CN114523574A - Production system and process for regenerated high-quality water permeable brick - Google Patents

Abstract

The invention discloses a production system of regenerated high-quality water permeable bricks, and simultaneously discloses a production system of regenerated high-quality water permeable bricks and a process thereof, which comprises a powder tank, a conveying component and a weighing component, and relates to the technical field of water permeable brick production, when powder is discharged and falls, the powder falls into a bearing frame plate at the inner side of a material receiving machine body, a weight sensor at the lower end of the bearing frame plate is used for weighing the powder in the bearing frame plate, when the weight of the powder reaches a preset value, a central processing component starts a rodless cylinder to enable a sliding block at the upper end of the rodless cylinder to slide, the bearing frame plate is driven to synchronously move when the sliding block slides, the bearing frame plate can pour the weighed powder out for processing, and when the bearing frame plate penetrates to the outer side of a discharge port, the bearing frame plate synchronously drives a positioning frame plate at the rear end to move to penetrate through a through groove, so that the positioning frame plate is positioned at the upper end of the material receiving machine body to receive the powder discharged by a spiral conveyor, avoiding causing the powder to leak and waste.

Description

Production system and process of regenerated high-quality water permeable brick

Technical Field

The invention relates to the technical field of permeable brick production, in particular to a system and a process for producing regenerated high-quality permeable bricks.

Background

Water permeable brick: the brick is also called a water seepage brick, a dutch brick and the like, belongs to a novel green environment-friendly building material, and is mainly formed by high pressure by adopting environment-friendly materials such as cement, sand, slag, fly ash and the like as raw materials, so that the brick cannot be fired at high temperature; the whole brick is formed by one-time compression, and the pressing in layers is avoided, so that the homogeneous brick with consistent upper and lower layers is formed. The surface has no cracking and delamination phenomena; the wear resistance is good, the surface is not dropped after extrusion, and the extrusion die is suitable for higher load-bearing use environment; good water permeability and strong anti-skid function; the color is natural and lasting. The service life is long; the appearance is smooth, the corners are clear, and the lines are neat; the freezing resistance and the saline-alkali resistance are high; the material is not easy to break, the compression strength and the breaking strength are higher than those of similar products, and the running is safe; the maintenance cost is low, the replacement is easy, and the pipeline can be conveniently buried under the pavement; the color and the shape are various, and the color and the shape are contrasted with the surrounding environment, so the color is natural and beautiful.

When the brick that permeates water is when producing, the powder of brick that permeates water need be weighed, prepare according to the proportion of ratio afterwards, many production line regeneration processing that the brick production technology that permeates water now all is the integral type, when the powder of brick that permeates water weighs and reachs the predetermined value, need take out the powder after weighing, at this moment if conveying equipment does not stop the transportation powder, when the powder after weighing takes out, carry out the powder still continuously and discharge, if discharge on the powder after weighing will influence the data precision that wholly weighs, if will hold the carrier of powder after weighing and take out, and the powder of output will leak subaerial, not only the resource is wasted, also can the polluted environment simultaneously, and if when stopping the machine and taking out the powder after weighing, will influence holistic machining efficiency.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above and/or the problems occurring in the existing regenerated high-quality water permeable brick production system and process thereof.

Therefore, the problem to be solved by the invention is how to provide a production system and a process for regenerating high-quality water permeable bricks.

In order to solve the technical problems, the invention provides the following technical scheme: the production system of the regenerated high-quality water permeable brick comprises a powder tank and a conveying assembly, wherein the conveying assembly is installed on one side of the powder tank, the lower end of one side, away from the powder tank, of the conveying assembly is provided with a weighing assembly, the upper end of the powder tank is provided with a suction pump, and one end of the suction pump is connected with the conveying assembly through a conveying pipe;

the conveying assembly comprises a supporting frame installed at the lower end of the conveying assembly, a spiral conveyor is connected to the upper end of the supporting frame, a cover plate is installed at the upper end of the spiral conveyor, and a discharge plate is further arranged on one side of the lower end of the spiral conveyor.

Based on the technical characteristics: the powder is stored at the inner side of the powder tank, when the powder needs to be processed, the powder is pumped into the screw conveyer through the suction pump and the material conveying pipe for conveying, the powder is discharged from the screw conveyer through the discharge plate through two groups of screw rods,

as a preferred scheme of the production system of the regenerated high-quality water permeable brick, the production system comprises the following steps: the screw conveyer comprises two groups of screw rods arranged in an inner cavity of the screw conveyer, one end of each group of screw rods is connected with a rotating shaft, one end, far away from the discharge plate, of the screw conveyer is provided with a driving motor box, and the output end of the driving motor box is connected with the rotating shaft.

Based on the technical characteristics: the driving motor box drives the rotating shaft to rotate, and the rotating shaft is connected with the screw conveyer to drive the screw conveyer to synchronously rotate so as to output powder.

As a preferred scheme of the production system of the regenerated high-quality water permeable brick, the production system comprises the following steps: the weighing assembly comprises a material receiving machine body arranged on one side of the lower end of the spiral conveyor, the upper end of an inner cavity of the material receiving machine body is connected with a bearing frame plate, and the rear end of the bearing frame plate is connected with a positioning frame plate.

Based on the technical characteristics: when the powder is discharged and falls, the powder falls into a bearing frame plate on the inner side of the material receiving machine body for weighing.

As a preferred scheme of the production system of the regenerated high-quality water permeable brick, the production system comprises the following steps: the material receiving machine body comprises a display screen and a discharge port, the display screen is mounted at the lower end of the front side of the material receiving machine body, the discharge port is formed in the upper end of the front side of the material receiving machine body, the bearing frame plate penetrates through the inner side of the discharge port, sliding grooves are formed in the inner walls of the two sides of the material receiving machine body, and through grooves are formed in one end, away from the discharge port, of the material receiving machine body in a symmetrical mode.

Based on the technical characteristics: the bearing frame plate can be penetrated through the inner side of the discharge hole, and the positioning frame plate can be penetrated through the inner side of the through groove.

As a preferred scheme of the production system of the regenerated high-quality water permeable brick, the production system comprises the following steps: the through groove comprises a tightly bent plate welded at the upper end of the through groove, the tightly bent plate is positioned on the upper side of the rear end of the bearing frame plate, and the positioning frame plate penetrates through the inner side of the through groove.

Based on the technical characteristics: the abutting bending plate can abut against the limiting part on the inner side of the positioning frame plate, so that the positioning frame plate and the limiting part can be separated to form a splayed shape.

As a preferable scheme of the production system of the regenerated high-quality water permeable brick of the invention, the production system comprises: the bearing frame plate comprises sliding plates connected with two sides of the bearing frame plate, the bearing frame plate is connected with the sliding groove in a sliding mode through the sliding plates, two groups of rodless cylinders are arranged at the lower end of the bearing frame plate, and a connecting bottom plate is connected between the two groups of rodless cylinders.

Based on the technical characteristics: the bearing frame plate penetrates through the discharge hole when moving, and the two sides of the bearing frame plate slide on the inner side of the sliding groove through the sliding plate, so that the bearing frame plate can pour out the weighed powder for further processing.

As a preferred scheme of the production system of the regenerated high-quality water permeable brick, the production system comprises the following steps: the rodless cylinder comprises a sliding block connected with the upper end of the rodless cylinder in a sliding mode, the two ends of the connecting bottom plate are connected with one side of the sliding block, the upper end of the sliding block is welded with a connecting rod, and the lower end of the bearing frame plate is connected with the sliding block through the connecting rod.

As a preferred scheme of the production system of the regenerated high-quality water permeable brick, the production system comprises the following steps: the connecting bottom plate comprises a weight sensor arranged at the upper end of the connecting bottom plate, the weight sensor is connected with the weight sensor, a central processing assembly is further arranged at the lower end of the connecting bottom plate, and the central processing assembly is electrically connected with the display screen, the rodless cylinder and the weight sensor.

Based on the technical characteristics: the weight sensor at the lower end of the bearing frame plate is used for weighing the powder in the bearing frame plate, the weighed amount is displayed through the display screen, when the weight of the powder reaches a preset value, the central processing component starts the rodless cylinder to enable the sliding block at the upper end of the rodless cylinder to slide, when the sliding block slides, the connecting rod at the upper end drives the bearing frame plate to synchronously move,

as a preferred scheme of the production system of the regenerated high-quality water permeable brick, the production system comprises the following steps: the positioning frame plate comprises a first limiting plate, one side of the first limiting plate is movably hinged, the other side of the positioning frame plate is movably hinged with a second limiting plate, the first limiting plate and the second limiting plate are connected with the inner wall of the positioning frame plate through buffer springs, and the first limiting plate and the second limiting plate are connected in a V shape.

Based on the technical characteristics: when the bearing frame plate penetrates to the outer side of the discharge port, the bearing frame plate synchronously drives the positioning frame plate at the rear end to move to penetrate through the through groove, so that the positioning frame plate is positioned at the upper end of the material receiving machine body and receives powder discharged by the screw conveyor, after the bearing frame plate discharges the original powder, the rodless cylinder drives the bearing frame plate to return to the original position through the sliding block, the positioning frame plate also moves backwards to the original position, two sides of one end of the positioning frame plate form a V shape through the first limiting plate and the second limiting plate to contain and limit the powder, one ends of the first limiting plate and the second limiting plate are movably hinged with two sides of the positioning frame plate, when the positioning frame plate moves backwards through the through groove, the tightly-supported bent plate at the upper end of the through groove tightly supports the first limiting plate and the second limiting plate, the first limiting plate and the second limiting plate also extrude the buffer spring at one side to deform the first limiting plate and the second limiting plate, and the first limiting plate and the second limiting plate are extruded and separated to form a splayed shape, originally, the powder contained in the inner side of the positioning frame plate slides to the inner side of the bearing frame plate through a gap between the first limiting plate and the second limiting plate.

The invention provides another technical scheme that: the production system and the process for the regenerated high-quality water permeable brick comprise the following steps:

s1: taking the powder for preparing the water permeable brick out of the powder tank, then weighing and conveying the powder into a backing material stirrer and a surface material stirrer through a screw conveyor and the powder, and simultaneously adding some additives into the backing material stirrer and the surface material stirrer for stirring;

s2: meanwhile, raw materials for preparing the water permeable bricks are taken out of the backing material storage bin, are conveyed to the backing material stirrer and the fabric stirrer through a belt after being weighed in a raw material ratio for processing, and then the water pumped into the water storage tank is added into the backing material stirrer and the fabric stirrer after being weighed by the water pump so as to mix the powder and the raw materials;

s3: the pigment can be taken out of the color pigment bin and conveyed through a screw conveyor, the pigment can be weighed after being conveyed and then enters a color powder liquid stirring barrel for stirring, and at the moment, the water in the water storage tank can be weighed and then is led into the color powder liquid stirring barrel for stirring with the pigment;

s4: the stirred pigment is pumped out by a water pump for weighing, if the water quantity is insufficient, the water in the water storage tank can be pumped by a secondary water replenishing pump for replenishing water, and the pigment is conveyed into a fabric stirrer after being weighed to reach the standard and is mixed with powder and raw materials for preparation;

s5: after the powder, raw materials and the pigment of brick that permeates water are mixed, can take out it and transport the feed bin and the face feed bin to the end through fork truck in, can be afterwards with bed charge and surface fabric building block shaping, be preparing it into the building block adobe afterwards, only need at last with the building block adobe of accomplishing of preparation transport for sale can.

The invention has the beneficial effects that: when the powder is discharged and falls, the powder falls into a bearing frame plate at the inner side of the material receiving machine body, then a weight sensor at the lower end of the bearing frame plate is used for weighing the powder in the bearing frame plate, the weighed quantity is displayed through a display screen, when the weight of the powder reaches a preset value, a central processing assembly starts a rodless cylinder to enable a sliding block at the upper end of the rodless cylinder to slide, the bearing frame plate is driven by a connecting rod at the upper end to synchronously move when the sliding block slides, the powder after weighing can be poured out by the bearing frame plate for further processing, when the bearing frame plate penetrates to the outer side of a discharge port, the bearing frame plate synchronously drives a positioning frame plate at the rear end to move to penetrate through a through groove, the positioning frame plate is positioned at the upper end of the material receiving machine body and contains the powder discharged by a spiral conveyor, and when the bearing frame plate discharges the original powder, the rodless cylinder drives the bearing frame plate to return to the original position through the sliding block, at this moment, the positioning frame plate also moves backwards to return to the original position, one end of the positioning frame plate is arranged on two sides of the positioning frame plate through the first limiting plate and the second limiting plate to form a V-shaped structure to carry out containing limitation on powder, one end of the positioning frame plate is movably hinged with two sides of the positioning frame plate, when the positioning frame plate moves backwards through the through groove, the tightly-supporting bent plate on the upper end of the through groove can tightly support the first limiting plate and the second limiting plate, the first limiting plate and the second limiting plate can extrude the buffer spring on one side to deform the buffer spring, at the moment, the first limiting plate and the second limiting plate can be extruded and separated to form a splayed structure, the powder contained inside the positioning frame plate originally can slide to the inner side of the bearing frame plate through a gap between the first limiting plate and the second limiting plate, the whole treatment efficiency is improved, and waste of powder leakage is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

FIG. 1 is an overall structural view of example 1 of the present invention.

FIG. 2 is a structural view of a conveying assembly in example 1 of the present invention.

FIG. 3 is a view showing the construction of a weighing module in examples 1 and 2 of the present invention.

Fig. 4 is a bottom view of the load-bearing bezel in example 1 of the present invention.

FIG. 5 is a view showing the structure of a positioning bezel in example 2 of the present invention.

FIG. 6 is a block diagram of the overall process flow of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a powder tank; 200. a delivery assembly; 201. a support frame; 202. a screw conveyor; 202a, a screw rod; 202b, a rotating shaft; 202c, a drive motor box; 203. a cover plate; 204. a discharge plate; 300. a weighing assembly; 301. a material receiving machine body; 301a, a display screen; 301b, a discharge hole; 301c, a chute; 301d, a through groove; 301d-1, abutting against the bent plate; 302. a load-bearing frame plate; 302a, a slide plate; 302b, rodless cylinder; 302b-1, a slider; 302b-2, connecting rod; 302c, connecting the bottom plate; 302c-1, a weight sensor; 302c-2, a central processing component; 303. positioning the frame plate; 303a and a first limiting plate; 303b and a second limiting plate; 303c, a buffer spring; 400. a suction pump; 500. a delivery pipe.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1, 2, 3 and 4, a first embodiment of the present invention provides a system for producing recycled high-quality water permeable bricks, which comprises a powder tank 100 and a conveying assembly 200, wherein the conveying assembly 200 is installed at one side of the powder tank 100, a weighing assembly 300 is installed at a lower end of one side of the conveying assembly 200 away from the powder tank 100, a suction pump 400 is installed at an upper end of the powder tank 100, and one end of the suction pump 400 is connected to the conveying assembly 200 through a material conveying pipe 500, the conveying assembly 200 comprises a support frame 201 installed at a lower end thereof, a screw conveyor 202 is connected to an upper end of the support frame 201, a cover plate 203 is installed at an upper end of the screw conveyor 202, a discharge plate 204 is further installed at one side of a lower end of the screw conveyor 202, the screw conveyor 202 comprises two sets of screw rods 202a installed in an inner cavity thereof, and one end of the set of screw rods 202a is connected to a rotating shaft 202a, a driving motor box 202c is installed at an end of the screw conveyor 202 away from the discharge plate 204, the output end of the driving motor box 202c is connected with the rotating shaft 202a, the weighing assembly 300 comprises a material receiving machine body 301 arranged on one side of the lower end of the screw conveyor 202, the upper end of the inner cavity of the material receiving machine body 301 is connected with a bearing frame plate 302, the rear end of the bearing frame plate 302 is connected with a positioning frame plate 303, the material receiving machine body 301 comprises a display screen 301a arranged on the lower end of the front side of the material receiving machine body, and a discharge hole 301b arranged on the upper end of the front side of the material receiving machine body 301, the bearing frame plate 302 penetrates through the inner side of the discharge hole 301b, the inner walls of the two sides of the material receiving machine body 301 are provided with sliding grooves 301c, one end of the material receiving machine body 301 far away from the discharge hole 301b is also symmetrically provided with a through groove 301d, the bearing frame plate 302 comprises sliding plates 302a connected with the two sides, the bearing frame plate 302 is connected with the sliding grooves 301c through the sliding plates 302a, the lower end of the bearing frame plate 302 is provided with two groups of rodless cylinders 302b, and the middle of the two groups of the rodless cylinders 302b is connected with a connecting bottom plate 302c, the rodless cylinder 302b comprises a sliding block 302b-1, the upper end of which is connected with the sliding block 302b-1 in a sliding manner, the two ends of the connecting bottom plate 302c are connected with one side of the sliding block 302b-1, the upper end of the sliding block 302b-1 is welded with a connecting rod 302b-2, the lower end of the bearing frame plate 302 is connected with the sliding block 302b-1 through the connecting rod 302b-2, the connecting bottom plate 302c comprises a weight sensor 302c-1, the weight sensor 302c-1 is installed at the upper end of the connecting bottom plate 302c, the weight sensor 302c-1 is connected with the weight sensor 302c-1, the lower end of the connecting bottom plate 302c is also provided with a central processing component 302c-2, and the central processing component 302c-2 is electrically connected with the display screen 301a, the rodless cylinder 302b and the weight sensor 302 c-1.

Powder is stored inside the powder tank 100, when processing is needed, the powder is pumped into the screw conveyer 202 through the suction pump 400 and the material conveying pipe 500 to be conveyed, the powder is discharged through the material discharging plate 204 in the screw conveyer 202 through two groups of screw rods 202a, when the powder is discharged and falls down, the powder falls into the bearing frame plate 302 inside the material receiving machine body 301, at this time, the weight sensor 302c-1 at the lower end of the bearing frame plate 302 weighs the powder in the bearing frame plate 302, the weighed quantity is displayed through the display screen 301a, when the weight of the powder reaches a preset value, the central processing assembly 302c-2 starts the rodless cylinder 302b to enable the slide block 302b-1 at the upper end of the rod-free cylinder 302b to slide, when the slide block 302b-1 slides, the connecting rod 302b-2 at the upper end of the connecting rod drives the bearing frame plate 302 to synchronously move, when the bearing frame plate 302 moves, the discharge hole 301b penetrates through, and the two sides of the sliding plate 302a slide on the inner side of the chute 301c, so that the bearing frame plate 302 can pour out the weighed powder for further processing, and when the bearing frame plate 302 penetrates to the outer side of the discharge hole 301b, the bearing frame plate 302 synchronously drives the positioning frame plate 303 at the rear end to move to penetrate through the through groove 301d, so that the positioning frame plate 303 is positioned at the upper end of the material receiving machine body 301 to receive the powder discharged by the screw conveyor 202.

Example 2

Referring to fig. 3 and 5, a second embodiment of the present invention, which is different from the first embodiment, is: the through groove 301d comprises a tight-bending plate 301d-1 welded to the upper end of the tight-bending plate 301d-1, the tight-bending plate 301d-1 is located on the upper side of the rear end of the bearing frame plate 302, the positioning frame plate 303 penetrates through the inner side of the through groove 301d, the positioning frame plate 303 comprises a first limiting plate 303a movably hinged to one side of the positioning frame plate, a second limiting plate 303b is movably hinged to the other side of the positioning frame plate 303, the first limiting plate 303a and the second limiting plate 303b are connected with the inner wall of the positioning frame plate 303 through a buffer spring 303c, and the first limiting plate 303a and the second limiting plate are connected in a V shape.

When the bearing frame plate 302 penetrates the outer side of the discharge hole 301b, the bearing frame plate 302 synchronously drives the positioning frame plate 303 at the rear end to move to penetrate the through groove 301d, so that the positioning frame plate 303 is positioned at the upper end of the material receiving machine body 301 and receives powder discharged by the screw conveyor 202, after the bearing frame plate 302 discharges the original powder, the rodless cylinder 302b drives the bearing frame plate 302 to return to the original position through the slide block 302b-1, at the moment, the positioning frame plate 303 also moves backwards to the original position, two sides of one end of the positioning frame plate 303 form a V shape through the first limiting plate 303a and the second limiting plate 303b to contain and limit the powder, one ends of the two are movably hinged with two sides of the positioning frame plate 303, when the positioning frame plate 303 moves backwards through the through groove 301d, the tightly-1 of the upper end of the through groove 301d tightly presses the first limiting plate 303a and the second limiting plate 303b, the first limiting plate 303a and the second limiting plate 303b will also extrude the buffer spring 303c on one side to deform the buffer spring 303c, at this time, the first limiting plate 303a and the second limiting plate 303b will be extruded and separated to form a splayed shape, the powder originally contained in the inner side of the positioning frame plate 303 will slide to the inner side of the bearing frame plate 302 through the gap between the first limiting plate 303a and the second limiting plate 303b, and when the bearing frame plate 302 drives the positioning frame plate 303 to move forward again, the first limiting plate 303a and the second limiting plate 303b will also synchronously move to separate from the abutting bending plate 301d-1, at this time, the buffer spring 303c will rebound again to form a V shape, so that the powder can fall again, the overall processing efficiency is improved, and the waste of powder leakage is avoided.

Refer to FIG. 6

In order to better show the production system of the regenerated high-quality water permeable brick, the embodiment provides the production system of the regenerated high-quality water permeable brick and the process thereof, which comprises the following steps:

the method comprises the following steps: taking the powder for preparing the water permeable brick out of the powder tank, then weighing and conveying the powder into a backing material stirrer and a surface material stirrer through a screw conveyor and the powder, and simultaneously adding some additives into the backing material stirrer and the surface material stirrer for stirring;

step two: meanwhile, raw materials for preparing the water permeable bricks are taken out of the backing material storage bin, are conveyed to the backing material stirrer and the fabric stirrer through a belt after being weighed in a raw material ratio for processing, and then the water pumped into the water storage tank is added into the backing material stirrer and the fabric stirrer after being weighed by the water pump so as to mix the powder and the raw materials;

step three: the pigment can be taken out of the color pigment bin and conveyed through a screw conveyor, the pigment can be weighed after being conveyed and then enters a color powder liquid stirring barrel for stirring, and at the moment, the water in the water storage tank can be weighed and then is led into the color powder liquid stirring barrel for stirring with the pigment;

step four: the stirred pigment is pumped out by a water pump for weighing, if the water quantity is insufficient, the water in the water storage tank can be pumped by a secondary water replenishing pump for replenishing water, and the pigment is conveyed into a fabric stirrer after being weighed to reach the standard and is mixed with powder and raw materials for preparation;

step five: after the powder, raw materials and the pigment of brick that permeates water are mixed, can take out it and transport the feed bin and the face feed bin to the end through fork truck in, can be afterwards with bed charge and surface fabric building block shaping, be preparing it into the building block adobe afterwards, only need at last with the building block adobe of accomplishing of preparation transport for sale can.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. Regeneration high quality brick production system that permeates water, including powder jar (100) and transport assembly (200), its characterized in that: the conveying assembly (200) is arranged on one side of the powder tank (100), the lower end of one side, away from the powder tank (100), of the conveying assembly (200) is provided with the weighing assembly (300), the upper end of the powder tank (100) is provided with the suction pump (400), and one end of the suction pump (400) is connected with the conveying assembly (200) through the conveying pipe (500);

conveying assembly (200) is connected with screw conveyer (202) including support frame (201) of its lower extreme installation, the upper end of support frame (201), and cover plate (203) are installed to screw conveyer (202)'s upper end to screw conveyer (202)'s lower extreme one side still is provided with ejection of compact board (204).

2. The system for producing recycled high quality water permeable bricks of claim 1, wherein: the screw conveyer (202) includes two sets of hob (202a) of its inner chamber installation to and the one end of group hob (202a) is connected with pivot (202a), and the one end that discharge plate (204) were kept away from in screw conveyer (202) is provided with driving motor case (202c), and the output of driving motor case (202c) is connected with pivot (202 a).

3. The system for producing recycled high quality water permeable bricks of claim 1, wherein: the weighing assembly (300) comprises a material receiving machine body (301) arranged on one side of the lower end of the spiral conveyor (202), the upper end of an inner cavity of the material receiving machine body (301) is connected with a bearing frame plate (302), and the rear end of the bearing frame plate (302) is connected with a positioning frame plate (303).

4. The system for producing recycled high quality water permeable bricks of claim 3, wherein: connect material fuselage (301) including display screen (301a) of its positive lower extreme installation to and connect material fuselage (301) positive upper end to set up discharge gate (301b), bear frame board (302) and run through the inboard of discharge gate (301b), and connect material fuselage (301) to have seted up spout (301c) to this on the both sides inner wall, and connect material fuselage (301) to keep away from the one end of discharge gate (301b) and still symmetrically set up logical groove (301 d).

5. The system for producing recycled high quality water permeable bricks of claim 4, wherein: the through groove (301d) comprises a tightly-pressing bending plate (301d-1) welded to the upper end of the through groove (301d), the tightly-pressing bending plate (301d-1) is located on the upper side of the rear end of the bearing frame plate (302), and the positioning frame plate (303) penetrates through the inner side of the through groove (301 d).

6. The system for producing recycled high quality water permeable bricks of claim 3, wherein: the bearing frame plate (302) comprises sliding plates (302a) connected with two sides of the bearing frame plate, the bearing frame plate (302) is in sliding connection with a sliding groove (301c) through the sliding plates (302a), two groups of rodless cylinders (302b) are arranged at the lower end of the bearing frame plate (302), and a connecting bottom plate (302c) is connected between the two groups of rodless cylinders (302 b).

7. The system for producing recycled high quality water permeable bricks of claim 6, wherein: the rodless cylinder (302b) comprises a sliding block (302b-1) with the upper end thereof connected in a sliding mode, the two ends of the connecting bottom plate (302c) are connected with one side of the sliding block (302b-1), the upper end of the sliding block (302b-1) is welded with a connecting rod (302b-2), and the lower end of the bearing frame plate (302) is connected with the sliding block (302b-1) through the connecting rod (302 b-2).

8. The system for producing recycled high quality water permeable bricks of claim 6, wherein: the connecting bottom plate (302c) comprises a weight sensor (302c-1) mounted at the upper end of the connecting bottom plate, the weight sensor (302c-1) is connected with the weight sensor (302c-1), a central processing component (302c-2) is further arranged at the lower end of the connecting bottom plate (302c), and the central processing component (302c-2) is electrically connected with the display screen (301a), the rodless cylinder (302b) and the weight sensor (302 c-1).

9. The system for producing recycled high quality water permeable bricks of claim 3, wherein: the positioning frame plate (303) comprises a first limiting plate (303a) with one side movably hinged, a second limiting plate (303b) with the other side movably hinged, the first limiting plate (303a) and the second limiting plate (303b) are connected with the inner wall of the positioning frame plate (303) through a buffer spring 303c, and the first limiting plate (303a) and the second limiting plate are connected in a V shape.

10. A system and process for producing high quality water permeable bricks according to any one of claims 1 to 9, comprising the steps of:

s1: taking the powder for preparing the water permeable brick out of the powder tank, then weighing and conveying the powder into a backing material stirrer and a surface material stirrer through a screw conveyor and the powder, and simultaneously adding some additives into the backing material stirrer and the surface material stirrer for stirring;

s2: meanwhile, raw materials for producing the water permeable bricks are taken out from the backing material storage bin, are conveyed to a backing material stirrer and a fabric stirrer through a belt for processing after being proportioned and weighed, and then water pumped from a water storage tank is added into the backing material stirrer and the fabric stirrer after being weighed by a water pump so as to mix powder and the raw materials;

s3: the pigment can be taken out of the color pigment bin and conveyed through a screw conveyor, the pigment can be weighed after being conveyed and then enters a color powder liquid stirring barrel for stirring, and at the moment, the water in the water storage tank can be weighed and then is led into the color powder liquid stirring barrel for stirring with the pigment;

s4: the stirred pigment is pumped out by a water pump for weighing, if the water quantity is insufficient, the water in the water storage tank can be pumped by a secondary water replenishing pump for replenishing water, and the pigment is conveyed into a fabric stirrer after being weighed to reach the standard and is mixed with powder and raw materials for preparation;

s5: after the powder, raw materials and the pigment of brick that permeates water are mixed, can take out it and transport the feed bin and the face feed bin to the end through fork truck in, can be afterwards with bed charge and surface fabric building block shaping, be preparing it into the building block adobe afterwards, only need at last with the building block adobe of accomplishing of preparation transport for sale can.

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