CN210474112U - Crushing and recycling device for hollow bricks for buildings - Google Patents

Abstract

The utility model discloses a crushing recovery unit of hollow brick for building, it includes conveyer belt and crushing case, the waste liquid case has been placed to the conveyer belt below, both ends are connected with mounting panel A around the conveyer belt left side, the water tank has been placed to the backup pad A upper end that mounting panel A upper end is connected, the water tank has the water-locator through water pump and water piping connection, both ends all are connected with mounting panel B around conveyer belt middle part and right side, the air-blower is installed to the backup pad B upper end that mounting panel B upper end is connected, the air-blower is connected with the air distributor through the induced duct, crushing gear A right side meshing has crushing gear B, crushing gear C right side meshing has crushing gear D, crushing gear F left side meshing has crushing gear E, filter screen A and filter screen B's lower extreme middle part is installed vibrator A and vibrator B respectively, the discharging pipe below the; the utility model has the advantages of conveniently clear away impurity, improve the retrieval value, smash effectual efficient, dustproof effectual.

Description

Crushing and recycling device for hollow bricks for buildings

Technical Field

The utility model relates to a crushed aggregates equipment technical field especially relates to a crushing recovery unit of hollow brick for building.

Background

Some recyclable construction waste materials can be generated in the construction process, the waste materials can occupy a large amount of land resources when being accumulated on a construction site, if the construction waste materials are directly transported out, a large transportation space is needed, the hollow bricks are used as the recyclable construction waste materials, in the process of recycling, a crushing device is needed to crush the hollow brick, the stacking volume is reduced, the transportation space is reduced, the holes of the hollow brick are easy to contain impurities such as wood chips, scrap iron, dust and the like, the prior crushing device does not treat impurities in the holes of the hollow bricks, thereby reducing the recovery value, being insufficient in crushing, poor in crushing effect, having raised dust in the crushing process and polluting the environment, therefore, the crushing and recycling device for the hollow bricks for the building, which is convenient to remove impurities, improves recycling value, is crushed in a grading way, is thorough in crushing, good in crushing effect, high in efficiency, good in dustproof effect, energy-saving and environment-friendly, and is urgently needed to design.

Disclosure of Invention

The utility model aims at overcoming the not enough of prior art, and provide one kind and conveniently clear away impurity, improve the retrieval value, hierarchical crushing, smash thoroughly, smash effectual efficient, dustproof effectual, energy-concerving and environment-protective crushing recovery unit of hollow brick for building.

The purpose of the utility model is realized like this: the utility model provides a crushing recovery unit of hollow brick for building, it includes conveyer belt and crushing case, the conveyer belt be the net conveyer belt, conveyer belt lower extreme install the landing leg, the conveyer belt below place the waste liquid case, conveyer belt front end left side install drive arrangement, conveyer belt left side front and back both ends symmetric connection have a mounting panel A, mounting panel A upper end fixedly connected with backup pad A, backup pad A upper end front side place the water tank, water tank upper end middle part be provided with the water filling port, the water tank rear end be connected with the water pipe through the water pump, the water pipe other end run through backup pad A and be connected with the water distributor, water distributor upper end and backup pad A lower extreme fixed connection, the water distributor lower extreme evenly install nozzle A, conveyer belt middle part and right side front and back both ends all symmetric connection have a mounting panel B, the upper end of the mounting plate B is fixedly connected with a support plate B, the middle part of the upper end of the support plate B is fixedly provided with an air blower, the output end of the air blower is connected with an induced duct, the other end of the induced duct penetrates through the support plate B and is connected with an air distributor, the upper end of the air distributor is fixedly connected with the lower end of the support plate B, the lower end of the air distributor is uniformly provided with a nozzle B, the crushing box is positioned below the right side of the conveyor belt, the middle part of the upper end of the crushing box is connected with a feed hopper, a dust hood is arranged above the feed hopper, the upper end of the dust hood is connected with an exhaust duct through an exhaust fan, the other end of the exhaust duct is connected with a dust collection box, the left side of the upper part of the front end of the crushing box is connected with a motor A, the output shaft of the motor, the right side of the crushing gear A is engaged with a crushing gear B, the crushing gear B is sleeved on the outer side of the crushing shaft B, the left side and the right side of the middle part of the front end of the crushing box are respectively connected with a motor B and a motor C, output shafts of the motor B and the motor C are respectively connected with a crushing shaft C and a crushing shaft F, the other ends of the crushing shaft C and the crushing shaft F penetrate through the front side wall of the crushing box and are respectively and fixedly connected with the crushing gear C and the crushing gear F, the right side of the crushing gear C is engaged with a crushing gear D, the left side of the crushing gear F is engaged with a crushing gear E, the crushing gear D is engaged with the crushing gear E, the crushing gear D and the crushing gear E are respectively sleeved on the outer sides of the crushing shaft D and the crushing shaft E, the rear ends of the crushing shaft B, the crushing shaft D and the crushing shaft E penetrate through the rear side wall of the crushing box, and the upper parts of the inner, smash incasement crushing gear A and crushing gear B's below be provided with filter screen A, filter screen A lower extreme mid-mounting have vibrator A, crushing incasement crushing gear C, crushing gear D, crushing gear E and crushing gear F's below be provided with filter screen B, filter screen B lower extreme mid-mounting have vibrator B, vibrator A and vibrator B's the outside all be provided with the protective housing, vibrator A and vibrator B electric connection respectively have switch A and switch B, switch A and switch B all install at crushing incasement front end face, crushing incasement left and right sides inner wall lower part fixedly connected with guide plate B, crushing incasement lower extreme mid-connection have the discharging pipe, the discharging pipe on install the valve, discharging pipe below be provided with the receipts workbin.

The water distributor and the support plate A are connected by welding.

The air distributor and the support plate B are connected in a welding mode.

The guide plate A is an inclined plate, and one end of the guide plate A connected with the inner walls of the left side and the right side of the crushing box is higher than the other end of the guide plate A.

The guide plate B is an inclined plate, and one end of the guide plate B connected with the inner walls of the left side and the right side of the crushing box is higher than the other end of the guide plate B.

The filtering holes A of the filtering net A are larger than the filtering holes B of the filtering net B.

The width of the waste liquid box is larger than that of the conveying belt.

The utility model discloses the beneficial effect who produces: the utility model discloses a crushing recovery unit of hollow brick for building, the hollow brick waste material that produces in the work progress is placed on the conveyer belt, open the drive arrangement of conveyer belt, the conveyer belt conveys the hollow brick to the right, in the course of conveying, turn on water pump and air-blower, nozzle A evenly sprays water to the hollow brick below it, saw-dust, iron fillings and dust impurity in the hollow brick hole are washed off, impurity falls into the waste liquid case below through the net of net conveyer belt along with rivers, the width of waste liquid case is greater than the width of conveyer belt, make the impurity that washes off all collected in the waste liquid case, detach the impurity in the hole before smashing, improve the recovery value, nozzle B blows to the hollow brick after washing and makes the hollow brick air-dried, not only can prevent to make crushing gear skid and reduce crushing effect because of the humidity is too high, the crushing effect can be prevented from being reduced because the waste materials are adhered to the inner side wall of the crushing box due to overhigh humidity, the cleaned and air-dried hollow bricks are conveyed to the rightmost end of the conveyor belt and then fall into the feed hopper at the upper end of the crushing box, the motor A is turned on, the motor A drives the crushing shaft A to rotate, the crushing shaft A rotates to drive the crushing gear A to rotate, the crushing gear A is meshed with the crushing gear B, the crushing gear A drives the crushing gear B to rotate, the hollow bricks falling into the crushing box through the feed hopper are subjected to primary crushing through the crushing gear A and the crushing gear B, in the crushing process, the guide plate A enables the waste materials near the left side wall and the right side wall of the crushing box to slide towards the crushing gear A and the crushing gear B, the crushing blind area is reduced, the crushing effect and the crushing efficiency are improved, the hollow bricks after the primary crushing fall onto the filter screen A, when the size of the, the waste falls into the lower part of the filter screen A through the filter hole A, in the filtering process, the vibrator A is opened to enable the waste to be uniformly distributed on the filter screen A, the phenomenon of filter hole blockage is prevented, the filtering effect is improved, the waste which cannot reach the diameter of the filter hole A moves upwards under the vibration action of the vibrator A, the waste is continuously crushed by the crushing gear A and the crushing gear B until the crushing size of the waste is smaller than the diameter of the filter hole A, the motor B and the motor C are opened, the waste after primary crushing by the crushing gear A and the crushing gear B falls into the crushing gear C, the crushing gear D, the crushing gear E and the crushing gear F after the size of the waste is smaller than the diameter of the filter hole A, the motor B and the motor C respectively drive the crushing shaft C and the crushing shaft F to rotate, the crushing shaft C and the crushing shaft F respectively drive the crushing gear C and the crushing gear F to rotate, and the crushing gear C is meshed with the, the crushing gear E is meshed with the crushing gear F, the crushing gear C and the crushing gear F respectively drive the crushing gear D and the crushing gear E to rotate, the crushing gear C, the crushing gear D, the crushing gear E and the crushing gear F regrind the hollow brick waste, the crushed waste is filtered by the filter screen B, when the size of the crushed waste is smaller than the diameter of the filter hole B of the filter screen B, the waste falls below the filter screen B through the filter hole B, in the filtering process, the vibrator B is opened, the vibrator B enables the waste to be uniformly distributed on the filter screen B, the phenomenon of filter hole blockage is prevented, the filtering effect is improved, the waste which cannot reach the diameter of the filter hole B moves upwards under the vibration effect of the vibrator B, the crushing gear C, the crushing gear D, the crushing gear E and the crushing gear F continuously crush the waste until the crushing size of the waste is smaller than the diameter of the filter hole B, the completely crushed waste moves to the middle part of the lower end of the waste bin under the action of the guide plate B, a valve on the discharge pipe is opened, and the completely crushed waste falls into the receiving bin through the discharge pipe; the crushing gear A and the crushing gear B perform primary crushing on the waste, the crushing gear C, the crushing gear D, the crushing gear E and the crushing gear F perform re-crushing and grading crushing on the waste, the crushing effect is improved, the filter screen A performs primary filtering on the waste, the filter screen B performs re-filtering on the waste B, grading filtering is performed, and the filtering effect and efficiency are improved; in the crushing process, the exhaust fan is opened, and dust generated in the crushing process is collected into the dust collection box through the dust hood and the exhaust pipe, so that the dust prevention effect is good; protective shells are arranged on the outer sides of the vibrator A and the vibrator B, so that waste materials are prevented from damaging the vibrator A and the vibrator B in the crushing and filtering processes, and the service life is prolonged; generally, the utility model has the advantages of conveniently clear away impurity, improve the retrieval value, the stage crush, smash thoroughly, smash effectual efficient, dustproof effectual, energy-concerving and environment-protective.

Drawings

Fig. 1 is the utility model relates to a crushing recovery unit's of hollow brick for building schematic structure.

Fig. 2 is a left side view of the conveyor belt in the crushing and recycling device of the hollow brick for building.

Fig. 3 is a right side view of the conveyor belt in the crushing and recycling device for the hollow brick for building of the utility model.

Fig. 4 is the schematic view of the internal structure of the crushing box in the crushing and recycling device of the hollow brick for building.

In the figure: 1. waste liquid tank 2, supporting legs 3, conveyor belt 4, driving device 5, mounting plate A6, supporting plate A7, water tank 8, water injection port 9, mounting plate B10, blower 11, supporting plate B12, dust hood 13, exhaust fan 14, exhaust pipe 15, dust collection tank 16, feed hopper 17, crushing tank 18, motor C19, switch A20, valve 21, material receiving tank 22, discharge pipe 23, switch B24, motor B25, motor A26, water distributor 27, water pipe 28, water pump 29, nozzle A30, air distributor 31, air guide pipe 32, nozzle B33, crushing shaft A34, crushing shaft B35, crushing gear B36, guide plate A37, filter screen A38, crushing gear F39, crushing shaft F40, filter screen B41, crushing gear E42, crushing shaft E43, Vibrator B44, protective shell 45, guide plate B46, crushing gear D47, crushing shaft D48, filter hole B49, crushing shaft C50, crushing gear C51, vibrator A52, filter hole A53 and crushing gear A.

Detailed Description

Example 1

As shown in fig. 1-4, a crushing recovery device of hollow brick for building, it includes conveyer belt 3 and crushing case 17, conveyer belt 3 be the net conveyer belt, conveyer belt 3 lower extreme install landing leg 2, conveyer belt 3 below placed waste liquid case 1, conveyer belt 3 front end left side install drive arrangement 4, conveyer belt 3 left side front and back both ends symmetric connection have mounting panel a5, mounting panel a5 upper end fixedly connected with backup pad A6, backup pad A6 upper end front side place water tank 7, water tank 7 upper end middle part be provided with water filling port 8, water tank 7 rear end be connected with water pipe 27 through water pump 28, water pipe 27 other end run through backup pad A6 and be connected with water distributor 26, water distributor 26 upper end and backup pad A6 lower extreme fixed connection, water distributor 26 lower extreme evenly install nozzle a29, conveyer belt 3 middle part and the equal symmetric connection in both ends around on right side have mounting panel B9, mounting panel B9 upper end fixedly connected with backup pad B11, backup pad B11 upper end middle part fixed mounting have air-blower 10, the output of air-blower 10 be connected with induced duct 31, the induced duct 31 other end run through backup pad B11 and be connected with air distributor 30, air distributor 30 upper end and backup pad B11 lower extreme fixed connection, air distributor 30 lower extreme evenly install nozzle B32, crushing case 17 be located the right side below of conveyer belt 3, crushing case 17 upper end middle part be connected with feeder hopper 16, feeder hopper 16 top be provided with suction hood 12, suction hood 12 upper end be connected with suction hood 14 through air exhauster 13, suction hood 14 other end be connected with dust collection box 15, crushing case 17 front end upper portion left side be connected with motor A25, an output shaft of the motor A25 is connected with a crushing shaft A33, the other end of the crushing shaft A33 penetrates through the front side wall of the crushing box 17 and is fixedly connected with a crushing gear A53, the right side of the crushing gear A53 is meshed with a crushing gear B35, the crushing gear B35 is sleeved outside the crushing shaft B34, the left side and the right side of the middle part of the front end of the crushing box 17 are respectively connected with a motor B24 and a motor C18, output shafts of the motor B24 and the motor C18 are respectively connected with a crushing shaft C49 and a crushing shaft F39, the other ends of the crushing shaft C49 and the crushing shaft F39 penetrate through the front side wall of the crushing box 17 and are respectively and fixedly connected with a crushing gear C39 and a crushing gear F39, the right side of the crushing gear C39 is meshed with a crushing gear D39, the left side of the crushing gear F39 is meshed with a crushing gear E39, the crushing gear D39 and the crushing gear E39 are respectively meshed outside the crushing shaft 39, the rear ends of the crushing shaft B34, the crushing shaft D47 and the crushing shaft E42 penetrate through the rear side wall of the crushing box 17, guide plates A36 are fixedly connected to the upper portions of the inner walls of the left side and the right side of the crushing box 17, a filter screen A37 is arranged below the crushing gear A53 and the crushing gear B35 in the crushing box 17, a vibrator A51 is arranged in the middle of the lower end of the filter screen A37, a vibrator A50, a crushing gear D46, a crushing gear E41 and a filter screen B40 are arranged below the crushing gear F38 in the crushing box 17, a vibrator B43 is arranged in the middle of the lower end of the filter screen B40, protective housings 44 are arranged on the outer sides of the vibrator A51 and the vibrator 695B 2, a switch 19 and a switch B23 are respectively and electrically connected with the vibrator A51 and the vibrator B43, the switch A19 and the switch B23 are respectively arranged on the front end face of the crushing box 17, guide plates B45 are fixedly connected to the lower portions of the, smash case 17 lower extreme middle part be connected with discharging pipe 22, discharging pipe 22 on install valve 10, discharging pipe 22 below be provided with and receive workbin 21.

The utility model discloses a crushing recovery unit of hollow brick for building, the hollow brick waste material that produces in the work progress is placed on the conveyer belt, open the drive arrangement of conveyer belt, the conveyer belt conveys the hollow brick to the right, in the course of conveying, turn on water pump and air-blower, nozzle A evenly sprays water to the hollow brick below it, saw-dust, iron fillings and dust impurity in the hollow brick hole are washed off, impurity falls into the waste liquid case below through the net of net conveyer belt along with rivers, detach the impurity in the hole before smashing, improve the recovery value, nozzle B blows to the hollow brick after washing and makes the hollow brick air-dry, not only can prevent to make crushing gear skid and reduce crushing effect because of the humidity is too high in the crushing process, can also prevent to make the waste material adhesion reduce crushing effect on crushing incasement lateral wall because of humidity is too high, the cleaned and air-dried hollow brick is conveyed to the rightmost end of the conveyor belt and then falls into a feed hopper at the upper end of a crushing box, a motor A is started, the motor A drives a crushing shaft A to rotate, the crushing shaft A rotates to drive a crushing gear A to rotate, the crushing gear A is meshed with a crushing gear B, the crushing gear A drives a crushing gear B to rotate, the hollow brick falling into the crushing box through the feed hopper is subjected to primary crushing through the crushing gear A and the crushing gear B, in the crushing process, waste materials near the left side wall and the right side wall of the crushing box slide towards the crushing gear A and the crushing gear B by a guide plate A, the crushing blind area is reduced, the crushing effect and efficiency are improved, the hollow brick waste materials after primary crushing fall onto a filter screen A, and when the size of the crushed waste materials is smaller than the diameter of a filter hole A of the filter screen A, the waste materials fall below the, in the filtering process, the vibrator A is opened, the vibrator A enables waste to be uniformly distributed on the filter screen A, the phenomenon of filter hole blockage is prevented, the filtering effect is improved, the waste which cannot reach the diameter of the filter hole A moves upwards under the vibration action of the vibrator A, the crushing gear A and the crushing gear B continuously crush the waste until the crushing size of the waste is smaller than the diameter of the filter hole A, the motor B and the motor C are opened, the waste after primary crushing through the crushing gear A and the crushing gear B is smaller than the diameter of the filter hole A and then falls into the crushing gear C, the crushing gear D, the crushing gear E and the crushing gear F, the motor B and the motor C respectively drive the crushing shaft C and the crushing shaft F to rotate, the crushing shaft C and the crushing shaft F respectively drive the crushing gear C and the crushing gear F to rotate, the crushing gear C is meshed with the crushing gear D, and the crushing gear E is meshed with the crushing gear F, the crushing gear C and the crushing gear F respectively drive the crushing gear D and the crushing gear E to rotate, the crushing gear C, the crushing gear D, the crushing gear E and the crushing gear F re-crush the hollow brick waste, the crushed waste is filtered by the filter screen B, when the size of the crushed waste is smaller than the diameter of the filter hole B of the filter screen B, the waste falls below the filter screen B through the filter hole B, in the filtering process, the vibrator B is opened, the vibrator B enables the waste to be uniformly distributed on the filter screen B, the phenomenon of filter hole blockage is prevented, the filtering effect is improved, the waste which cannot reach the diameter of the filter hole B moves upwards under the vibration effect of the vibrator B, the crushing gear C, the crushing gear D, the crushing gear E and the crushing gear F continue to crush the waste until the crushing size of the waste is smaller than the diameter of the filter hole B, the completely crushed waste moves towards the middle part of the lower end of the waste bin under the effect of the guide plate B, opening a valve on the discharge pipe, and allowing the completely crushed waste to fall into a material receiving box through the discharge pipe; in the crushing process, the exhaust fan is opened, and dust generated in the crushing process is collected into the dust collection box through the dust hood and the exhaust pipe, so that the dust prevention effect is good; the protective housings are arranged on the outer sides of the vibrator A and the vibrator B, waste materials are prevented from damaging the vibrator A and the vibrator B in the crushing and filtering processes, and the service life is prolonged.

Example 2

As shown in fig. 1-4, a crushing recovery device of hollow brick for building, it includes conveyer belt 3 and crushing case 17, conveyer belt 3 be the net conveyer belt, conveyer belt 3 lower extreme install landing leg 2, conveyer belt 3 below placed waste liquid case 1, conveyer belt 3 front end left side install drive arrangement 4, conveyer belt 3 left side front and back both ends symmetric connection have mounting panel a5, mounting panel a5 upper end fixedly connected with backup pad A6, backup pad A6 upper end front side place water tank 7, water tank 7 upper end middle part be provided with water filling port 8, water tank 7 rear end be connected with water pipe 27 through water pump 28, water pipe 27 other end run through backup pad A6 and be connected with water distributor 26, water distributor 26 upper end and backup pad A6 lower extreme fixed connection, water distributor 26 lower extreme evenly install nozzle a29, conveyer belt 3 middle part and the equal symmetric connection in both ends around on right side have mounting panel B9, mounting panel B9 upper end fixedly connected with backup pad B11, backup pad B11 upper end middle part fixed mounting have air-blower 10, the output of air-blower 10 be connected with induced duct 31, the induced duct 31 other end run through backup pad B11 and be connected with air distributor 30, air distributor 30 upper end and backup pad B11 lower extreme fixed connection, air distributor 30 lower extreme evenly install nozzle B32, crushing case 17 be located the right side below of conveyer belt 3, crushing case 17 upper end middle part be connected with feeder hopper 16, feeder hopper 16 top be provided with suction hood 12, suction hood 12 upper end be connected with suction hood 14 through air exhauster 13, suction hood 14 other end be connected with dust collection box 15, crushing case 17 front end upper portion left side be connected with motor A25, an output shaft of the motor A25 is connected with a crushing shaft A33, the other end of the crushing shaft A33 penetrates through the front side wall of the crushing box 17 and is fixedly connected with a crushing gear A53, the right side of the crushing gear A53 is meshed with a crushing gear B35, the crushing gear B35 is sleeved outside the crushing shaft B34, the left side and the right side of the middle part of the front end of the crushing box 17 are respectively connected with a motor B24 and a motor C18, output shafts of the motor B24 and the motor C18 are respectively connected with a crushing shaft C49 and a crushing shaft F39, the other ends of the crushing shaft C49 and the crushing shaft F39 penetrate through the front side wall of the crushing box 17 and are respectively and fixedly connected with a crushing gear C39 and a crushing gear F39, the right side of the crushing gear C39 is meshed with a crushing gear D39, the left side of the crushing gear F39 is meshed with a crushing gear E39, the crushing gear D39 and the crushing gear E39 are respectively meshed outside the crushing shaft 39, the rear ends of the crushing shaft B34, the crushing shaft D47 and the crushing shaft E42 penetrate through the rear side wall of the crushing box 17, guide plates A36 are fixedly connected to the upper portions of the inner walls of the left side and the right side of the crushing box 17, a filter screen A37 is arranged below the crushing gear A53 and the crushing gear B35 in the crushing box 17, a vibrator A51 is arranged in the middle of the lower end of the filter screen A37, a vibrator A50, a crushing gear D46, a crushing gear E41 and a filter screen B40 are arranged below the crushing gear F38 in the crushing box 17, a vibrator B43 is arranged in the middle of the lower end of the filter screen B40, protective housings 44 are arranged on the outer sides of the vibrator A51 and the vibrator 695B 2, a switch 19 and a switch B23 are respectively and electrically connected with the vibrator A51 and the vibrator B43, the switch A19 and the switch B23 are respectively arranged on the front end face of the crushing box 17, guide plates B45 are fixedly connected to the lower portions of the, smash case 17 lower extreme middle part be connected with discharging pipe 22, discharging pipe 22 on install valve 10, discharging pipe 22 below be provided with and receive workbin 21, water-locator 26 be the welding with backup pad A6's connected mode, air distributor 30 be the welding with backup pad B11's connected mode, guide plate A36 be the hang plate, the one end that guide plate A36 and crushing case 17 left and right sides inner wall link to each other is higher than guide plate 36A's the other end, guide plate B45 be the hang plate, the one end that guide plate B45 and crushing case 17 left and right sides inner wall link to each other is higher than guide plate B25's the other end, filter screen A37's filter opening A52 be greater than filter screen B40's filter opening B48, waste liquid case 1's width be greater than conveyer belt 3's width.

The utility model discloses a crushing recovery unit of hollow brick for building, the hollow brick waste material that produces in the work progress is placed on the conveyer belt, open the drive arrangement of conveyer belt, the conveyer belt conveys the hollow brick to the right, in the course of conveying, turn on water pump and air-blower, nozzle A evenly sprays water to the hollow brick below it, saw-dust, iron fillings and dust impurity in the hollow brick hole are washed off, impurity falls into the waste liquid case below through the net of net conveyer belt along with rivers, the width of waste liquid case is greater than the width of conveyer belt, make the impurity that washes off all collected in the waste liquid case, detach the impurity in the hole before smashing, improve the recovery value, nozzle B blows to the hollow brick after washing and makes the hollow brick air-dried, not only can prevent to make crushing gear skid and reduce crushing effect because of the humidity is too high, the crushing effect can be prevented from being reduced because the waste materials are adhered to the inner side wall of the crushing box due to overhigh humidity, the cleaned and air-dried hollow bricks are conveyed to the rightmost end of the conveyor belt and then fall into the feed hopper at the upper end of the crushing box, the motor A is turned on, the motor A drives the crushing shaft A to rotate, the crushing shaft A rotates to drive the crushing gear A to rotate, the crushing gear A is meshed with the crushing gear B, the crushing gear A drives the crushing gear B to rotate, the hollow bricks falling into the crushing box through the feed hopper are subjected to primary crushing through the crushing gear A and the crushing gear B, in the crushing process, the guide plate A enables the waste materials near the left side wall and the right side wall of the crushing box to slide towards the crushing gear A and the crushing gear B, the crushing blind area is reduced, the crushing effect and the crushing efficiency are improved, the hollow bricks after the primary crushing fall onto the filter screen A, when the size of the, the waste falls into the lower part of the filter screen A through the filter hole A, in the filtering process, the vibrator A is opened to enable the waste to be uniformly distributed on the filter screen A, the phenomenon of filter hole blockage is prevented, the filtering effect is improved, the waste which cannot reach the diameter of the filter hole A moves upwards under the vibration action of the vibrator A, the waste is continuously crushed by the crushing gear A and the crushing gear B until the crushing size of the waste is smaller than the diameter of the filter hole A, the motor B and the motor C are opened, the waste after primary crushing by the crushing gear A and the crushing gear B falls into the crushing gear C, the crushing gear D, the crushing gear E and the crushing gear F after the size of the waste is smaller than the diameter of the filter hole A, the motor B and the motor C respectively drive the crushing shaft C and the crushing shaft F to rotate, the crushing shaft C and the crushing shaft F respectively drive the crushing gear C and the crushing gear F to rotate, and the crushing gear C is meshed with the, the crushing gear E is meshed with the crushing gear F, the crushing gear C and the crushing gear F respectively drive the crushing gear D and the crushing gear E to rotate, the crushing gear C, the crushing gear D, the crushing gear E and the crushing gear F regrind the hollow brick waste, the crushed waste is filtered by the filter screen B, when the size of the crushed waste is smaller than the diameter of the filter hole B of the filter screen B, the waste falls below the filter screen B through the filter hole B, in the filtering process, the vibrator B is opened, the vibrator B enables the waste to be uniformly distributed on the filter screen B, the phenomenon of filter hole blockage is prevented, the filtering effect is improved, the waste which cannot reach the diameter of the filter hole B moves upwards under the vibration effect of the vibrator B, the crushing gear C, the crushing gear D, the crushing gear E and the crushing gear F continuously crush the waste until the crushing size of the waste is smaller than the diameter of the filter hole B, the completely crushed waste moves to the middle part of the lower end of the waste bin under the action of the guide plate B, a valve on the discharge pipe is opened, and the completely crushed waste falls into the receiving bin through the discharge pipe; the crushing gear A and the crushing gear B perform primary crushing on the waste, the crushing gear C, the crushing gear D, the crushing gear E and the crushing gear F perform re-crushing and grading crushing on the waste, the crushing effect is improved, the filter screen A performs primary filtering on the waste, the filter screen B performs re-filtering on the waste B, grading filtering is performed, and the filtering effect and efficiency are improved; in the crushing process, the exhaust fan is opened, and dust generated in the crushing process is collected into the dust collection box through the dust hood and the exhaust pipe, so that the dust prevention effect is good; protective shells are arranged on the outer sides of the vibrator A and the vibrator B, so that waste materials are prevented from damaging the vibrator A and the vibrator B in the crushing and filtering processes, and the service life is prolonged; generally, the utility model has the advantages of conveniently clear away impurity, improve the retrieval value, the stage crush, smash thoroughly, smash effectual efficient, dustproof effectual, energy-concerving and environment-protective.

Claims (7)

1. The utility model provides a crushing recovery unit of hollow brick for building, it includes conveyer belt and crushing case, its characterized in that: the conveyer belt be the net conveyer belt, the conveyer belt lower extreme install the landing leg, the conveyer belt below placed the waste liquid case, conveyer belt front end left side install drive arrangement, conveyer belt left side around both ends symmetric connection have a mounting panel A, mounting panel A upper end fixedly connected with backup pad A, backup pad A upper end front side placed the water tank, water tank upper end middle part be provided with the water filling port, the water tank rear end be connected with the water pipe through the water pump, the water pipe other end run through backup pad A and be connected with the water-locator, water-locator upper end and backup pad A lower extreme fixed connection, water-locator lower extreme evenly install nozzle A, conveyer belt middle part and right around both ends all symmetric connection have a mounting panel B, mounting panel B upper end fixedly connected with backup pad B, backup pad B upper end middle part fixed mounting of air-blower, the output end of the air blower is connected with an induced air pipe, the other end of the induced air pipe penetrates through a support plate B and is connected with an air distributor, the upper end of the air distributor is fixedly connected with the lower end of the support plate B, a nozzle B is uniformly installed at the lower end of the air distributor, the crushing box is positioned below the right side of the conveyor belt, the middle part of the upper end of the crushing box is connected with a feed hopper, a dust hood is arranged above the feed hopper, the upper end of the dust hood is connected with an induced air pipe through an exhaust fan, the other end of the induced air pipe is connected with a dust collection box, the left side of the upper part of the front end of the crushing box is connected with a motor A, the output shaft of the motor A is connected with a crushing shaft A, the other end of the crushing shaft A penetrates through the front side wall of the crushing box and is fixedly connected with a crushing gear A, the, the left side and the right side of the middle part of the front end of the crushing box are respectively connected with a motor B and a motor C, output shafts of the motor B and the motor C are respectively connected with a crushing shaft C and a crushing shaft F, the other ends of the crushing shaft C and the crushing shaft F penetrate through the front side wall of the crushing box and are respectively and fixedly connected with a crushing gear C and a crushing gear F, the right side of the crushing gear C is meshed with a crushing gear D, the left side of the crushing gear F is meshed with a crushing gear E, the crushing gear D is meshed with the crushing gear E, the crushing gear D and the crushing gear E are respectively sleeved at the outer sides of the crushing shaft D and the crushing shaft E, the rear ends of the crushing shaft B, the crushing shaft D and the crushing shaft E all penetrate through the rear side wall of the crushing box, the upper parts of the inner walls of the left side and the right side of the crushing box are fixedly connected with a guide plate A, and a filter screen A, filter screen A lower extreme mid-mounting have vibrator A, the below of smashing incasement crushing gear C, crushing gear D, crushing gear E and crushing gear F be provided with filter screen B, filter screen B lower extreme mid-mounting have vibrator B, vibrator A and vibrator B's the outside all be provided with the protective housing, vibrator A and vibrator B electric connection have switch A and switch B respectively, switch A and switch B all install terminal surface before smashing the case, crushing case left and right sides inner wall lower part fixedly connected with guide plate B, crushing case lower extreme mid-connection have the discharging pipe, the discharging pipe on install the valve, discharging pipe below be provided with and receive the workbin.

2. A crushing recovery device for hollow bricks for building according to claim 1, characterized in that: the water distributor and the support plate A are connected by welding.

3. A crushing recovery device for hollow bricks for building according to claim 1, characterized in that: the air distributor and the support plate B are connected in a welding mode.

4. A crushing recovery device for hollow bricks for building according to claim 1, characterized in that: the guide plate A is an inclined plate, and one end of the guide plate A connected with the inner walls of the left side and the right side of the crushing box is higher than the other end of the guide plate A.

5. A crushing recovery device for hollow bricks for building according to claim 1, characterized in that: the guide plate B is an inclined plate, and one end of the guide plate B connected with the inner walls of the left side and the right side of the crushing box is higher than the other end of the guide plate B.

6. A crushing recovery device for hollow bricks for building according to claim 1, characterized in that: the filtering holes A of the filtering net A are larger than the filtering holes B of the filtering net B.

7. A crushing recovery device for hollow bricks for building according to claim 1, characterized in that: the width of the waste liquid box is larger than that of the conveying belt.

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