CN109622200B - Novel double-discharge-port stone crusher for dust fall building - Google Patents

Abstract

The invention relates to a building, in particular to a novel double-discharge-port dust-settling stone crusher for a building, which comprises a primary stone crushing mechanism, a secondary stone crushing mechanism, a dust settling mechanism, a secondary discharging and tertiary stone crushing mechanism, a device shell and a lifting moving wheel mechanism. Primary rubble mechanism is connected with the device shell, and second grade rubble mechanism is connected with the device shell, and dust fall mechanism is connected with the device shell, and the material is arranged to the second grade and tertiary rubble mechanism is connected with the device shell, and the device shell is connected through fastening screw with lift moving wheel mechanism.

Description

Novel double-discharge-port stone crusher for dust fall building

Technical Field

The invention relates to construction, in particular to a novel double-discharge-port stone crusher for a dust fall building.

Background

In the construction process of building engineering, larger stones are often required to be crushed, a stone crusher is used, the ordinary stone crusher can only crush the stones into stones with one specification, a large amount of dust is generated in the using process, and in order to solve the problems, a novel double-discharge-port stone crusher for dust fall buildings is designed to solve the problems.

Disclosure of Invention

The invention mainly solves the technical problem of providing a novel double-discharge-port dust-settling stone crusher for buildings, the device can produce crushed stones with two specifications and sizes, can adjust the sizes of the crushed stones according to actual requirements, has a dust-settling function, reduces dust generated during the operation of the device, has a simple elevator function, and can increase the space of a chassis.

The invention relates to a building-related dust-settling stone crusher with double discharge ports, in particular to a novel double-discharge-port dust-settling building stone crusher, which comprises a primary stone crushing mechanism, a secondary stone crushing mechanism, a dust-settling mechanism, a secondary discharging and tertiary stone crushing mechanism, a device shell and a lifting moving wheel mechanism.

The primary stone crushing mechanism comprises an auxiliary crushing shaft, a main crushing shaft, an auxiliary extrusion plate, an extrusion plate power mechanism, a connecting gear and a primary motor, wherein the auxiliary crushing shaft is movably connected with a device shell through a groove in a contact manner;

the extrusion plate power mechanism comprises an extrusion main plate, a push rod, a swing shaft, a linkage gear and a swing rod, the extrusion main plate is connected with the push rod through welding, the push rod is connected with the swing rod through a fastening bolt, the swing rod is connected with the swing shaft through a fastening bolt, the linkage gear is adapted to the swing shaft through a through hole, the linkage gear is connected with the swing shaft through welding, and the linkage gear is connected with the connecting gear through a gear chain;

the secondary stone crushing mechanism comprises a first fixed gear, a second fixed gear, a first stirring rotating shaft and a second stirring rotating shaft, wherein the first fixed gear is connected with the primary motor through a gear chain, the first fixed gear is connected with the second stirring rotating shaft through welding, the second stirring rotating shaft is movably connected with the device shell through a through hole, the second fixed gear is connected with the first stirring rotating shaft through welding, the first stirring rotating shaft is movably connected with the device shell through the through hole, the first fixed gear is meshed with the second fixed gear, and the first stirring rotating shaft is matched with the second stirring rotating shaft;

the dust fall mechanism comprises a water tank sealing cover, a water tank body, a sprinkling grid plate, an electric sealing door, a fan fixing shell and a fan mechanism, wherein the fan fixing shell is connected with the fan mechanism through welding;

the fan mechanism comprises a fan motor, a fan fixing frame and a fan, wherein one end of the fan fixing frame is connected with the fan fixing shell through welding, the fan motor is connected with the fan fixing frame through welding, and the fan is arranged on the fan motor;

the second-stage discharging and third-stage stone crushing mechanism comprises a crawler belt driving auxiliary shaft, a transmission crawler belt, a crawler belt driving main shaft, an electric adjusting door, an engine, a gear and a third-stage stone crushing shaft group, wherein the crawler belt driving auxiliary shaft is connected with the transmission crawler belt, the transmission crawler belt is connected with the crawler belt driving main shaft, the crawler belt driving main shaft and the crawler belt driving auxiliary shaft are both in movable contact connection with the device shell through grooves, the electric adjusting door is installed on the device shell, the engine is connected with the device shell through welding, the engine is meshed with the gear, the gear is connected with the crawler belt driving main shaft through a gear chain, the gear is connected with the third-stage stone crushing shaft group through;

the third-level gravel shaft group comprises a power main shaft and a gravel auxiliary shaft, the power main shaft is connected with the gear through a gear chain, and the power main shaft is meshed with the gravel auxiliary shaft;

the device comprises a shell, a lifting adapting groove, a material inlet, a first material outlet, a second material outlet, a grid plate and a grid baffle, wherein the material inlet is formed in the shell, the lifting adapting groove adapts to a lifting jack, the grid plate is connected with the shell through welding, the first material outlet is formed in the shell, the second material outlet is formed in the shell, and the grid baffle is arranged on the shell;

the lifting moving wheel mechanism comprises a moving wheel, a moving wheel connecting piece and a lifting jack, the moving wheel is connected with the moving wheel connecting piece through a fastening bolt, the moving wheel connecting piece is matched with the lifting jack through a groove, the moving wheel connecting piece is connected with the lifting jack through a fastening screw, and the lifting jack is connected with the shell main body through a fastening screw;

primary rubble mechanism is connected with the device shell, and second grade rubble mechanism is connected with the device shell, and dust fall mechanism is connected with the device shell, and the material is arranged to the second grade and tertiary rubble mechanism is connected with the device shell, and the device shell is connected through fastening screw with lift moving wheel mechanism.

As a further optimization of the technical scheme, the number of the lifting moving wheel mechanisms of the novel double-discharge-port stone crusher for the dust fall building is four, and the four lifting moving wheel mechanisms are uniformly distributed at the bottom of the device shell.

As a further optimization of the technical scheme, the number of the auxiliary stone shafts of the novel double-discharge-port stone crusher for the dust fall building is three.

As a further optimization of the technical scheme, the auxiliary crushing shaft and the main crushing shaft of the novel double-discharge-port dust-settling construction stone crusher are positioned on the same horizontal line.

As a further optimization of the technical scheme, the first stirring rotating shaft and the second stirring rotating shaft of the novel double-discharge-port dust-settling construction stone crusher are parallel.

As a further optimization of the technical scheme, the number of the grid plates of the novel double-discharge-port stone crusher for the dust fall building is three.

As a further optimization of the technical scheme, the number of the fan fixing frames of the novel double-discharge-port dust-settling stone crusher for buildings is four, and the fan fixing frames are uniformly distributed around the fan motor.

The novel stone crusher with double discharge ports for dust fall buildings has the beneficial effects that:

the novel double-discharge-port dust-settling stone crusher for the building can produce crushed stones with two specifications and sizes, can adjust the sizes of the crushed stones according to actual requirements, has a dust-settling function, reduces dust generated during the operation of the device, has a simple elevator function, and can increase the space of a chassis.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a novel double-discharge-port stone crusher for dust fall buildings.

Fig. 2 is a partially enlarged structural diagram of a in fig. 1.

FIG. 3 is a schematic structural diagram of a novel double-discharge-port squeeze plate power mechanism 1-4 of the dust-settling construction stone crusher.

FIG. 4 is a schematic diagram of a three-dimensional connection structure of a swing shaft 1-4-3 and a linkage gear 1-4-4 of the novel double-discharge-port dust-settling construction stone crusher.

Fig. 5 is a schematic structural diagram of a second-stage stone breaking mechanism 2 of the novel double-discharge-port dust-fall building stone breaker.

Fig. 6 is a schematic structural diagram of a dust settling mechanism 3 of the novel double-discharge-port dust settling construction stone crusher of the invention.

Fig. 7 is a schematic structural diagram of fan mechanisms 3-6 of the novel double-discharge-port dust-settling construction stone crusher.

Fig. 8 is a partially enlarged structural diagram of B in fig. 1.

Fig. 9 is a schematic structural diagram of a three-stage stone crushing shaft group 4-7 of the novel double-discharge-port dust-settling construction stone crusher.

Fig. 10 is a schematic structural diagram of the device housing 5 of the novel double-discharge-port dust-settling construction stone crusher.

Fig. 11 is a schematic structural diagram of a lifting moving wheel mechanism 6 of the novel double-discharge-port dust-fall construction stone crusher.

In the figure: a primary rock breaking mechanism 1; 1-1 of an auxiliary crushing shaft; a main crushing shaft 1-2; 1-3 of an auxiliary extrusion plate; a power mechanism 1-4 of the extrusion plate; extruding the main board 1-4-1; push rod 1-4-2; 1-4-3 of a swinging shaft; 1-4-4 of a linkage gear; 1-4-5 of a swing rod; connecting gears 1-5; primary motors 1-6; a secondary stone breaking mechanism 2; fixing a first gear 2-1; fixing a gear II 2-2; crushing the first rotating shaft 2-3; crushing the second rotating shaft 2-4; a dust falling mechanism 3; 3-1 of a water tank sealing cover; a water tank body 3-2; 3-3 of a watering grid plate; 3-4 of an electric sealing door; 3-5 parts of a fan fixing shell; 3-6 parts of a fan mechanism; 3-6-1 of a fan motor; 3-6-2 parts of a fan fixing frame; 3-6-3 of a fan; a second-stage discharging and third-stage stone breaking mechanism 4; the crawler belt drives the auxiliary shaft 4-1; a conveying crawler 4-2; the caterpillar band drives the main shaft 4-3; 4-4 of an electric adjusting door; 4-5 of an engine; 4-6 parts of gear; 4-7 of a third-level gravel shaft group; 4-7-1 of a power main shaft; a minor crushed stone shaft 4-7-2; a device housing 5; a housing main body 5-1; a lifting adaptive groove 5-2; a feeding port 5-3; 5-4 of a first discharge port; 5-5 parts of a second discharge port; 5-6 parts of a grid plate; 5-7 of grid baffle plates; a lifting moving wheel mechanism 6; a moving wheel 6-1; a moving wheel connecting piece 6-2; and 6-3 of lifting jack.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 and 11, and the invention relates to building-related, more specifically to a novel double-discharge-port dust-settling building stone crusher, which comprises a primary stone crushing mechanism 1, a secondary stone crushing mechanism 2, a dust-settling mechanism 3, a secondary discharge and tertiary stone crushing mechanism 4, a device shell 5 and a lifting moving wheel mechanism 6.

The primary stone breaking mechanism 1 comprises an auxiliary crushing shaft 1-1, a main crushing shaft 1-2, an auxiliary extrusion plate 1-3, an extrusion plate power mechanism 1-4, a connecting gear 1-5 and a primary motor 1-6, wherein the auxiliary crushing shaft 1-1 is movably connected with a device shell 5 through a groove, the main crushing shaft 1-2 is movably connected with the device shell 5 through a groove, the auxiliary crushing shaft 1-1 is meshed with the main crushing shaft 1-2, the auxiliary extrusion plate 1-3 is connected with the device shell 5 through a fastening screw, the primary motor 1-6 is connected with the device shell 5 through welding, the primary motor 1-6 is meshed with the connecting gear 1-5, the connecting gear 1-5 is connected with the main crushing shaft 1-2 through a gear chain, the connecting gear 1-5 is connected with the extrusion plate power mechanism 1-4 through a gear chain, the auxiliary extrusion plate 1-3 corresponds to the extrusion plate power mechanism 1-4, the connecting gear 1-5 drives the main crushing shaft 1-2 to rotate, the main crushing shaft 1-2 and the auxiliary crushing shaft 1-1 are matched with each other, so that stone is crushed, the preliminarily crushed stone enters the secondary stone crushing mechanism 2, the primary motor 1-6 provides power for the device, and the auxiliary crushing shaft 1-1 and the main crushing shaft 1-2 are matched to play a role in crushing the stone;

the extrusion plate power mechanism 1-4 comprises an extrusion main plate 1-4-1, a push rod 1-4-2, a swinging shaft 1-4-3, a linkage gear 1-4-4 and a swinging rod 1-4-5, the extrusion main plate 1-4-1 is connected with the push rod 1-4-2 through welding, the push rod 1-4-2 is connected with the swinging rod 1-4-5 through a fastening bolt, the swinging rod 1-4-5 is connected with the swinging shaft 1-4-3 through a fastening bolt, the linkage gear 1-4-4 is adapted to the swinging shaft 1-4-3 through a through hole, the linkage gear 1-4-4 is connected with the swinging shaft 1-4-3 through welding, the linkage gear 1-4-4 is connected with a connecting gear 1-5 through a gear chain, the connecting gear 1-5 drives the linkage gear 1-4-4 to rotate, the linkage gear 1-4-4 drives the swinging shaft 1-4-3 to rotate so as to enable the swinging rod 1-4-5 to move, the swinging rod 1-4-5 drives the push rod 1-4-2, so that the extrusion main plate 1-4-1 makes left-right reciprocating motion, the extrusion main plate 1-4-1 is matched with the auxiliary extrusion plate 1-3, and stone which is just put in is subjected to primary treatment;

the secondary stone crushing mechanism 2 comprises a first fixed gear 2-1, a second fixed gear 2-2, a first stirring rotating shaft 2-3 and a second stirring rotating shaft 2-4, wherein the first fixed gear 2-1 is connected with a primary motor 1-6 through a gear chain, the first fixed gear 2-1 is connected with the second stirring rotating shaft 2-4 through welding, the second stirring rotating shaft 2-4 is movably connected with a device shell 5 through a through hole, the second fixed gear 2-2 is connected with the first stirring rotating shaft 2-3 through welding, the first stirring rotating shaft 2-3 is movably connected with the device shell 5 through a through hole, the first fixed gear 2-1 is meshed with the second fixed gear 2-2, the first stirring rotating shaft 2-3 is matched with the second stirring rotating shaft 2-4, and the primary motor 1-6 drives the first fixed gear 2-1 to rotate, the first fixed gear 2-1 is meshed with the second fixed gear 2-2, so that the first crushing rotating shaft 2-3 and the second crushing rotating shaft 2-4 rotate to realize the functions of crushing and conveying stones;

the dust fall mechanism 3 comprises a water tank sealing cover 3-1, a water tank body 3-2, a sprinkling grid plate 3-3, an electric sealing door 3-4, a fan fixing shell 3-5 and a fan mechanism 3-6, wherein the fan fixing shell 3-5 is connected with the fan mechanism 3-6 through welding, the fan fixing shell 3-5 is connected with the fan fixing shell 3-5 through welding, the fan fixing shell 3-5 is connected with the water tank body 3-2 through welding, the water tank body 3-2 is meshed with the water tank sealing cover 3-1 through threads, the electric sealing door 3-4 is arranged on the water tank body 3-2, the sprinkling grid plate 3-3 is connected with the water tank body 3-2 through welding, the water tank body 3-2 is connected with the device shell 5 through welding, the sprinkling grid plate 3-3 controls the discharge capacity of water drops, and the electric sealing door 3-4 is convenient for cleaning the bottom of the water tank body 3-2;

the fan mechanism 3-6 comprises a fan motor 3-6-1, a fan fixing frame 3-6-2 and a fan 3-6-3, one end of the fan fixing frame 3-6-2 is connected with the fan fixing shell 3-5 through welding, the fan motor 3-6-1 is connected with the fan fixing frame 3-6-2 through welding, the fan 3-6-3 is arranged on the fan motor 3-6-1, the fan fixing frame 3-6-2 plays a fixing role, and the fan motor 3-6-1 provides power for the fan 3-6-3;

the secondary discharging and tertiary stone breaking mechanism 4 comprises a crawler belt driving auxiliary shaft 4-1, a transmission crawler belt 4-2, a crawler belt driving main shaft 4-3, an electric adjusting door 4-4, an engine 4-5, a gear 4-6 and a tertiary stone breaking shaft group 4-7, wherein the crawler belt drives the auxiliary shaft 4-1 to be connected with the transmission crawler belt 4-2, the transmission crawler belt 4-2 is connected with the crawler belt driving main shaft 4-3, the crawler belt drives the main shaft 4-3 and the crawler belt driving auxiliary shaft 4-1 to be movably connected with the device shell 5 through grooves, the electric adjusting door 4-4 is arranged on the device shell 5, the engine 4-5 is connected with the device shell 5 through welding, the engine 4-5 is meshed with the gear 4-6, the gear 4-6 is connected with the crawler belt driving main shaft 4-3 through a gear chain, the gear 4-6 is connected with a third-level gravel shaft group 4-7 through a gear chain, the third-level gravel shaft group 4-7 is installed on a device shell 5, a crawler belt drives an auxiliary shaft 4-1, a transmission crawler belt 4-2 and a crawler belt drives a main shaft 4-3 to form a stone conveying structure, and the engine 4-5 provides power for the crawler belt to drive the main shaft 4-3 and the third-level gravel shaft group 4-7;

the three-level gravel shaft group 4-7 comprises a power main shaft 4-7-1 and a gravel auxiliary shaft 4-7-2, the power main shaft 4-7-1 is connected with a gear 4-6 through a gear chain, the power main shaft 4-7-1 is meshed with the gravel auxiliary shaft 4-7-2, and the power main shaft 4-7-1 and the gravel auxiliary shaft 4-7-2 are matched to enable stones to be more finely crushed;

the device comprises a shell 5, a lifting adaptive groove 5-1, a lifting adaptive groove 5-2, a feeding port 5-3, a first discharging port 5-4, a second discharging port 5-5, a grid plate 5-6 and a grid baffle 5-7, wherein the shell 5-1 is provided with the feeding port 5-3, the shell 5-1 is provided with the lifting adaptive groove 5-2, the lifting adaptive groove 5-2 is adaptive to a lifting jack 6-3, the grid plate 5-6 is connected with the shell 5-1 through welding, the shell 5-1 is provided with the first discharging port 5-4, the shell 5-1 is provided with the second discharging port 5-5, and the shell 5-1 is provided with the grid baffle 5-7;

the lifting moving wheel mechanism 6 comprises a moving wheel 6-1, a moving wheel connecting piece 6-2 and a lifting jack 6-3, the moving wheel 6-1 is connected with the moving wheel connecting piece 6-2 through a fastening bolt, the moving wheel connecting piece 6-2 is matched with the lifting jack 6-3 through a groove, the moving wheel connecting piece 6-2 is connected with the lifting jack 6-3 through a fastening screw, the lifting jack 6-3 is connected with the shell main body 5-1 through a fastening screw to play a role in lifting the lifting jack 6-3, the lifting jack 6-3 extends to realize the height increasing of the device, and the moving wheel 6-1 is convenient for the device to move;

primary rubble mechanism 1 is connected with device shell 5, and second grade rubble mechanism 2 is connected with device shell 5, and dust fall mechanism 3 is connected with device shell 5, and second grade row material and tertiary rubble mechanism 4 are connected with device shell 5, and device shell 5 is connected through fastening screw with lift moving wheel mechanism 6.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment further describes the first embodiment, in which four lifting/lowering wheel mechanisms 6 are uniformly distributed at the bottom of the device housing 5.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment further describes the first embodiment, in which there are three minor lithotripsy shafts 4-7-2.

The fourth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment further describes the first embodiment, in which the auxiliary crushing shaft 1-1 and the main crushing shaft 1-2 are located on the same horizontal line.

The fifth concrete implementation mode:

the first embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, in which the first crushing rotating shaft 2-3 and the second crushing rotating shaft 2-4 are parallel.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment further describes the first embodiment in which three grid plates 5 to 6 are provided.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment further describes the first embodiment, where four fan fixing frames 3-6-2 are uniformly distributed around the fan motor 3-6-1.

The use method of the device comprises the following steps: stone is put into the machine from a feeding port 5-3, a primary motor 1-6 is started, the primary motor 1-6 drives a connecting gear 1-5, the connecting gear 1-5 drives a linkage gear 1-4-4 to rotate, the linkage gear 1-4-4 drives a swinging shaft 1-4-3 to rotate so as to enable a swinging rod 1-4-5 to move, the swinging rod 1-4-5 drives a push rod 1-4-2, so that an extrusion main plate 1-4-1 makes left-right reciprocating motion, the extrusion main plate 1-4-1 is matched with an auxiliary extrusion plate 1-3, and the stone which is just put into the machine is subjected to primary treatment.

The primarily processed stone falls below, the connecting gear 1-5 drives the main crushing shaft 1-2 to rotate, the main crushing shaft 1-2 and the auxiliary crushing shaft 1-1 are matched with each other, so that the stone is crushed, the primarily crushed stone enters the secondary stone crushing mechanism 2, the primary motor 1-6 drives the fixed gear I2-1 to rotate, the fixed gear I2-1 is meshed with the fixed gear II 2-2, and the crushing rotating shaft I2-3 and the crushing rotating shaft II 2-4 rotate, so that the effects of crushing and conveying the stone are achieved.

Starting the fan motor 3-6-1, driving the fan 3-6-1 by the fan motor 3-6-1 to suck dust into the bottom space of the water tank body 3-2, opening the water tank sealing cover 3-1, injecting water into the upper space of the water tank body 3-2, and slowly dripping the water downwards through the sprinkling grid plate 3-3, so that the effect of dust fall is realized, and the dust can be cleaned through the electric sealing door 3-4.

The stones crushed by the secondary stone crushing mechanism 2 fall onto the transmission crawler 4-2, the grid baffle 5-7 starts the grid, the engine 4-5 is started, the engine 4-5 drives the gear 4-6, the gear 4-6 drives the crawler to drive the main shaft 4-3, so as to drive the transmission crawler 4-2 to rotate, the crawler drives the auxiliary shaft 4-1 to play a role in assisting the transmission crawler 4-2 to rotate, and the stones are transmitted by the transmission crawler 4-2 and discharged through the first discharge port 5-4 in a closed state of the electric adjusting door 4-4.

Opening an electric adjusting door 4-4, enabling stone to enter the upper part of the third-level gravel shaft group 4-7, driving a power main shaft 4-7-1 by a gear 4-6, matching the power main shaft 4-7-1 with a gravel auxiliary shaft 4-7-2, performing secondary crushing on the stone, and discharging the crushed stone through a second discharge port 5-5.

The lifting jack 6-3 is lifted, and the lifting jack 6-3 is extended to realize the height increase of the device.

The device can produce gravels with two specifications and sizes, can adjust the size of the gravels according to actual requirements, has a dust-settling function, reduces dust generated during the operation of the device, has a simple elevator function, and can increase the space of the chassis.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The use method of the stone crusher with double discharge ports for the dust fall building is characterized by comprising the following steps: throw into the building stones by pan feeding mouth department, start primary motor, primary motor drives connecting gear, connects the gear and drives the linkage gear rotation, thereby the linkage gear drives the rotation of oscillating axle and makes the swinging arms remove, and the swinging arms drives the catch bar to make extrusion mainboard do left and right reciprocating motion, extrusion mainboard and vice stripper plate cooperation are with the building stones of just putting into and are preliminary treatment.

The building stones of preliminary treatment fall to the below, and it is rotatory that connecting gear drives main stirring axle, and main stirring axle, main stirring axle and vice stirring axle mutually support to make building stones stir the bits of broken glass, preliminary stirring garrulous building stones enter into second grade rubble mechanism in, primary motor drives fixed gear one rotatory, and fixed gear one and two looks interlocks of fixed gear, thereby make stirring garrulous rotation axis one and stir garrulous rotation axis two rotatoryly, realize stirring garrulous and the effect of conveying building stones.

Starting fan motor, fan motor drives the fan and inhales the bottom space of water tank box with the dust, opens the sealed lid of water tank, to water tank box upper portion space water injection, and water drips downwards through watering grid plate is slow to realize the effect of dust fall, can clear up through electronic sealing door.

On the building stones of stirring garrulous through second grade rubble mechanism fell to the transmission track, the effect that the check fender was started to the check baffle, started the engine, the engine drove the gear, the gear drove the track and drives the main shaft to it is rotatory to drive the transmission track, and wherein the track drives the countershaft and plays supplementary transmission track pivoted effect, and under the closed state of electric control door, building stones through the transmission track conveying, discharge through first discharge gate.

Opening an electric adjusting door, enabling stone to enter the upper part of the third-level gravel shaft group, enabling a gear to drive a power main shaft to be matched with a gravel auxiliary shaft, performing secondary stirring crushing on the stone, and discharging the crushed stone through a second discharge port;

the double-discharge-port stone crusher for the dust fall building comprises a primary stone crushing mechanism (1), a secondary stone crushing mechanism (2), a dust fall mechanism (3), a secondary discharge and tertiary stone crushing mechanism (4), a device shell (5) and a lifting moving wheel mechanism (6), wherein the primary stone crushing mechanism (1) comprises an auxiliary crushing shaft (1-1), a main crushing shaft (1-2), an auxiliary extrusion plate (1-3), an extrusion plate power mechanism (1-4), a connecting gear (1-5) and a primary motor (1-6), the auxiliary crushing shaft (1-1) is movably connected with the device shell (5) through a groove, the main crushing shaft (1-2) is movably connected with the device shell (5) through a groove, the auxiliary crushing shaft (1-1) is meshed with the main crushing shaft (1-2), the auxiliary extrusion plate (1-3) is connected with the device shell (5) through a fastening screw, the primary motor (1-6) is connected with the device shell (5) through welding, the primary motor (1-6) is meshed with the connecting gear (1-5), the connecting gear (1-5) is connected with the main crushing shaft (1-2) through a gear chain, the connecting gear (1-5) is connected with the extrusion plate power mechanism (1-4) through the gear chain, and the auxiliary extrusion plate (1-3) corresponds to the extrusion plate power mechanism (1-4);

the extrusion plate power mechanism (1-4) comprises an extrusion main plate (1-4-1), a push rod (1-4-2), a swing shaft (1-4-3), a linkage gear (1-4-4) and a swing rod (1-4-5), the extrusion main plate (1-4-1) is connected with the push rod (1-4-2) through welding, the push rod (1-4-2) is connected with the swing rod (1-4-5) through a fastening bolt, the swing rod (1-4-5) is connected with the swing shaft (1-4-3) through a fastening bolt, the linkage gear (1-4-4) is adapted with the swing shaft (1-4-3) through a through hole, the linkage gear (1-4-4) is connected with the swing shaft (1-4-3) through welding, the linkage gear (1-4-4) is connected with the connecting gear (1-5) through a gear chain;

the secondary stone crushing mechanism (2) comprises a first fixed gear (2-1), a second fixed gear (2-2), a first stirring rotating shaft (2-3) and a second stirring rotating shaft (2-4), the first fixed gear (2-1) is connected with a primary motor (1-6) through a gear chain, the first fixed gear (2-1) is connected with the second stirring rotating shaft (2-4) through welding, the second stirring rotating shaft (2-4) is movably connected with the device shell (5) through a through hole in a contact manner, the second fixed gear (2-2) is connected with the first stirring rotating shaft (2-3) through welding, the first stirring rotating shaft (2-3) is movably connected with the device shell (5) through a through hole in a contact manner, and the first fixed gear (2-1) is meshed with the second fixed gear (2-2), the first stirring rotating shaft (2-3) is matched with the second stirring rotating shaft (2-4);

the dust fall mechanism (3) comprises a water tank sealing cover (3-1), a water tank body (3-2), a sprinkling grid plate (3-3), an electric sealing door (3-4), a fan fixing shell (3-5) and a fan mechanism (3-6), wherein the fan fixing shell (3-5) is connected with the fan mechanism (3-6) through welding, the fan fixing shell (3-5) is connected with the fan fixing shell (3-5) through welding, the fan fixing shell (3-5) is connected with the water tank body (3-2) through welding, the water tank body (3-2) is meshed with the water tank sealing cover (3-1) through threads, the electric sealing door (3-4) is installed on the water tank body (3-2), the sprinkling grid plate (3-3) is connected with the water tank body (3-2) through welding, the water tank body (3-2) is connected with the device shell (5) by welding;

the fan mechanism (3-6) comprises a fan motor (3-6-1), a fan fixing frame (3-6-2) and a fan (3-6-3), one end of the fan fixing frame (3-6-2) is connected with the fan fixing shell (3-5) through welding, the fan motor (3-6-1) is connected with the fan fixing frame (3-6-2) through welding, and the fan (3-6-3) is arranged on the fan motor (3-6-1);

the secondary discharging and tertiary stone breaking mechanism (4) comprises a crawler belt driving auxiliary shaft (4-1), a transmission crawler belt (4-2), a crawler belt driving main shaft (4-3), an electric adjusting door (4-4), an engine (4-5), a gear (4-6) and a tertiary stone breaking shaft group (4-7), wherein the crawler belt driving auxiliary shaft (4-1) is connected with the transmission crawler belt (4-2), the transmission crawler belt (4-2) is connected with the crawler belt driving main shaft (4-3), the crawler belt driving main shaft (4-3) and the crawler belt driving auxiliary shaft (4-1) are both in movable contact connection with the device shell (5) through grooves, the electric adjusting door (4-4) is installed on the device shell (5), and the engine (4-5) is connected with the device shell (5) through welding, the engine (4-5) is meshed with the gear (4-6), the gear (4-6) is connected with the main shaft (4-3) driven by the crawler belt through a gear chain, the gear (4-6) is connected with the third-level gravel shaft group (4-7) through the gear chain, and the third-level gravel shaft group (4-7) is installed on the device shell (5);

the three-level gravel shaft group (4-7) comprises a power main shaft (4-7-1) and a gravel auxiliary shaft (4-7-2), the power main shaft (4-7-1) is connected with a gear (4-6) through a gear chain, and the power main shaft (4-7-1) is meshed with the gravel auxiliary shaft (4-7-2);

the device comprises a shell (5) and a shell body (5-1), a lifting adaptive groove (5-2), a feeding port (5-3), a first discharging port (5-4), a second discharging port (5-5), a grid plate (5-6) and a grid baffle plate (5-7), wherein the shell body (5-1) is provided with the feeding port (5-3), the shell body (5-1) is provided with the lifting adaptive groove (5-2), the lifting adaptive groove (5-2) is adaptive to a lifting jack (6-3), the grid plate (5-6) is connected with the shell body (5-1) through welding, the shell body (5-1) is provided with the first discharging port (5-4), the shell body (5-1) is provided with the second discharging port (5-5), a lattice baffle (5-7) is arranged on the shell main body (5-1);

the lifting moving wheel mechanism (6) comprises a moving wheel (6-1), a moving wheel connecting piece (6-2) and a lifting jack (6-3), the moving wheel (6-1) is connected with the moving wheel connecting piece (6-2) through a fastening bolt, the moving wheel connecting piece (6-2) is matched with the lifting jack (6-3) through a groove, the moving wheel connecting piece (6-2) is connected with the lifting jack (6-3) through a fastening screw, and the lifting jack (6-3) is connected with the shell main body (5-1) through a fastening screw;

the primary stone breaking mechanism (1) is connected with a device shell (5), the secondary stone breaking mechanism (2) is connected with the device shell (5), the dust falling mechanism (3) is connected with the device shell (5), the secondary discharging and tertiary stone breaking mechanism (4) is connected with the device shell (5), and the device shell (5) is connected with the lifting moving wheel mechanism (6) through fastening screws;

the number of the lifting moving wheel mechanisms (6) is four, and the lifting moving wheel mechanisms are uniformly distributed at the bottom of the device shell (5); the number of the auxiliary crushed stone shafts (4-7-2) is three; the auxiliary crushing shaft (1-1) and the main crushing shaft (1-2) are positioned on the same horizontal line; the first crushing rotating shaft (2-3) and the second crushing rotating shaft (2-4) are parallel; the number of the grid plates (5-6) is three.

2. The use method of the double-discharge-port stone crusher for the dust fall building, according to claim 1, is characterized in that: the number of the fan fixing frames (3-6-2) is four, and the fan fixing frames are uniformly distributed around the fan motor (3-6-1).

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