CN112221401A

CN112221401A - Broken pressfitting brickmaking device of building rubbish

Info

Publication number: CN112221401A
Application number: CN202011014916.4A
Authority: CN
Inventors: 董立东
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-24
Filing date: 2020-09-24
Publication date: 2021-01-15

Abstract

The invention relates to a brick making device for crushing and pressing construction wastes, which comprises a shell, a crushing bin, a stirring bin, a supporting driving bin, a pressing bin and a mould device, wherein the crushing bin is positioned at the upper left part of the shell, the middle part of the crushing bin is provided with an inclined plane extending downwards from right to left, the inclined plane divides the crushing bin into a crushing upper bin body and a crushing lower bin body which are respectively sealed, the left side of the shell of the stirring bin is provided with a water injection port, the lower end of the stirring bin is provided with an outflow port, the lower ends of the crushing bin and the stirring bin are provided with the supporting driving bin with a rectangular cross section, the lower end of the supporting driving bin is provided with the pressing bin with an opening at the upper end, the inside of the pressing bin is provided with the mould device with an upward opening corresponding to the upper end opening, and the mould device is provided with a mould body with an upward opening corresponding to each pressing, and the material crushing and brick making can be realized simultaneously, and the processing and manufacturing cost is reduced.

Description

Broken pressfitting brickmaking device of building rubbish

Technical Field

The invention relates to the field of architectural design, in particular to a brick making device by crushing and pressing building garbage.

Background

Along with the rapid development of urban construction, constantly produce a large amount of building rubbish, mainly face the problem in two aspects, current building rubbish processing apparatus simple structure mainly smashes building rubbish, can not handle building rubbish so that better utilization, does not have equipment simultaneously yet and can smash building rubbish and suppress simultaneously so that form the product of recycling, is unsuitable to handle the utilization in batches to building rubbish, and it is inconvenient to use.

Disclosure of Invention

The invention provides a building garbage crushing and pressing brick making device which can solve the problems in the prior art.

The invention provides the following technical scheme:

in order to achieve the above purpose, the invention provides a brick making device by crushing and pressing building wastes, which comprises a shell, a crushing bin, a stirring bin, a supporting and driving bin, a pressing bin and a mould device, wherein the crushing bin is positioned at the upper left part of the shell, a feeding hole is arranged above the crushing bin, the middle part of the crushing bin is provided with an inclined plane body extending downwards from right to left, the inclined plane body divides the crushing bin into a crushing upper bin body and a crushing lower bin body which are respectively sealed, the crushing bin is provided with a crushing rotating shaft which passes through an upper wall body of the crushing upper bin body and the inclined plane body and is rotatably matched with the crushing upper bin body, the part of the crushing rotating shaft positioned in the crushing upper bin body is provided with a conical crushing body, the part of the crushing rotating shaft positioned in the crushing lower bin body is provided with a crushing force taking gear, and the lower wall body of the crushing bin body is provided with, the crushing motor is provided with a crushing gear which is meshed with the crushing power take-off gear, the left end of the inclined plane body and the left shell of the crushing upper bin body extend leftwards to form a discharge hole extending into the upper right end of the stirring bin, the upper left end of the shell of the stirring bin is provided with a water injection port, the lower end of the stirring bin is provided with an outflow port, the lower ends of the crushing bin and the stirring bin are provided with a supporting driving bin with a rectangular cross section, a movable bin is formed between the supporting driving bin and the crushing bin as well as between the supporting driving bin and the stirring bin, the lower end of the supporting driving bin is provided with a pressing bin with an upper end opened, the supporting driving bin is provided with a sliding body which is in sliding fit with the supporting driving bin, and the sliding body comprises a plurality of groups of sliding positioners which are positioned in the supporting driving bin and fixed above two sides, a sliding positioning hole in sliding fit with the sliding column is arranged above the sliding positioner, the upper ends of the sliding columns on two sides penetrate through the upper wall of the supporting driving bin and are connected in the movable bin through a sliding rod, a downward extending sliding rack is arranged in the middle of the sliding rod and is meshed with a driving gear on a sliding motor arranged in the movable bin, a plurality of groups of fixing plates positioned in the supporting driving bin are fixed on the sliding columns, a plurality of pressing devices are sequentially fixed on the fixing plates from left to right, each pressing device is provided with a material flowing channel which is communicated up and down, the lower end of the material flowing channel is provided with a material flowing valve, a material flowing pipeline is connected above the material flowing channel, the upper part of the material flowing pipeline is communicated with the telescopic pipeline, and the upper part of the telescopic pipeline is communicated with the outflow port, the mould device is characterized in that a mould device with an upward opening is arranged in the compression bin corresponding to the upper end opening, a mould body with an upward opening and corresponding to each compression plate is arranged in the mould device, a plurality of vertical upward partition plates are arranged in the mould body to divide the mould body into mould dividing bodies with the number corresponding to the compression plates and the corresponding opening size, liquid permeable nets are respectively arranged below the mould dividing bodies, a limiting part for limiting the left end of the mould device is arranged on the left side of the upper end opening of the compression bin, a water flow port corresponding to the liquid permeable nets is arranged at the lower end of the mould device, and a pull rod is arranged at the outlet of the right end of the mould device.

Preferably, a matching rotating ring is arranged between the upper end of the crushing rotating shaft and the upper wall of the crushing upper bin body, a supporter is arranged between the crushing rotating shaft and the inclined plane body, and a matching bearing is arranged between the supporter and the conical crushing body.

Preferably, the conical crushing body comprises an upper conical crushing body and a lower conical crushing body, an included angle between the upper conical crushing body and the vertical direction is larger than an angle between the lower conical crushing body and the vertical direction, a first crushing protrusion is arranged on the circumferential surface of the lower conical crushing body, and a second crushing protrusion is arranged at a corresponding position of the shell of the crushing bin corresponding to the first crushing protrusion.

Preferably, the stirring storehouse is provided with agitator motor outside the casing, the last agitator gear that is provided with of agitator motor, the meshing has second driven gear and first driven gear respectively in the agitator gear left and right sides, first driven gear with second driven gear central point puts and is provided with first (mixing) shaft and second (mixing) shaft respectively, first (mixing) shaft with lie in on the second (mixing) shaft the part in the stirring storehouse is provided with first stirring rake and second stirring rake respectively.

Preferably, the lower wall body of the stirring bin corresponding to the lower end of the second stirring paddle is an inclined plate inclined towards the right lower end.

Preferably, a water storage bin is arranged below the compression bin, a water receiving hole corresponding to the liquid permeating net is formed in the upper portion of the water storage bin, a movable opening is formed in the lower end of the left side of the water storage bin, and a pulley fixed to the lower end of the mold device is arranged between the lower end of the mold device and the upper portion of the water storage bin.

Preferably, the flow pipe extends horizontally and is vertically branched at the lower part to form a plurality of flow channels penetrating through the compactor, and a telescopic pipe communicated with the flow pipe penetrates through the support driving bin to be communicated with the outflow port.

Preferably, the mould device and the mould body are of a split structure.

The invention relates to a building garbage crushing and pressing brick making device, which has the following technical effects:

the invention relates to a brick making device for crushing and pressing construction wastes, sand and stones enter from a feeding port, a crushing motor drives a crushing power take-off gear to rotate through a crushing gear so as to drive a conical crushing body fixedly connected with a crushing rotating shaft to rotate, a gap between the conical crushing body and a crushing bin is gradually reduced from top to bottom due to the conical structure of the conical crushing body, a good crushing effect is achieved in the falling process of the sand and stones, the crushed sand and stones flow to a stirring bin from an inclined plane body, water is injected into the stirring bin through a water injection port and mixed and stirred with the sand and stones, the mixed sand and stones after stirring flow out from an outflow port and enter a feeding channel through a telescopic pipeline and a flow pipeline, the mixed sand and stones enter a split mold body formed by a mold device and a partition plate of a mold body through a flow valve below the feeding channel, and the flow valve is closed when the amount of the mixed sand and stones entering the split mold body reaches a preset value, the flow valve can detect, the material valve is controlled to be closed through the controller or manually closed, the sliding rack is driven to move by the sliding motor after the material valve is closed, the sliding rod and the sliding column on the sliding body are driven to move downwards, the sliding column slides in the sliding positioning hole, the fixing plate and the pressing device are driven to move downwards, the pressing plate below the pressing device enters the die parting body in the die device to press the mixed sand and stone, the mixed sand and stone are compressed and drained, water flows out from the liquid permeable net on the die parting body and the water flowing port corresponding to the liquid permeable net, after the compression and drainage are completed, the sliding motor drives the pressing plate to be separated from the die parting body, the pull rod is pulled, the die device is taken out, and the bricks are taken out to be separated and dried, so that the operation is completed. The construction sand and stone crushing and pressing device has the advantages that the construction sand and stone crushing and pressing are simultaneously completed on one set of equipment to form a recycled product, and the utilization efficiency of construction waste is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the position relationship of the sliding column, the sliding rack and the sliding body according to the present invention.

Fig. 3 is a schematic view of the construction of the impactor and die of the invention.

Description of the reference numerals

1-crushing bin, 11-feeding port, 12-ramp body, 131-conical crushing body, 1311-first crushing protrusion, 132-crushing rotating shaft, 133-matching rotating ring, 134-supporter, 135-matching bearing, 136-crushing power-taking gear, 14-crushing motor, 141-crushing gear, 15-second crushing protrusion, 2-stirring bin, 21-water filling port, 22-stirring motor, 221-stirring gear, 23-first stirring shaft, 231-first driven gear, 232-first stirring paddle, 24-second stirring shaft, 241-second driven gear, 242-second stirring paddle, 25-outflow port, 3-supporting driving bin, 41-sliding body, 411-sliding rack, 42-sliding motor, 43-sliding column, 44-fixing plate, 45-sliding positioner, 451-sliding positioning hole, 46-pressing device, 461-flow channel, 4611-flow valve, 462-pressing plate, 47-flow pipeline, 471-telescopic pipeline, 5-pressing bin, 61-mould device, 611-water flowing port, 62-pull rod, 63-mould body 631-liquid permeable net 632-separating plate 64-pulley, 65-limiting piece, 7-water storage bin, 71-water receiving hole and 72-movable opening.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in conjunction with the accompanying drawings, and it is to be understood that the embodiments described herein are merely illustrative and explanatory of the invention and are not restrictive thereof.

The invention provides a brick making device for crushing and pressing construction wastes, which comprises a shell, a crushing bin 1, a stirring bin 2, a supporting driving bin 3, a pressing bin 5 and a mould device 61, wherein the crushing bin 1 is positioned at the upper left part of the shell, a feeding hole 11 is arranged above the crushing bin 1, an inclined plane body 12 extending downwards from right to left is arranged in the middle of the crushing bin 1, the inclined plane body 12 divides the crushing bin 1 into a crushing upper bin body and a crushing lower bin body which are respectively closed, a crushing rotating shaft 132 which penetrates through an upper wall body of the crushing upper bin body and the inclined plane body 12 and is rotatably matched with the crushing bin upper bin body is arranged on the crushing bin 1, a conical crushing body 131 is arranged at the part of the crushing rotating shaft 132 positioned in the crushing bin upper bin body, and a crushing force taking gear 136 is arranged at the part of the crushing rotating shaft 132 positioned in the crushing bin lower bin body, a crushing motor 14 is arranged on the lower wall body of the lower bin body of the crushing bin, a crushing gear 141 is arranged on the crushing motor 14, the crushing gear 141 is meshed with the crushing power take-off gear 136, the left end of the inclined plane body 12 and the left shell of the upper bin body extend leftwards to form a discharge hole extending into the upper right end of the stirring bin 2, a water filling port 21 is arranged at the upper left end of the shell of the stirring bin 2, an outflow port 25 is arranged at the lower end of the stirring bin 2, a supporting driving bin 3 with a rectangular cross section is arranged at the lower ends of the crushing bin 1 and the stirring bin 2, a movable bin is formed between the supporting driving bin 3 and the crushing bin 1 and the stirring bin 2, a pressing bin 5 with an upper end opening is arranged at the lower end of the supporting driving bin 3, and a sliding body 41 in sliding fit with the supporting driving bin 3 is arranged on the supporting driving bin 3, the sliding body 41 comprises a plurality of groups of sliding positioners 45 which are positioned in the supporting driving bin 3 and fixed above two sides of the pressing bin 5, sliding positioning holes 451 which are in sliding fit with sliding columns 43 are arranged above the sliding positioners, the upper ends of the sliding columns 43 on two sides penetrate through the upper wall of the supporting driving bin 3 and are connected in the movable bin through sliding rods, a downwardly extending sliding rack 411 is arranged in the middle of each sliding rod, the sliding rack 411 is meshed with a driving gear arranged on a sliding motor 42 in the movable bin, a fixing plate 44 positioned in the supporting driving bin 3 is fixed on the plurality of groups of sliding columns 43, a plurality of pressing devices 46 are sequentially fixed on the fixing plate 44 from left to right, each pressing device 46 is provided with a vertically through material flowing channel 461, a pressing plate 462 is arranged at the lower end of the material flowing channel 461, and a material valve 4611 is arranged at the lower end of the material flowing channel 461, a fluid pipeline 47 is connected above the fluid channel 461, the fluid pipeline 47 is communicated with the telescopic pipeline 471 at the upper part, the upper part of the telescopic pipeline 471 is communicated with the outflow port 25, a mould device 61 with an upward opening is arranged at the opening corresponding to the upper end in the compaction bin 5, a mold body 63 with an upward opening corresponding to each of the pressing plates 462 is arranged in the mold 61, a plurality of vertically upward partition plates 632 are arranged in the die body 63 to divide the die body 63 into a number of divided die bodies corresponding to the number of the compression plates 462 and a size of the corresponding opening, a liquid permeable net 631 is respectively arranged below the die parting bodies, a limiting piece 65 for limiting the left end of the die device 61 is arranged on the left side of the opening at the upper end of the compaction bin 5, the lower end of the mold 61 is provided with a water flow port 611 corresponding to the liquid 631, and the outlet side of the right end of the mold 1 is provided with a pull rod 62.

The invention relates to a building rubbish crushing pressing brick making device, sand enters from a feeding port 11, a crushing motor 14 drives a crushing power take-off gear 136 to rotate through a crushing gear 141 so as to drive a conical crushing body 131 fixedly connected with a crushing rotating shaft 132 to rotate, a gap between the conical crushing body 131 and a crushing bin 1 is gradually reduced from top to bottom due to the conical structure, the sand has good crushing effect in the falling process, the crushed sand flows from an inclined plane body 12 to a discharging port and enters a stirring bin 2, water is injected into the stirring bin 2 through a water injection port 21 to be mixed and stirred with the sand, the stirred mixed sand flows out from an outflow port 25 and enters a feeding channel 461 through a telescopic pipeline 471 and a flow pipeline 47, and enters a split die body formed by a die set 61 and a die body 632 of a partition plate 63 through a flow valve 4611 below the flow channel 461, when the amount of the mixed sand and stone entering the split mold body reaches a preset value, the flow valve 4611 is closed, the flow valve 4611 of the invention can detect the injected mixed sand and stone through a sensor and reach the preset value, the flow valve 4611 is controlled to be closed through a controller or can be manually closed, after the flow valve 4611 is closed, the sliding rack 411 is driven to move by the sliding motor 42, the sliding rod and the sliding column 43 on the sliding body 41 are driven to move downwards, the sliding column 43 slides in the sliding positioning hole 451, the fixing plate 44 and the pressing device 45 are driven to move downwards, the pressing plate 4 below the pressing device 46 enters the split mold body in the mold device 61 to press the mixed sand and stone, the mixed sand and stone are compressed and drained, water flows out from the liquid permeable net 631 on the split mold body and the water flow port 611 corresponding to the liquid permeable net 631, after the compression and drainage are finished, the sliding motor 42 drives the pressing plate 462 to be pulled out from the split mold body, and pulling the pull rod 62, taking out the mould device 61, taking out the bricks, separating and drying the bricks, and finishing the operation. The construction sand and stone crushing and pressing device has the advantages that the construction sand and stone crushing and pressing are simultaneously completed on one set of equipment to form a recycled product, and the utilization efficiency of construction waste is improved.

Preferably, a fitting rotating ring 133 is disposed between the upper end of the crushing rotating shaft 132 and the upper wall of the upper crushing bin body, a supporter 134 is disposed between the crushing rotating shaft 132 and the inclined body 12, and a fitting bearing 135 is disposed between the supporter 134 and the conical crushing body 131.

In this way, by providing the corresponding engagement rotating ring 133 and the engagement bearing 135, the stability of the entire operation in the crushing bin 1 can be ensured.

Preferably, the cone-shaped crushing body 131 comprises an upper cone-shaped crushing body and a lower cone-shaped crushing body, an included angle between the upper cone-shaped crushing body and the vertical direction is larger than that between the lower cone-shaped crushing body and the vertical direction, a first crushing protrusion 1311 is arranged on the circumferential surface of the lower cone-shaped crushing body, and a second crushing protrusion 15 is arranged at a corresponding position of the shell of the crushing bin 1 corresponding to the first crushing protrusion 1311.

Like this, through the crushing body that sets up the biconical face, the contained angle of upper portion toper crushing body and vertical direction is greater than the angle of lower part toper crushing body and vertical direction to through the crushing body guide grit of upper portion toper and enter between the crushing body of lower part toper and the crushing storehouse 1 casing, and through be provided with first broken arch 1311 on the global of the crushing body of lower part toper, be provided with the broken arch 15 of second on the crushing storehouse 1 casing relevant position that corresponds first broken arch 1311, can realize better crushing effect.

Preferably, the stirring motor 2 is arranged on the stirring bin 2 outside the shell, the stirring gear 221 is arranged on the stirring motor 22, the left side and the right side of the stirring gear 221 are respectively engaged with the second driven gear 241 and the first driven gear 231, the first driven gear 231 and the second driven gear 241 are respectively provided with the first stirring shaft 23 and the second stirring shaft 24 at the center, and the first stirring shaft 23 and the second stirring shaft 24 are respectively provided with the first stirring paddle 232 and the second stirring paddle 242 at the parts located in the stirring bin 2.

Thus, the stirring motor 22 drives the two groups of stirring paddles to stir water and sand, thereby achieving better mixing effect.

Preferably, the lower wall body of the stirring bin 2 corresponding to the lower end of the first stirring paddle 232 is an inclined plate inclined towards the right lower end.

Thus, the sand and stone are stirred by the first stirring paddle 232, reach the second stirring paddle 242, and are stirred again, and then flow out from the outflow port after being sufficiently stirred.

Preferably, a water storage bin 7 is arranged below the pressing bin 5, a water receiving hole 71 corresponding to the liquid permeable net 631 is arranged above the water storage bin 7, a movable opening 72 is arranged at the lower end of the left side of the water storage bin 7, and a pulley 64 fixed at the lower end of the mold 61 is arranged between the lower end of the mold 61 and the upper portion of the water storage bin 7.

Preferably, the feed line 47 extends horizontally and branches vertically at the lower part to form a plurality of feed channels 461 penetrating through the hold-down device 46, and a telescopic line 471 communicating with the feed line 47 passes through the support driving chamber 3 and communicates with the outflow port 25.

Thus, when the sliding column 43 slides in the sliding positioning hole 451, the telescopic pipeline 471 can be better extended and retracted.

Preferably, the mold 61 and the mold body 63 are of a split structure.

The preferred embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the present invention is not limited thereto. Within the scope of the technical idea of the invention, many simple modifications can be made to the technical solution of the invention. Including each of the specific features, are combined in any suitable manner. The invention is not described in detail in order to avoid unnecessary repetition. Such simple modifications and combinations should be considered within the scope of the present disclosure as well.

Claims

1. A brick making device for crushing and pressing construction wastes is characterized by comprising a shell, a crushing bin, a stirring bin, a supporting and driving bin, a pressing bin and a mould device, wherein the crushing bin is positioned above the left side of the shell, a feeding hole is formed above the crushing bin, an inclined plane body extending from right to left downwards is arranged in the middle of the crushing bin, the inclined plane body divides the crushing bin into a crushing upper bin body and a crushing lower bin body which are respectively closed, a crushing rotating shaft which penetrates through an upper wall body of the crushing upper bin body and the inclined plane body and is in rotating fit with the crushing upper bin body is arranged on the crushing bin, a conical crushing body is arranged on the part, positioned in the crushing upper bin body, of the crushing rotating shaft, a crushing power taking gear is arranged on the part, positioned in the crushing lower bin body, of the crushing bin, and a crushing motor is arranged on the lower wall body of the crushing bin body, the crushing motor is provided with a crushing gear which is meshed with the crushing power take-off gear, the left end of the inclined plane body and the left shell of the crushing upper bin body extend leftwards to form a discharge hole extending into the upper right end of the stirring bin, the upper left end of the shell of the stirring bin is provided with a water injection port, the lower end of the stirring bin is provided with an outflow port, the lower ends of the crushing bin and the stirring bin are provided with a supporting driving bin with a rectangular cross section, a movable bin is formed between the supporting driving bin and the crushing bin as well as between the supporting driving bin and the stirring bin, the lower end of the supporting driving bin is provided with a pressing bin with an upper end opened, the supporting driving bin is provided with a sliding body which is in sliding fit with the supporting driving bin, and the sliding body comprises a plurality of groups of sliding positioners which are positioned in the supporting driving bin and fixed above two sides, a sliding positioning hole in sliding fit with the sliding column is arranged above the sliding positioner, the upper ends of the sliding columns on two sides penetrate through the upper wall of the supporting driving bin and are connected in the movable bin through a sliding rod, a downward extending sliding rack is arranged in the middle of the sliding rod and is meshed with a driving gear on a sliding motor arranged in the movable bin, a plurality of groups of fixing plates positioned in the supporting driving bin are fixed on the sliding columns, a plurality of pressing devices are sequentially fixed on the fixing plates from left to right, a flow channel which is communicated up and down is arranged on each pressing device, a pressing plate is arranged at the lower end of each flow channel, a flow valve is arranged at the lower end of each flow channel, a flow pipeline is connected above each flow channel, the upper part of each flow pipeline is communicated with the telescopic pipeline, and the upper part of each telescopic pipeline is communicated with the outflow port, the mould device is characterized in that a mould device with an upward opening is arranged in the compression bin corresponding to the upper end opening, a mould body with an upward opening and corresponding to each compression plate is arranged in the mould device, a plurality of vertical upward partition plates are arranged in the mould body to divide the mould body into mould dividing bodies with the number corresponding to the compression plates and the corresponding opening size, liquid permeable nets are respectively arranged below the mould dividing bodies, a limiting part for limiting the left end of the mould device is arranged on the left side of the upper end opening of the compression bin, a water flow port corresponding to the liquid permeable nets is arranged at the lower end of the mould device, and a pull rod is arranged on the outlet side of the right end of the mould device.

2. The construction waste crushing, pressing and brick making device as claimed in claim 1, wherein a rotating ring is disposed between the upper end of the crushing rotating shaft and the upper wall of the upper crushing bin body, a supporter is disposed between the crushing rotating shaft and the inclined plane body, and a bearing is disposed between the supporter and the conical crushing body.

3. The construction waste crushing, pressing and brick making device as claimed in claim 2, wherein the conical crushing body comprises an upper conical crushing body and a lower conical crushing body, the included angle between the upper conical crushing body and the vertical direction is larger than the included angle between the lower conical crushing body and the vertical direction, a first crushing protrusion is arranged on the peripheral surface of the lower conical crushing body, and a second crushing protrusion is arranged on the corresponding position of the shell of the crushing bin corresponding to the first crushing protrusion.

4. The building garbage crushing and pressing brick making device as claimed in claim 1, wherein a stirring motor is arranged outside the upper housing of the stirring bin, a stirring gear is arranged on the stirring motor, a second driven gear and a first driven gear are respectively engaged with the left side and the right side of the stirring gear, a first stirring shaft and a second stirring shaft are respectively arranged at the central positions of the first driven gear and the second driven gear, and a first stirring paddle and a second stirring paddle are respectively arranged on the first stirring shaft and the second stirring shaft which are positioned in the stirring bin.

5. The apparatus as claimed in claim 2, wherein the lower wall of the mixing bin corresponding to the lower end of the first paddle is a sloping plate sloping towards the lower right end.

6. The apparatus as claimed in claim 3, wherein a water storage bin is disposed below the pressing bin, a water receiving hole corresponding to the liquid permeable net is disposed above the water storage bin, a movable opening is disposed at the lower end of the left side of the water storage bin, and a pulley fixed to the lower end of the mold is disposed between the lower end of the mold and the upper portion of the water storage bin.

7. The building garbage crushing, pressing and brick making device as claimed in claim 6, wherein the flow pipe extends horizontally and is branched vertically at the lower part to form a plurality of flow channels penetrating through the compactor, and the telescopic pipe communicated with the flow pipe passes through the supporting driving bin and is communicated with the flow outlet.

8. The apparatus as claimed in claim 7, wherein the mold and the mold body are of a split structure.