CN211541646U - Movable crushing and brick making integrated machine - Google Patents

Abstract

The application relates to a movable type crushing and brick making integrated machine, and belongs to the technical field of building waste recycling. The application provides a movable crushing and brick making integrated machine, which comprises a carriage; a brick making system; the brick making system is arranged in the carriage and comprises a crushing and screening device and a brick making device, wherein the crushing and screening device is used for crushing and screening the building wastes to obtain aggregate for making bricks, and the brick making device is used for making the aggregate prepared by the crushing and screening device into bricks; and the stacking system can be accommodated in the carriage and is used for stacking bricks made by the brick making device into a pile. This portable broken brickmaking all-in-one can convenient removal, handles building waste to the brick pile of piling is piled in the output pile up neatly, has the advantage that is convenient for remove, the treatment effeciency is high, can improve the efficiency of construction.

Description

Movable crushing and brick making integrated machine

Technical Field

The application relates to the technical field of recycling of construction wastes, in particular to a mobile crushing and brick making integrated machine.

Background

The mainstream method for treating the construction waste generated in the construction process comprises backfilling in a construction site, cleaning and transporting to a landfill site for centralized burying, cleaning and transporting to a crushing plant for centralized crushing, crushing in a mobile equipment site and the like. Wherein, the method of centralized burying is adopted to treat the waste water which occupies more land and pollutes the environment; adopt fixed production line equipment centralized processing can increase construction waste's cost of transportation, can produce the raise dust pollution in the transportation simultaneously. Compared with the two treatment methods, the treatment method adopts the movable equipment and is carried out on the construction site, so that the problem of dust emission during transportation can be avoided, the transportation cost is reduced, and the method has a great development prospect.

However, the mobile equipment for treating the construction wastes is still limited to front-end treatment, the product is recycled aggregate, the recycled aggregate is one of the common raw materials for making bricks, and the mobile equipment for further integrating the brick making process into a whole is not mature.

SUMMERY OF THE UTILITY MODEL

Therefore, the application provides a portable broken brickmaking all-in-one can carry out broken screening to building waste to make fragment of brick pile up neatly and pile up, improved the efficiency of construction.

The embodiment of the application provides a mobile crushing and brick making integrated machine, which comprises a carriage; a brick making system; the brick making system is arranged in the carriage and comprises a crushing and screening device and a brick making device, wherein the crushing and screening device is used for crushing and screening the building wastes to obtain aggregate for making bricks, and the brick making device is used for making the aggregate prepared by the crushing and screening device into bricks; and the stacking system can be accommodated in the carriage and is used for stacking bricks made by the brick making device into a pile.

The portable broken brickmaking all-in-one in this application embodiment can conveniently remove, handles building waste to the brick pile of pile is piled in the output pile up neatly. Compared with the existing all-in-one machine for treating construction wastes, the mobile crushing and brick making all-in-one machine in the embodiment of the application has the advantages of convenience in moving and high treatment efficiency, and can improve the construction efficiency.

In addition, the mobile crushing and brick making integrated machine according to the embodiment of the application also has the following additional technical characteristics:

according to some embodiments of the present application, a palletizing system comprises a palletizer; and the feeding end of the folding conveying mechanism is connected with the brick discharging position of the brick making device, and the discharging end of the folding conveying mechanism is connected with the feeding end of the stacker crane. The folding conveying mechanism has an unfolding state and a folding state, and when the folding conveying mechanism is in the unfolding state, the stacker crane is arranged outside the carriage; when folding transport mechanism is in fold condition, the hacking machine is accomodate in the inside in carriage. Through this kind of arrangement form, the pile up neatly machine can carry out pile up neatly work on the outside ground in carriage or other platforms, and when needing to shift the construction site, the pile up neatly machine can be accomodate to the carriage inside, the removal of the broken brickmaking all-in-one of portable of being convenient for.

According to some embodiments of the application, crushing and screening device includes first feed mechanism, first screening machine, second feed mechanism, breaker and second screening machine, first feed mechanism is used for carrying into first screening machine with outside building waste, the oversize material discharge gate of first screening machine links to each other with the feed inlet of breaker, the undersize material discharge gate of first screening machine, the discharge gate of breaker all links to each other with the material loading end of second feed mechanism, the discharge end of second feed mechanism links to each other with the feed inlet of second screening machine, the undersize of second screening machine is the aggregate. The aggregate meeting the brick making quality requirement can be obtained through the form of screening-crushing-re-screening, and the aggregate has simple structure and easy assembly.

According to some embodiments of the present application, the first feeding mechanism comprises a feeding belt machine, the feeding belt machine being a foldable belt machine. The feeding belt conveyor has a straight state and a storage state, and when the feeding belt conveyor is in the straight state, the feeding end of the feeding belt conveyor is arranged outside the carriage; when the feeding belt conveyor is in the storage state, the feeding end of the feeding belt conveyor is arranged in the carriage. Through this kind of arrangement form, do benefit to material loading construction waste to first screening machine, improved the treatment effeciency to construction waste. When the construction site needs to be transferred, the feeding belt conveyor can be stored in the carriage, and the movable type crushing and brick making integrated machine can be moved conveniently.

According to some embodiments of the application, the first feeding mechanism further comprises an iron remover, the iron remover is arranged above the feeding belt conveyor and used for removing ferromagnetic impurities in the construction waste so as to avoid hard ferromagnetic substances from damaging the crusher.

According to some embodiments of the application, the bottom side of the feeding end of the feeding belt machine is provided with a roller so as to facilitate straightening or storage of the feeding belt machine.

According to some embodiments of the present application, a brick making apparatus comprises a brick making machine: and the mixing box is used for storing raw materials for brick making, and a discharge hole of the mixing box is communicated with the brick making machine. The arrangement is simple in structure and easy to assemble.

According to some embodiments of the present application, the brick making system further comprises an aggregate conveying device, the aggregate conveying device comprises an aggregate bin, the aggregate bin is used for storing aggregate, and a feed inlet of the aggregate bin is communicated with a discharge outlet of the crushing and screening device; and the aggregate stirring bin is used for stirring the aggregates uniformly and then metering and inputting the aggregates into the brick making device. Through this arrangement, the uniformly stirred aggregate can be quantitatively fed into the brick making device.

According to some embodiments of the application, the brick making system further comprises a fabric feeding device, the fabric feeding device comprises a fabric stirring bin, a discharge port of the fabric stirring bin is connected with the brick making device, and the fabric stirring bin can stir the fabric in the fabric stirring bin and output the fabric to the brick making device in a metering mode; the first bin is used for storing white cement and can meter the white cement to the fabric stirring bin; the second storage bin is used for storing cement, and the second storage bin can meter and output the cement to the fabric stirring bin; and the third bin is used for storing fine sand, and the third bin can meter the fine sand to the fabric stirring bin. By the arrangement mode, the fabric prepared according to the formula can be uniformly stirred and quantitatively fed into a brick making device.

According to some embodiments of the present application, a vehicle cabin includes a leg assembly including a plurality of legs symmetrically installed at left and right sides of the vehicle cabin and having a storage position and a support position. When the plurality of legs are in the stowed position, the plurality of legs are disposed against an exterior wall of the vehicle cabin; when the plurality of legs are in the support position, the plurality of legs extend outwardly and are supported on the ground. Through the arrangement form, the carriage can be stably supported, and the reliability of the movable type crushing and brick making integrated machine is improved.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a perspective view of a mobile crushing brick making machine according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram (brick making state) of another view angle of a mobile crushing brick making machine according to an embodiment of the present application;

fig. 3 is a schematic structural view (moving state) of another view angle of a mobile crushing brick making machine according to an embodiment of the present application;

fig. 4 is a schematic diagram illustrating the operation of a crushing and screening device in a mobile brick-making crushing machine according to an embodiment of the present invention;

fig. 5 is a schematic diagram illustrating the operation of the aggregate conveying device and the fabric feeding device in the mobile brick crushing machine according to the embodiment of the present application;

fig. 6 is a working schematic diagram of a brick making device and a stacking system in a mobile crushing brick making machine according to an embodiment of the present application.

Icon: 100-a mobile crushing and brick making integrated machine; 110-a compartment; 111-a leg assembly; 112-a chassis; 120-a brick making system; 130-a crushing and screening device; 131-a first feeding mechanism; 132-a first screening machine; 1321-a first feed port; 1322-first oversize discharge port; 1323-first sieve feed outlet; 133-a second feeding mechanism; 1331-a second loading end; 1332-a second discharge end; 134-a crusher; 1341-a second feed port; 1342-a second discharge port; 135-a second screening machine; 1351-a third feed inlet; 1352-second oversize material outlet; 1353-discharging of the second sieve; 136-feeding belt machine; 1361-first loading end; 1362-first discharge end; 1363-roller; 137-iron remover; 140-a brick making device; 141-brick making machine; 142-mixing box; 1421-fourth feed port; 1422-fourth outlet; 1423-fifth feed port; 150-a palletizing system; 151-a stacker crane; 152-a folding transport mechanism; 1521-third loading end; 1522-third discharge end; 160-aggregate conveying means; 161-aggregate bin; 1611-aggregate bin feed inlet; 1612-discharge of aggregate bin; 162-aggregate stirring bin; 163-aggregate feeding belt conveyor; 170-a fabric feeding device; 171-a first silo; 172-a second silo; 173-a third silo; 174-fabric stirring bin; 175-fabric feeding belt machine; 180-pigment feeding device.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, the mobile crushing and brick-making all-in-one machine 100 according to the embodiment of the present invention includes a carriage 110, a brick-making system 120, and a palletizing system 150. A brick making system 120 is mounted within the carriage 110, the brick making system 120 including a crushing and screening device 130 and a brick making device 140. The crushing and screening device 130 is used for crushing and screening the construction waste to obtain aggregate for brick making, and the brick making device 140 is used for making the aggregate prepared by the crushing and screening device 130 into bricks. A stacking system 150 can be housed within the carriage 110, the stacking system 150 being configured to stack bricks produced by the brick making apparatus 140.

It is easy to understand that the mobile crushing and brick making integrated machine 100 can be moved conveniently, and the mobile crushing and brick making integrated machine travels to a construction site and other places for storing construction wastes, processes the construction wastes, and outputs piled brick piles. Compared with the existing all-in-one machine for treating construction wastes, the mobile crushing and brick making all-in-one machine 100 in the embodiment of the application has the advantages of convenience in moving and high treatment efficiency, and can improve the construction efficiency.

The following structures and interconnections of the various components of the mobile crushing and brick making all-in-one machine 100 according to the embodiment of the present application are described.

Referring to fig. 1, the interior of the car 110 is configured to house a brick making system 120 and a palletizing system 150.

Referring to fig. 1, in some embodiments of the present application, a chassis 112 is disposed on the bottom side of the carriage 110, and under the dragging of the vehicle head, the chassis 112 can carry the carriage 110 and move the carriage 110, thereby realizing portable movement and transition of the mobile crushing brick making all-in-one machine 100, disposing construction waste on site, and outputting a piled brick pile.

In the description of the present application, "construction waste" refers to waste such as muck, spoil, and waste generated by construction units and the like during the construction, laying, or demolition, renovation of various buildings.

Referring to fig. 1, optionally, the car 110 includes a leg assembly 111, and the leg assembly 111 includes a plurality of legs symmetrically installed at left and right sides of the car 110 and having a storage position and a support position. When the plurality of legs are in the stowed position, the plurality of legs are disposed against an outer wall of the cabin 110; when the plurality of legs are in the support position, the plurality of legs extend outwardly and are supported on the ground.

As an example, the number of the legs is four, and the legs are symmetrically located at the left and right sides of the car 110, wherein two legs are located at the left side of the car 110, and the other two legs are located at the right side of the car 110. When the four legs are in the support position, each leg extends away from the car 110 and is supported on the ground; when the four legs are in the storage positions, the two legs at the front are folded backwards to the two sides of the carriage 110, and the two legs at the rear are folded forwards to the two sides of the carriage 110.

Correspondingly, the mobile crushing and brick making all-in-one machine 100 has a mobile state and a brick making state. When the mobile crushing and brick making all-in-one machine 100 is in a moving state, the brick making system 120 and the stacking system 150 are both stored in the carriage 110, and a plurality of support legs are in storage positions, so that the width of the whole mobile crushing and brick making all-in-one machine 100 is reduced, and the mobile crushing and brick making all-in-one machine is convenient to move. When the mobile crushing and brick making all-in-one machine 100 is in a brick making state, the plurality of support legs are in the support position, so that the carriage 110 is stably and uniformly supported.

Preferably, the plurality of legs have a leveling function to allow the brick making system 120 and palletizing system 150 to operate horizontally.

Referring to fig. 1, the brick making system 120 is used for processing building wastes and making bricks by combining with other raw materials for brick making.

In some embodiments of the present application, the brick making system 120 includes a crushing and screening device 130 and a brick making device 140.

Referring to fig. 1 and 4, the crushing and screening device 130 is used for crushing and screening construction waste to obtain aggregate for brick making.

In the description of the present application, the raw materials for brick making include a primer, a facing and a pigment. The bottom material is the aggregate for making bricks prepared by the crushing and screening device 130. The fabric comprises white cement, grey cement and fine sand. The pigment is used for coloring the brick and can be iron oxide red powder or iron oxide green powder. Wherein, the fabric and the raw materials have the formula, and are not further disclosed.

Referring to fig. 1 and 2, in some embodiments of the present application, crushing and screening device 130 includes a first feeding mechanism 131, a first screening machine 132, a second feeding mechanism 133, a crusher 134, and a second screening machine 135.

Referring to fig. 1, the first feeding mechanism 131 is used for conveying external construction waste into a first feeding port 1321 of the first sieving machine 132 (see fig. 4).

Referring to fig. 1, as an exemplary form, the first feeding mechanism 131 includes a feeding belt machine 136, the feeding belt machine 136 is a foldable belt machine, and the feeding belt machine 136 has a straight state and a storage state.

Referring to fig. 1, in detail, the feeding belt machine 136 has a first feeding end 1361 and a first discharging end 1362, the first feeding end 1361 is used for feeding the construction waste, and the first discharging end 1362 leads to a first feeding port 1321 of the first sieving machine 132. As can be readily appreciated, the construction waste is fed to the feeding belt conveyor 136 at the first feeding end 1361, and the construction waste leaves the feeding belt conveyor 136 at the first discharging end 1362 and enters the first feeding opening 1321 under the conveying of the feeding belt conveyor 136.

When the feeding belt machine 136 is in the straightened state, the first feeding end 1361 of the feeding belt machine 136 is arranged outside the carriage 110; correspondingly, the mobile crushing and brick making all-in-one machine 100 is in a brick making state. When the feeding belt machine 136 is in the storage state, the length of the feeding belt machine 136 is shortened after being folded, and the first feeding end 1361 of the feeding belt machine 136 is stored in the carriage 110; correspondingly, the mobile crushing and brick making all-in-one machine 100 is in a mobile state.

Referring to fig. 1, a roller 1363 is disposed at a bottom side of the first feeding end 1361 of the feeding belt machine 136. As can be readily appreciated, this arrangement facilitates pulling the feeding belt 136 to switch the feeding belt 136 between the straightened state and the storage state.

Referring to fig. 1, optionally, the first feeding mechanism 131 further includes an iron remover 137.

In some embodiments of the present application, an iron remover 137 is disposed above the feeding belt conveyor 136 for removing ferromagnetic impurities from construction waste.

First screening machine 132 carries out the primary screening to construction waste, produces first oversize material and first undersize material.

Referring to fig. 4, in some embodiments of the present application, the first sifter 132 includes a first inlet 1321, a first oversize outlet 1322, and a first undersize outlet 1323. The first feeding port 1321 is connected to a first discharging end 1362 of the feeding belt machine 136, the first oversize discharging port 1322 is connected to a second feeding port 1341 of the crusher 134, and the first undersize discharging port 1323 is connected to a second feeding end 1331 of the second feeding mechanism 133. As will be readily appreciated, construction waste enters the first screen machine 132 from the first feed inlet 1321 and is primarily screened, the first oversize material is output from the first oversize material outlet 1322 to the crusher 134, and the first undersize material is output from the first undersize material outlet 1323 through the chute to the second feed mechanism 133.

As an example, the first screening machine 132 is a vibrating screening machine, and the first screening material is building waste residue with an outer diameter less than or equal to 10 mm.

The crusher 134 is used for further crushing the first oversize material to form building waste residue with the outer diameter less than or equal to 10 mm.

Referring to fig. 3 and 4, the crusher 134 has a second inlet 1341 and a second outlet 1342, and the second outlet 1342 is connected to the second feeding end 1331 of the second feeding mechanism 133.

As an example form, the crusher 134 is a four-tooth roller crusher.

The second feeding mechanism 133 is configured to convey the building waste output by the first screening material and the crusher 134 to the second screening machine 135.

As an example form, the second feeding mechanism 133 is a belt conveyor.

The second sieving machine 135 is configured to further sieve the construction waste residues conveyed by the second feeding mechanism 133, and output a second oversize material and a second undersize material. Wherein, the second oversize material is light weight substance which is not suitable for being used as aggregate for making bricks, such as massive particles, massive plastics, wood, etc., and the second oversize material is the 'aggregate' for making bricks.

Referring to fig. 4, in particular, second screen 135 has a third feed 1351, a second oversize feed 1352 and a second undersize feed 1353. Wherein the third material inlet 1351 is connected to the second material outlet 1332 of the second material feeding mechanism 133, the second oversize material outlet 1352 is connected to a collecting box (not shown) via a chute, and the second undersize material outlet 1353 leads to the aggregate bin 161 described below.

As will be readily understood, the crushing and screening device 130 crushes and screens the construction waste, and outputs the aggregate for brick making, and the aggregate is stored in the aggregate bin 161.

Referring to fig. 1, a brick making apparatus 140 is used to make bricks from aggregate.

Referring to fig. 2, in some embodiments of the present application, the brick making apparatus 140 includes a brick making machine 141 and a mixing box 142 (see fig. 6).

The mixing box 142 is used for storing raw materials for brick making.

Referring to fig. 5 and 6, the mixing box 142 has a fourth inlet 1421, a fourth outlet 1422 and a fifth inlet 1423, wherein the fourth outlet 1422 is connected to the brick making machine 141.

In the description of the present application, the mixing box 142 can mix the raw materials such as the bottom material and the face material for brick making uniformly, and the brick making machine 141 can make the raw materials into a brick blank or other concrete product blank, which is called a "brick" in the embodiments of the present application, by one or more of static pressure forming, vibration forming, static pressure and vibration.

Referring to fig. 2 and 3, the brick making system 120 further includes an aggregate conveying device 160, and the aggregate conveying device 160 is configured to store the aggregates output by the crushing and screening device 130, stir the aggregates uniformly, and meter and output the aggregates to the mixing box 142 of the brick making device 140.

Referring to fig. 3, in some embodiments of the present application, the aggregate conveying device 160 includes an aggregate bin 161 and an aggregate stirring bin 162.

Referring to fig. 4 and 5, the aggregate bin 161 is used for storing aggregates, and includes an aggregate bin inlet 1611 and an aggregate bin outlet 1612, the aggregate bin inlet 1611 is connected to the second sieve outlet 1353 of the second sieving machine 135 via a chute, the aggregate bin outlet 1612 is connected to the aggregate stirring bin 162, the aggregates are uniformly stirred in the aggregate stirring bin 162, and the aggregate stirring bin 162 outlet is connected to the fourth inlet 1421 of the mixing box 142.

Further, the aggregate stirring bin 162 can meter the aggregates into the mixing box 142.

As an example form, the outlet of the aggregate stirring bin 162 is provided with a metering and weighing device for metering and outputting the aggregates.

It is easy to understand that, in the process of stirring the aggregate, a certain proportion of water needs to be mixed according to the formula, and the aggregate stirring bin 162 is also provided with a water inlet, which is not further described herein.

Referring to fig. 3, as an exemplary form in which the aggregate stirring bin 162 is connected to the mixing box 142, the aggregate conveying device 160 further includes an aggregate feeding belt machine 163, the aggregate feeding belt machine 163 is disposed between the discharge port of the aggregate stirring bin 162 and the fourth feeding port 1421 of the mixing box 142, and the aggregates metered by the aggregate stirring bin 162 are input into the mixing box 142.

Referring to fig. 2 and 3, the brick making system 120 further includes a fabric feeding device 170, and the fabric feeding device 170 is used for uniformly stirring and metering the white cement, the ash cement and the fine sand according to the formula ratio to the mixing box 142.

Referring to fig. 3, in some embodiments of the present application, the fabric feeding device 170 includes a first bin 171, a second bin 172, a third bin 173, and a fabric stirring bin 174. Among them, the first silo 171 is used to store white cement, the second silo 172 is used to store gray cement, and the third silo 173 is used to store fine sand.

Taking the first silo 171 as an example, the first silo 171 is provided with an opening, the white cement is delivered into the first silo 171 from the outside of the car 110 through the negative pressure conveying system, and the bottom of the first silo 171 is provided with a spiral metering feeder for metering and outputting the white cement into the fabric stirring silo 174.

As an example, a hose is installed at an opening of the first storage bin 171, and a negative pressure fan is installed inside the car 110, so that negative pressure of the hose is maintained by the negative pressure fan, and dust is prevented from being blown out. When the loading is completed, the flexible disk is stored inside the vehicle compartment 110.

Similarly, the second silo 172 can meter cement into the fabric mixing silo 174, and the third silo 173 can meter fine sand into the fabric mixing silo 174.

The shell fabric stirring bin 174 is used for stirring the white cement, the ash cement and the fine sand which are fed into the shell fabric stirring bin according to the formula proportion, and metering and outputting the white cement, the ash cement and the fine sand to the mixing box 142.

As an example, the discharge port of the material stirring bin 174 is provided with a metering and weighing device for metering out the material.

It is easy to understand that in the process of stirring the fabric, a certain proportion of water needs to be mixed according to the formula, and the fabric stirring bin 174 is also provided with a water inlet, which is not further described herein.

Referring to fig. 3, as an exemplary form in which the material mixing bin 174 is connected to the mixing box 142, the material loading device 170 further includes a material loading belt 175, and the material metered from the material mixing bin 174 is fed into the mixing box 142 between the discharge port of the material mixing bin 174 of the material loading device 170 and the fifth feed port 1423 of the mixing box 142.

Referring to fig. 2, the brick making system 120 further includes a pigment loading device 180 for metering pigment into the mixing box 142.

The aggregate, the fabric and the pigment input into the mixing box 142 are uniformly stirred and output to the brick making machine 141 for making bricks in a metering manner, and the bricks are pressed by the brick making machine 141 and output to a brick outlet position.

As an example form, the fourth discharge port 1422 of the mixing box 142 is provided with a weighing and metering device for metering the discharge.

The mobile crushing and brick-making all-in-one machine 100 further comprises a control cabinet for controlling the brick-making system 120 and the stacking system 150, which is not further described herein.

Referring to fig. 1 and 2, the palletizing system 150 comprises a palletizer 151 and a folding transfer mechanism 152.

In the description of the present application, the stacker crane 151 can stack bricks located at a position to be stacked, and finally the stack forms a stack of brick square matrix.

Referring to fig. 1, the folding conveyor 152 includes a third feeding end 1521 and a third discharging end 1522, and has an unfolded state and a folded state. As an example, the folding conveyor 152 is a collapsible belt conveyor, outputting bricks at a downward slope.

As will be readily appreciated, when the folding conveyor 152 is in the unfolded state, the palletizer 151 is arranged outside the carriage 110, so as to unfold the palletization on the ground; when the folding conveyor 152 is in the folded state, the stacker 151 is housed inside the carriage 110, facilitating transition.

The third feeding end 1521 is connected with the brick discharging position of the brick making device 140, and the third discharging end 1522 is connected with the feeding end of the stacker 151.

In some embodiments of the present application, the palletizer 151 has a preset position and a palletizing region, and when the folding transfer mechanism 152 is in the unfolded state, the folding transfer mechanism 152 can convey the bricks at the brick discharge position to the preset position, so that the palletizer 151 transfers the bricks to the palletizing region for palletizing, and thus, the palletizer can conveniently carry away the stacked pile of bricks manually or mechanically.

The working principle of the mobile crushing and brick making all-in-one machine 100 is as follows.

The movable crushing and brick making integrated machine 100 moves to a construction site, the supporting leg assembly 111 is unfolded, the first feeding mechanism 131 is pulled out, and the stacker crane 151 is pulled to the outside of the carriage 110;

referring to fig. 4, the crushing and screening device 130 crushes and screens external construction waste, and outputs aggregate for brick making, and the aggregate is stored in an aggregate bin 161;

referring to fig. 5, the aggregate conveying device 160 uniformly stirs the aggregates in the aggregate bin 161 and meters and outputs the aggregates to the mixing box 142; the fabric feeding device 170 respectively meters and outputs white cement, grey cement and fine sand to the fabric stirring bin 174, and the fabric stirring bin 174 meters and outputs the fabric to the mixing box 142 after uniformly stirring the white cement, the grey cement and the fine sand;

referring to fig. 6, after the aggregate and the fabric are uniformly stirred by the mixing box 142, the aggregate and the fabric are metered and output to the brick making machine 141, the brick making machine 141 outputs bricks, the bricks are conveyed to a preset position of the stacker 151 through the folding and conveying mechanism 152, and the stacker 151 sequentially conveys the bricks to the preset position for stacking to form a stack of bricks;

after the construction waste is treated, the supporting leg assembly 111 is retracted, the first feeding mechanism 131 is retracted, the stacking machine 151 is retracted, and the movable type crushing and brick making integrated machine 100 leaves and drives to the next construction site.

The mobile crushing and brick making integrated machine 100 in the embodiment of the application can be conveniently moved, the construction waste is treated, and the piled brick piles are output. Compared with the existing all-in-one machine for treating construction wastes, the mobile crushing and brick making all-in-one machine 100 in the embodiment of the application has the advantages of convenience in moving and high treatment efficiency, and can improve the construction efficiency.

It should be noted that the features of the embodiments in the present application may be combined with each other without conflict.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a broken brickmaking all-in-one of portable which characterized in that includes:

a carriage;

the brick making system is arranged in the carriage and comprises a crushing and screening device and a brick making device, the crushing and screening device is used for crushing and screening building wastes to obtain aggregate for brick making, and the brick making device is used for making the aggregate prepared by the crushing and screening device into bricks;

the stacking system can be contained in the carriage and is used for stacking bricks made by the brick making device into a pile.

2. The mobile, crushing and brick making all-in-one machine as claimed in claim 1, wherein the palletizing system comprises:

a stacker crane;

a folding conveying mechanism, wherein the feeding end of the folding conveying mechanism is connected with the brick discharging position of the brick making device, the discharging end of the folding conveying mechanism is connected with the feeding end of the stacker crane, the folding conveying mechanism has an unfolding state and a folding state,

when the folding conveying mechanism is in an unfolded state, the stacker crane is arranged outside the carriage;

when the folding conveying mechanism is in a folded state, the stacker crane is accommodated in the carriage.

3. The mobile crushing and brick-making integrated machine according to claim 1, wherein the crushing and screening device comprises a first feeding mechanism, a first screening machine, a second feeding mechanism, a crusher and a second screening machine, the first feeding mechanism is used for conveying external construction wastes into the first screening machine, an oversize material discharge port of the first screening machine is connected with a feed port of the crusher, an undersize material discharge port of the first screening machine and a discharge port of the crusher are both connected with a feeding end of the second feeding mechanism, a discharge end of the second feeding mechanism is connected with a feed port of the second screening machine, and the undersize material of the second screening machine is the aggregate.

4. The mobile crushing and brick making all-in-one machine as claimed in claim 3, wherein the first feeding mechanism comprises a feeding belt machine, the feeding belt machine is a foldable belt machine, the feeding belt machine has a straight state and a storage state,

when the feeding belt conveyor is in a straightened state, the feeding end of the feeding belt conveyor is arranged outside the carriage;

when the feeding belt conveyor is in a storage state, the feeding end of the feeding belt conveyor is arranged in the carriage.

5. The mobile crushing and brick making all-in-one machine as claimed in claim 4, wherein the first feeding mechanism further comprises an iron remover, and the iron remover is arranged above the feeding belt conveyor and used for removing ferromagnetic impurities in construction waste.

6. The mobile crushing and brick making all-in-one machine as claimed in claim 4, wherein rollers are arranged on the bottom side of the feeding end of the feeding belt machine.

7. The mobile crushing and brick making all-in-one machine as claimed in claim 1, wherein the brick making device comprises:

a brick making machine:

the mixing box is used for storing raw materials for brick making, and a discharge hole of the mixing box is communicated with the brick making machine.

8. The mobile, crushing and brick-making all-in-one machine of claim 1, wherein the brick-making system further comprises an aggregate conveying device, and the aggregate conveying device comprises:

the aggregate bin is used for storing the aggregates, and a feed inlet of the aggregate bin is communicated with a discharge outlet of the crushing and screening device;

the aggregate stirring bin is used for stirring the aggregates uniformly and then metering and inputting the aggregates into the brick making device.

9. The mobile crushing and brick making all-in-one machine as claimed in claim 1, wherein the brick making system further comprises a fabric feeding device, and the fabric feeding device comprises:

the discharge port of the fabric stirring bin is connected with the brick making device, and the fabric stirring bin can stir the fabric in the fabric stirring bin and output the fabric to the brick making device in a metering manner;

the first bin is used for storing white cement and can meter the white cement to the fabric stirring bin;

the second storage bin is used for storing cement, and the second storage bin can meter and output the cement to the fabric stirring bin;

and the third storage bin is used for storing fine sand, and the third storage bin can meter and output the fine sand to the fabric stirring bin.

10. The mobile demolition brick molding machine as claimed in claim 1, wherein the carriage comprises a leg assembly, the leg assembly comprising a plurality of legs, the legs being symmetrically mounted on the left and right sides of the carriage and having a receiving position and a supporting position,

the plurality of legs are disposed against an outer wall of the cabin when the plurality of legs are in the stowed position;

when the plurality of legs are in the support position, the plurality of legs extend outward and are supported on the ground.

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