first crown gear rotates forwards, the vertical shaft is driven to rotate forwards through the elastic pawl mechanism on the lower side and the ratchet wheel on the lower side, so that the screw conveying propeller rotates forwards to drive the ice blocks in the vertical pipe to convey downwards;

when the conical hopper moves downwards, the vertical pipe can rotate reversely, so that the vertical pipe can drive the first crown gear to rotate reversely, the first crown gear can drive the second crown gear to rotate forward through the intermediate gear when rotating reversely, and the second crown gear can drive the vertical shaft to rotate forward through the elastic pawl mechanism at the upper side and the ratchet wheel at the upper side when rotating forward, so that the screw conveying propeller can drive the ice blocks in the vertical pipe to convey downwards through rotating forward;

so that ice blocks in the conical hopper are continuously conveyed to the middle part of the mixture, and the ice blocks are directly blended into the concrete raw materials to participate in stirring;

s5: when discharging the concrete, controlling the discharge valve to open, and discharging the concrete in the cylinder body through the discharge valve;

the processing device in the S1 comprises a barrel, wherein a discharge valve is arranged at the lower end of the barrel, a top plate is fixedly connected to the upper end of the barrel through a plurality of support rods, a driving cylinder is arranged at the upper end of the top plate, the output end of the driving cylinder penetrates through the top plate downwards and is fixedly connected with a conical hopper, an internal thread barrel communicated with the internal thread barrel is arranged in the middle of the lower end of the conical hopper, a vertical pipe rotatably connected with the lower end of the top plate is in threaded connection with the inner side of the internal thread barrel, a plurality of stirring pieces are arranged at the lower part of the side face of the vertical pipe, and a plurality of feeding grooves are formed in the upper part of the side face of the vertical pipe;

a rectangular housing is fixedly connected to the middle of the lower end of the top plate, a supporting plate is fixedly connected to the lower end of the rectangular housing, a circular groove matched with the vertical pipe is formed in the middle of the supporting plate, the vertical pipe is sleeved in the circular groove, and limiting rings fixedly connected with the vertical pipe are arranged on the upper side and the lower side of the supporting plate;

the upper end of the vertical pipe is fixedly connected with a first crown gear, the lower end of the top plate is rotatably connected with a second crown gear with the same specification as the first crown gear, the inner side of the rectangular housing is rotatably connected with an intermediate gear which is simultaneously meshed with the first crown gear and the second crown gear, the lower end of the top plate is rotatably connected with a vertical shaft which sequentially penetrates through the second crown gear and the first crown gear, the lower end of the vertical shaft extends into the vertical pipe and is fixedly connected with a spiral conveying paddle matched with the vertical pipe, and when the spiral conveying paddle rotates forwards, ice cubes on the inner side of the vertical pipe can be conveyed downwards;

first crown gear and the relative one side of second crown gear all are equipped with the ratchet with the vertical axis rigid coupling, two the ratchet orientation of ratchet is the same, the equal rigid coupling in the relative one side of first crown gear and second crown gear has with the homonymy ratchet matched with elasticity pawl mechanism, elasticity pawl mechanism has open-ended smooth box including one end, smooth box inboard has spring and pawl from inside to outside in proper order assembled, the pawl can keep the butt with the ratchet under the elastic force effect of spring, can pass through pawl drive ratchet forward rotation when elasticity pawl mechanism forward rotates.

The lower end of the vertical pipe is connected with two distribution pipes, and the two distribution pipes are connected with the vertical pipe in an inverted V shape.

The invention provides a processing technology of energy-saving environment-friendly pervious concrete, which is characterized in that when ice blocks are added into a mixture, the ice blocks are directly injected into the middle of the mixture, so that workers do not need to extrude the ice blocks, the labor intensity of the workers can be reduced, and the working efficiency can be improved.

Drawings

The invention is further illustrated by the non-limiting examples given in the figures.

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

FIG. 2 is a schematic cross-sectional view of a portion of the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2;

fig. 4 is an enlarged schematic view of the structure at B in fig. 3.

The main element symbols are as follows:

the device comprises a barrel body 1, a discharge valve 11, a top plate 21, a driving cylinder 22, a cone-shaped hopper 23, an internal thread barrel 24, a vertical pipe 25, a stirring piece 251, a feeding groove 26, a distribution pipe 4, a rectangular housing 41, a supporting plate 42, a limiting ring 44, a first crown gear 5, a second crown gear 51, an intermediate gear 52, a vertical shaft 53, a spiral conveying paddle 54, a ratchet wheel 55, a sliding box 6, a spring 61 and a pawl 62.

Detailed Description

In order that those skilled in the art can better understand the present invention, the following technical solutions are further described with reference to the accompanying drawings and examples.

As shown in figures 1-4, the processing technology of the energy-saving environment-friendly pervious concrete comprises the following steps:

s1: when the concrete is manufactured, cement, gypsum powder, silica fume, aggregate, a water reducing agent and water are poured into the cylinder body 1 from the upper side of the cylinder body 1 of the processing device, and the lower end of the vertical pipe 25 is submerged;

s2: the output end of the driving cylinder 22 is controlled to extend and retract circularly, so that the conical hopper 23 moves up and down circularly, the conical hopper 23 drives the internal thread cylinder 24 to move up and down circularly when moving up and down circularly, the vertical pipe 25 is forced to rotate forward and backward alternately, and when the vertical pipe 25 rotates, various concrete raw materials are stirred by the stirring piece 251 to form a mixture;

s3: after the mixture is uniformly stirred, controlling the driving cylinder 22 to stop moving, then pouring ice blocks on the conical hopper 23, and then controlling the output end of the driving cylinder 22 to extend and retract circularly;

s4: the output end of the driving cylinder 22 is controlled to extend and retract circularly, so that the cone hopper 23 moves up and down circularly, ice cubes in the cone hopper 23 fall into the vertical pipe 25 through the feed chute 26 under the action of gravity, and when the cone hopper 23 moves upwards, the vertical pipe 25 rotates forwards, so that the vertical pipe 25 drives the first crown gear 5 to rotate forwards, and when the first crown gear 5 rotates forwards, the vertical shaft 53 is driven to rotate forwards through the elastic pawl mechanism at the lower side and the ratchet wheel 55 at the lower side, so that the spiral conveying propeller 54 rotates forwards to drive the ice cubes in the vertical pipe 25 to convey downwards;

when the conical hopper 23 moves downwards, the vertical pipe 25 rotates in the reverse direction, so that the vertical pipe 25 drives the first crown gear 5 to rotate in the reverse direction, the first crown gear 5 rotates in the reverse direction and drives the second crown gear 51 to rotate in the forward direction through the intermediate gear 52, and the second crown gear 51 rotates in the forward direction and drives the vertical shaft 53 to rotate in the forward direction through the elastic pawl mechanism on the upper side and the ratchet wheel 55 on the upper side, so that the spiral conveying paddle 54 rotates in the forward direction and drives the ice blocks in the vertical pipe 25 to convey downwards;

so that the ice blocks in the conical hopper 23 are continuously conveyed to the middle part of the mixture, and the ice blocks are directly melted into the concrete raw material to participate in stirring;

s5: when discharging the concrete, controlling the discharge valve 11 to open, and discharging the concrete in the cylinder body 1 through the discharge valve 11;

the processing device in the S1 comprises a barrel body 1, wherein a discharge valve 11 is arranged at the lower end of the barrel body 1, a top plate 21 is fixedly connected to the upper end of the barrel body 1 through a plurality of support rods 2, a driving cylinder 22 is arranged at the upper end of the top plate 21, the output end of the driving cylinder 22 downwards penetrates through the top plate 21 and is fixedly connected with a conical hopper 23, an internal thread barrel 24 communicated with the conical hopper 23 is arranged in the middle of the lower end of the conical hopper 23, a vertical pipe 25 rotatably connected with the lower end of the top plate 21 is in threaded connection with the inner side of the internal thread barrel 24, a plurality of stirring members 251 are arranged at the lower part of the side surface of the vertical pipe 25, and a plurality of feeding grooves 26 are arranged at the upper part of the side surface of the vertical pipe 25;

the middle part of the lower end of the top plate 21 is fixedly connected with a rectangular housing 41, the lower end of the rectangular housing 41 is fixedly connected with a supporting plate 42, the middle part of the supporting plate 42 is provided with a circular groove 43 matched with the vertical pipe 25, the vertical pipe 25 is sleeved in the circular groove 43, and the upper side and the lower side of the supporting plate 42 are provided with limiting rings 44 fixedly connected with the vertical pipe 25, so that the vertical pipe 25 and the top plate 21 can be rotatably connected.

The upper end of the vertical pipe 25 is fixedly connected with a first crown gear 5, the lower end of the top plate 21 is rotatably connected with a second crown gear 51 with the same specification as the first crown gear 5, the inner side of the rectangular housing 41 is rotatably connected with an intermediate gear 52 which is simultaneously meshed with the first crown gear 5 and the second crown gear 51, the lower end of the top plate 21 is rotatably connected with a vertical shaft 53 which sequentially penetrates through the second crown gear 51 and the first crown gear 5, the lower end of the vertical shaft 53 extends into the vertical pipe 25 and is fixedly connected with a spiral conveying paddle 54 matched with the vertical pipe 25, and when the spiral conveying paddle 54 rotates forwards, ice blocks on the inner side of the vertical pipe 25 can be conveyed to the lower side;

the opposite sides of the first crown gear 5 and the second crown gear 51 are respectively provided with a ratchet wheel 55 fixedly connected with the vertical shaft 53, the directions of the ratchets of the two ratchet wheels 55 are the same, the opposite sides of the first crown gear 5 and the second crown gear 51 are respectively fixedly connected with an elastic pawl mechanism matched with the ratchet wheel 55 on the same side, the elastic pawl mechanism comprises a slide box 6 with an opening at one end, the inner side of the slide box 6 is sequentially provided with a spring 61 and a pawl 62 from inside to outside, the pawl 62 can be kept in butt joint with the ratchet wheel 55 under the elastic force action of the spring 61, the ratchet wheel 55 can be driven to rotate positively by the pawl 62 when the elastic pawl mechanism rotates positively, and on the contrary, the pawl 62 can be collected into the slide box 6 under the guiding action of the ratchets of the ratchet wheel 55 and overcomes the elastic force of the spring 61 when the elastic pawl mechanism rotates reversely, so that the pawl 62 sweeps across the side surface of the ratchet wheel 55.

When actuating cylinder 22 drive output end circulation is flexible, the toper fill 23 can circulate and carry out the up-and-down motion, and when the toper was fought 23 circulation and is carried out the up-and-down motion, because standpipe 25 and 24 threaded connection of internal thread section of thick bamboo, and rotate with roof 21 and be connected, consequently the toper fill 23 up-and-down motion can force standpipe 25 to carry out forward rotation and antiport, just so can carry out forward stirring and antiport through stirring piece 251 to the concrete raw materials, the stirring of two kinds of directions can strengthen the stirring effect.

When the vertical pipe 25 rotates forward, the first crown gear 5 is driven to rotate forward, when the first crown gear 5 rotates forward, the elastic pawl mechanism on the lower side can cooperate with the ratchet wheel 55 on the lower side to drive the vertical shaft 53 to rotate forward, while the second crown gear 51 is driven by the intermediate gear 52 to rotate backward, when the second crown gear 51 rotates backward, the elastic pawl mechanism on the upper side can sweep from the side of the ratchet wheel 55 on the upper side, and the vertical shaft 53 cannot be driven to rotate backward, so that when the vertical pipe 25 rotates forward, the vertical shaft 53 can be driven to rotate forward;

can drive first crown gear 5 when standpipe 25 antiport and carry out antiport, during first crown gear 5 antiport, the elastic pawl mechanism of downside can sweep from the ratchet 55 side of downside, can not drive vertical axis 53 and carry out antiport, and second crown gear 51 is driven by intermediate gear 52 and carries out forward rotation, the elastic pawl mechanism of upside can forward rotation when second crown gear 51 forward rotation, the elastic pawl mechanism forward rotation of upside just can cooperate the ratchet 55 of upside to drive vertical axis 53 and carry out forward rotation, therefore, can drive vertical axis 53 and carry out forward rotation equally during standpipe 25 antiport, auger delivery oar 54 just can continuously carry the ice-cube downwards like this.

When the output end of the driving cylinder 22 is in a fully extended state, the lower end of the feed chute 26 is aligned with the lower end of the inner side of the tapered bucket 23, and the length of the internally threaded cylinder 24 is greater than the telescopic stroke of the output end of the driving cylinder 22.

Standpipe 25 lower extreme is connected with two distributing pipes 4, is the V-arrangement of falling between two distributing pipes 4 and the standpipe 25 and is connected, and two distributing pipes 4 can be shunted the ice-cube to both sides, make the ice-cube can disperse the injection, can further reduce the mixing degree of difficulty like this to promote mixing efficiency.

This processing technology is when adding the ice-cube to the mixture, and the ice-cube is direct injection to the mixture middle part, just so need not the staff and extrudees the processing to the ice-cube again, just so can reduce staff's intensity of labour, can also promote work efficiency simultaneously.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (2)

1. The processing technology of the energy-saving environment-friendly pervious concrete is characterized by comprising the following steps of: the process comprises the following steps:

s1: when the concrete is manufactured, cement, gypsum powder, silica fume, aggregate, a water reducing agent and water are poured into the cylinder from the upper side of the cylinder of the processing device, and the lower end of the vertical pipe is submerged;

s2: the output end of the driving cylinder is controlled to extend and retract circularly, so that the conical hopper moves up and down circularly, the conical hopper can drive the internal thread cylinder to move up and down circularly when moving up and down circularly, the vertical pipe is forced to rotate forward and backward alternately, and various concrete raw materials are stirred by the stirring piece when the vertical pipe rotates, so that a mixture is formed;

s3: after the mixture is uniformly stirred, controlling the driving cylinder to stop moving, then pouring ice blocks on the conical hopper, and then controlling the output end of the driving cylinder to extend and retract circularly;

s4: the output end of the driving cylinder is controlled to extend and retract circularly, so that the conical hopper moves up and down circularly, ice blocks in the conical hopper fall into the vertical pipe through the feed chute under the action of gravity, and when the conical hopper moves upwards, the vertical pipe rotates forwards, so that the vertical pipe drives the first crown gear to rotate forwards, and when the first crown gear rotates forwards, the vertical shaft is driven to rotate forwards through the elastic pawl mechanism on the lower side and the ratchet wheel on the lower side, so that the screw conveying propeller rotates forwards to drive the ice blocks in the vertical pipe to convey downwards;

when the conical hopper moves downwards, the vertical pipe can rotate reversely, so that the vertical pipe can drive the first crown gear to rotate reversely, the first crown gear can drive the second crown gear to rotate forward through the intermediate gear when rotating reversely, and the second crown gear can drive the vertical shaft to rotate forward through the elastic pawl mechanism at the upper side and the ratchet wheel at the upper side when rotating forward, so that the screw conveying propeller can drive the ice blocks in the vertical pipe to convey downwards through rotating forward;

so that ice blocks in the conical hopper are continuously conveyed to the middle part of the mixture, and the ice blocks are directly blended into the concrete raw materials to participate in stirring;

s5: when discharging the concrete, controlling the discharge valve to open, and discharging the concrete in the cylinder body through the discharge valve;

the processing device in the S1 comprises a barrel, wherein a discharge valve is arranged at the lower end of the barrel, a top plate is fixedly connected to the upper end of the barrel through a plurality of support rods, a driving cylinder is arranged at the upper end of the top plate, the output end of the driving cylinder downwards penetrates through the top plate and is fixedly connected with a conical hopper, an internal thread barrel communicated with the conical hopper is arranged in the middle of the lower end of the conical hopper, a vertical pipe rotatably connected with the lower end of the top plate is in threaded connection with the inner side of the internal thread barrel, a plurality of stirring pieces are arranged at the lower part of the side surface of the vertical pipe, and a plurality of feed chutes are formed in the upper part of the side surface of the vertical pipe;

a rectangular housing is fixedly connected to the middle of the lower end of the top plate, a supporting plate is fixedly connected to the lower end of the rectangular housing, a circular groove matched with the vertical pipe is formed in the middle of the supporting plate, the vertical pipe is sleeved in the circular groove, and limiting rings fixedly connected with the vertical pipe are arranged on the upper side and the lower side of the supporting plate;

the upper end of the vertical pipe is fixedly connected with a first crown gear, the lower end of the top plate is rotatably connected with a second crown gear with the same specification as the first crown gear, the inner side of the rectangular housing is rotatably connected with an intermediate gear which is simultaneously meshed with the first crown gear and the second crown gear, the lower end of the top plate is rotatably connected with a vertical shaft which sequentially penetrates through the second crown gear and the first crown gear, the lower end of the vertical shaft extends into the vertical pipe and is fixedly connected with a spiral conveying paddle matched with the vertical pipe, and when the spiral conveying paddle rotates forwards, ice cubes on the inner side of the vertical pipe can be conveyed downwards;

first crown gear and the relative one side of second crown gear all are equipped with the ratchet with the vertical axis rigid coupling, two the ratchet orientation of ratchet is the same, the equal rigid coupling in the relative one side of first crown gear and second crown gear has with the homonymy ratchet matched with elasticity pawl mechanism, elasticity pawl mechanism has open-ended smooth box including one end, smooth box inboard has spring and pawl from inside to outside in proper order assembled, the pawl can keep the butt with the ratchet under the elastic force effect of spring, can pass through pawl drive ratchet forward rotation when elasticity pawl mechanism forward rotates.

2. The processing apparatus according to claim 1, wherein: the lower end of the vertical pipe is connected with two distribution pipes, and the two distribution pipes are connected with the vertical pipe in an inverted V shape.

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