CN111186027B - Multifunctional stirring and crushing equipment - Google Patents

Abstract

The invention relates to a stirring and crushing device, in particular to a multifunctional stirring and crushing device which comprises a turbo-charging mechanism, a crushing mechanism, a pressure water tank mechanism, an inclined discharging mechanism and a box body mechanism. Turbo-charging mechanism link to each other with broken mechanism, broken mechanism links to each other with pressure water tank mechanism, pressure water tank mechanism links to each other with turbo-charging mechanism, the board mechanism that leaks links to each other with box mechanism, the discharge mechanism that pours into links to each other with box mechanism, turbo-charging mechanism links to each other with the discharge mechanism that pours into, turbo-charging mechanism links to each other with the board mechanism that leaks, pressure water tank mechanism pours into discharge mechanism and links to each other.

Description

Multifunctional stirring and crushing equipment

Technical Field

The invention relates to stirring crushing equipment, in particular to multifunctional stirring crushing equipment.

Background

In the stirring of broken building stones concrete, the stirring is often uneven, which is not beneficial to building construction, but no better equipment for stirring broken building stones concrete is available on the market, so the multifunctional equipment for stirring broken building stones concrete is designed.

Disclosure of Invention

The invention mainly solves the technical problem that the multifunctional stirring and crushing equipment can utilize a wind field to stir stone concrete, can crush the stone concrete, can automatically inject water, and can automatically pour out a stirred material.

In order to solve the technical problems, the invention relates to a stirring and crushing device, and particularly relates to a multifunctional stirring and crushing device which comprises a turbocharger mechanism, a crushing mechanism, a pressure water tank mechanism, a pouring and discharging mechanism and a box body mechanism.

Turbo-charging mechanism link to each other with broken mechanism, broken mechanism is connected with pressure water tank mechanism, pressure water tank mechanism links to each other with turbo-charging mechanism, the discharge mechanism that pours into links to each other with box mechanism, turbo-charging mechanism links to each other with the discharge mechanism that pours into, pressure water tank mechanism links to each other with the discharge mechanism that pours into.

As a further optimization of the technical scheme, the invention provides a multifunctional stirring and crushing device, wherein the turbocharger mechanism comprises a power belt wheel, a power motor, a motor base, a turbocharger actuating mechanism, a driven belt wheel, a turbine airflow output mechanism, a belt and a turbine air inlet channel, the power belt wheel is connected with the power motor, the power motor is connected with the motor base, the turbocharger actuating mechanism is connected with the driven belt wheel, the driven belt wheel is in friction connection with the belt, the driven belt wheel is connected with the turbine airflow output mechanism, the belt is in friction connection with the power belt wheel, and the turbine air inlet channel is inserted into the turbine airflow output mechanism; the turbocharging actuating mechanism comprises a forward impeller, a power motor, a reverse turbine and an impeller protector, wherein the forward impeller is connected with the power motor, the power motor is connected with the reverse turbine, the power motor is connected with the impeller protector, the turbine airflow output mechanism comprises an air inlet pipe and an air outlet hole, and the air inlet pipe is connected with the air outlet hole.

As a further optimization of the technical scheme, the multifunctional stirring and crushing equipment comprises a rotating column and a crushing column, wherein the crushing column is connected with the rotating column, and the rotating column is connected with the turbine airflow output.

As a further optimization of the technical scheme, the multifunctional stirring and crushing equipment comprises a pressure water tank mechanism, a pressure water plate, a threaded column upper limit, a threaded column slide block, a threaded column lower limit, a threaded column, a water leakage plate limit plate, a threaded column driven pulley, a belt, a threaded column, a water leakage plate lower plate, a water leakage plate upper plate and a water leakage hole, wherein the limit plate is connected with the pressure water plate, the pressure water plate is connected with the threaded column in a threaded manner, the threaded column upper limit is connected with the threaded column, the threaded column slide block is connected with the threaded column in a threaded manner, the threaded column lower limit is connected with the threaded column, the threaded column is connected with a power pulley, the threaded column driven pulley is connected with the belt in a friction manner, the belt is connected with a driven pulley, the threaded column is connected with the threaded column driven pulley, the water leakage plate is connected with the water leakage plate upper plate in a sliding manner, the water leakage plate limit plate is connected, the water leakage plate limiting plate is connected with the water leakage plate upper plate, the threaded column driven belt wheel is connected with the threaded column, the water leakage hole is formed in the water leakage plate lower plate, and the water leakage hole is formed in the water leakage plate upper plate.

As a further optimization of the technical scheme, the multifunctional stirring and crushing equipment comprises a pouring discharging mechanism, an upper sliding rail mechanism, a pouring plate hydraulic mechanism, a pouring plate limiting mechanism, a lower sliding rail mechanism and a sliding block, wherein the pouring discharging mechanism is connected with the upper sliding rail mechanism, the upper sliding rail mechanism is connected with the pouring plate hydraulic mechanism, and the pouring plate hydraulic mechanism is connected with the pouring bin mechanism; the dumping bin mechanism comprises a sliding rail door sliding rail, a dumping bin body and a dumping bin body opening, wherein a sliding rail door sliding block is connected with the dumping bin body, the dumping bin body is connected with a motor base, the dumping bin body is connected with an impeller protection, the dumping bin body opening is arranged on the dumping bin body, the upper sliding rail comprises an upper dumping bin door and an upper dumping rail, the upper dumping bin door is hinged with the dumping bin body, the upper dumping bin rail is connected with the sliding block in a sliding manner, the upper dumping plate sliding rail and the sliding rail door sliding rail are positioned on the same horizontal line, the dumping plate hydraulic mechanism comprises a dumping plate, a dumping plate mounting seat, a hydraulic cylinder mounting seat and a bearing seat, the dumping plate mounting seat is connected with the dumping bin body, the hydraulic cylinder is hinged with the dumping plate mounting seat, the hydraulic cylinder mounting seat is connected with the dumping bin body, the bearing seat is connected with an air inlet pipe through a bearing, the dumping plate is limited and connected with the dumping bin body, the dumping plate is limited and is connected with the dumping plate, the lower sliding rail mechanism comprises a lower sliding rail and a dumping bin lower door, the lower sliding rail is connected with the sliding block in a sliding mode, the lower sliding rail and the sliding rail door are located on the same horizontal line, the dumping bin lower door is hinged with a dumping bin body, and the dumping bin lower door is connected with the lower sliding rail.

As a further optimization of the technical scheme, the multifunctional stirring and crushing equipment comprises a box body upper plate and a box body equipment opening, wherein the box body upper plate mechanism is connected with a pouring bin body, the box body equipment opening is connected with the pouring bin body, the tilting bin body is connected with a motor base, and the tilting bin body is connected with an impeller protection.

As a further optimization of the technical scheme, according to the multifunctional stirring and crushing equipment, when the threaded column and the threaded column move to the upper limit position or the lower limit position of the threaded column, the threaded column and the threaded column are not threaded, and the threaded column sliding block stops moving.

As a further optimization of the technical scheme, the multifunctional stirring and crushing equipment is characterized in that when the threaded columns and the threaded columns of the water pressing plate move to reach the position lines of the upper plate of the water leakage plate, the threaded columns and the threaded columns are not threaded, and the water pressing plate stops moving.

The multifunctional stirring and crushing equipment has the beneficial effects that:

multifunctional stirring crushing equipment can be broken into the tiny particle with building stones concrete, and the water injection that equipment can be even, and equipment can be with building stones concrete and water stirring, and equipment can pour out the material after the stirring.

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 multifunctional stirring and crushing device of the invention.

Fig. 2 is a schematic structural diagram of a multifunctional stirring and crushing device of the invention.

Fig. 3 is a first structural schematic diagram of a turbocharger mechanism of the multifunctional stirring and crushing equipment.

Fig. 4 is a schematic structural diagram of a turbocharger mechanism of the multifunctional stirring and crushing device.

FIG. 5 is a schematic structural diagram of the turbine airflow output of the multifunctional stirring and crushing equipment.

Fig. 6 is a schematic structural diagram of a crushing mechanism of the multifunctional stirring and crushing equipment.

Fig. 7 is a first structural schematic diagram of a pressure water tank mechanism of the multifunctional stirring and crushing equipment.

Fig. 8 is a structural schematic diagram of a pressure water tank mechanism of the multifunctional stirring and crushing device disclosed by the invention.

FIG. 9 is a first structural view of a lower plate of a water leakage plate of the multifunctional stirring and crushing device of the present invention.

Fig. 10 is a schematic structural diagram of a pouring and discharging mechanism of the multifunctional stirring and crushing equipment.

Fig. 11 is a schematic structural diagram of a dumping bin mechanism of the multifunctional stirring and crushing equipment.

Fig. 12 is a schematic structural diagram of an upper slide rail mechanism of the multifunctional stirring and crushing equipment.

Fig. 13 is a schematic structural diagram of a dumping plate hydraulic mechanism of the multifunctional stirring and crushing equipment.

Fig. 14 is a schematic structural diagram of a lower slide rail mechanism of the multifunctional stirring and crushing equipment.

Fig. 15 is a schematic structural diagram of a box body mechanism of the multifunctional stirring and crushing equipment.

In the figure: a turbo-charging mechanism 1; a power pulley 1-1; 1-2 of a power motor; 1-3 of a motor base; a turbocharging actuator 1-4; a forward impeller 1-4-1; 1-4-2 of a power motor; a reverse turbine 1-4-3; impeller protection is 1-4-4; 1-5 of a driven belt wheel; turbine gas flow output 1-6; 1-6-1 of an air inlet pipe; 1-6-2 of air outlet holes; 1-7 of a belt; 1-8 parts of a turbine inlet channel; a crushing mechanism 2; 2-1 of a rotating column; 2-2 of a crushing column; a pressure water tank mechanism 3; a limiting plate 3-1; 3-2 of a water pressing plate; limiting the threaded column by 3-3; 3-4 of a threaded column sliding block; the lower limit of the threaded column is 3-5; 3-6 of a threaded column; 3-7 parts of a water leakage plate limiting plate; 3-8 parts of a threaded column driven pulley; 3-9 parts of a belt; 3-10 parts of a threaded column; 3-11 parts of the lower plate of the water leakage plate; 3-12 parts of an upper plate of the water leaking plate; 3-13 of water leakage holes; a pouring and discharging mechanism 4; a sliding rail 4-1-1 of a sliding rail door; 4-1-2 of a dumping bin body; 4-1-3 of the opening of the pouring bin body; an upper slide rail mechanism 4-2; the upper door of the dumping bin is 4-2-1; 4-2-2 of upper slide rails on the dumping bin; a pour plate hydraulic mechanism 4-3; 4-3-1 of a pouring plate; 4-3-2 of a mounting seat of the pouring plate; 4-3-3 of a hydraulic cylinder; 4-3-4 parts of a hydraulic cylinder mounting seat; 4-3-5 of a bearing seat; limiting by a dumping plate by 4-4; 4-5 of a lower sliding rail mechanism; a lower slide rail 4-5-1; 4-5-2 of a lower door of the dumping bin; 4-6 of a sliding block; a box mechanism 5; an upper plate 5-1 of the box body; and a box body equipment port 5-2.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present invention relates to a mixing and crushing apparatus, and more specifically, to a multifunctional mixing and crushing apparatus, which includes a turbo-charging mechanism, a crushing mechanism, a pressure water tank mechanism, a dumping and discharging mechanism, and a box mechanism, and is capable of mixing stone concrete by using an air field, crushing stone concrete, automatically injecting water, and automatically dumping out a mixed material.

Turbo charger constructs 1 and links to each other with broken mechanism 2, broken mechanism 2 is connected with pressure water tank mechanism 3, pressure water tank mechanism 3 links to each other with turbo charger constructs 1, pours discharge mechanism 4 and box mechanism 5 and links to each other, turbo charger constructs 1 and pours discharge mechanism 4 and link to each other, pressure water tank mechanism 3 links to each other with the discharge mechanism 4 that pours.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present embodiment further describes the present embodiment, where the turbocharger mechanism 1 includes a power pulley 1-1, a power motor 1-2, a motor housing 1-3, a turbocharger actuator 1-4, a driven pulley 1-5, a turbine airflow output 1-6, a belt 1-7, a turbine air intake duct 1-8, the power pulley 1-1 is connected to the power motor 1-2, the power motor 1-2 is connected to the motor housing 1-3, the turbocharger actuator 1-4 is connected to the driven pulley 1-5, and the driven pulley 1-5 is frictionally connected to the belt 1-7, the driven belt wheel 1-5 is connected with the turbine airflow output mechanism 1-6, the belt 1-7 is in friction connection with the power belt wheel 1-1, and the turbine air inlet channel 1-8 is inserted into the turbine airflow output mechanism 1-6; the turbocharging execution mechanism 1-4 comprises a forward impeller 1-4-1, a power motor 1-4-2, a reverse turbine 1-4-3 and an impeller protector 1-4-4, wherein the forward impeller 1-4-1 is connected with the power motor 1-4-2, the power motor 1-4-2 is connected with the reverse turbine 1-4-3, the power motor 1-4-2 is connected with the impeller protector 1-4-4, a turbine airflow output mechanism 1-6 comprises an air inlet pipe 1-6-1 and an air outlet hole 1-6-2, the air inlet pipe 1-6-1 is connected with the air outlet hole 1-6-2, the equipment can crush stone concrete into small particles, firstly, the stone concrete is put into a dumping bin 4-1-2, the power motor 1-2 drives the power belt pulley 1-1, the power belt pulley 1-1 drives the belt 1-7, the belt 1-7 drives the driven belt pulley 1-5, the driven belt pulley 1-5 rotates synchronously, the driven belt pulley 1-5 is connected with the air inlet pipe 1-6-1, the air inlet pipe 1-6-1 rotates synchronously, the air inlet pipe 1-6-1 is connected with the rotating column 2-1, the rotating column 2-1 rotates synchronously, and the rotating column 2-1 is connected with the crushing column 2-2 to rotate synchronously, so that large stones and concrete are crushed into small particles.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and the embodiment further describes the embodiment, where the crushing mechanism 2 includes a rotating column 2-1 and a crushing column 2-2, the crushing column 2-2 is connected to the rotating column 2-1, the rotating column 2-1 is connected to the turbine airflow output 1-6, the power motor 1-4-2 rotationally drives the forward impeller 1-4-1 and the reverse turbine 1-4-3, so that the forward impeller 1-4-1 uses its own physical properties to let wind into the impeller guard 1-4-4, and the reverse turbine 1-4-3 uses its own physical properties to let wind from the impeller guard 1-4-4, the impeller protector 1-4-4 is inserted into the turbine inlet channel 1-8 to discharge wind into a space formed by the lower plate 3-11 of the water leakage plate, the dumping bin body 4-1-2 and the dumping plate 4-3-1 through the air inlet pipe 1-6-1 and the air outlet hole 1-6-2, an air field is formed in the air field to blow stone concrete and water, a power motor 1-2 rotates and is transmitted to an air inlet pipe 1-6-1 through a power belt wheel 1-1 and a belt 1-7, the air inlet pipe 1-6-1 is connected with a crushing mechanism 2 to enable the crushing mechanism 2 to rotate, and a crushing column 2-2 in the crushing mechanism 2 rotates to uniformly stir the stone concrete and the water blown by the air field in a space formed by a water leakage plate lower plate 3-11, a dumping bin body 4-1-2 and a dumping plate 4-3-1.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the embodiment further describes the embodiment, where the pressure water tank mechanism 3 includes a limit plate 3-1, a pressure water plate 3-2, an upper limit 3-3 of a threaded column, a threaded column slider 3-4, a lower limit 3-5 of the threaded column, a threaded column 3-6, a water leakage plate limit plate 3-7, a threaded column driven pulley 3-8, a belt 3-9, a threaded column 3-10, a lower water leakage plate 3-11, an upper plate 3-12 of the water leakage plate, and a water leakage hole 3-13, the limit plate 3-1 is connected to the pressure water plate 3-2, the pressure water plate 3-2 is connected to the threaded column 3-6 by a screw, the upper limit 3-3 of the threaded column is connected with the threaded column 3-6, the slide block 3-4 of the threaded column is in threaded connection with the threaded column 3-6, the lower limit 3-5 of the threaded column is connected with the threaded column 3-6, the threaded column 3-6 is connected with the power pulley 1-1, the driven pulley 3-8 of the threaded column is in frictional connection with the belt 3-9, the belt 3-9 is in frictional connection with the driven pulley 1-5, the threaded column 3-10 is connected with the driven pulley 3-8 of the threaded column, the lower plate 3-11 of the water leakage plate is in sliding connection with the upper plate 3-12 of the water leakage plate, the limit plate 3-7 of the water leakage plate is in sliding connection with the lower plate 3-11 of the water leakage plate, the limit plate 3-7 of the water leakage plate is connected with the upper plate 3-12 of the water leakage plate, the driven pulley 3-8 of, the water leakage holes 3-13 are arranged on the lower plate 3-11 of the water leakage plate, the water leakage holes 3-13 are arranged on the upper plate 3-12 of the water leakage plate, the equipment can uniformly inject water, the parts of the dumping bin body 4-1-2 and the upper plate 3-12 of the water leakage plate are filled with water, the power motor 1-2 is connected with the threaded column 3-6 and rotates simultaneously, the threaded column slide block 3-4 on the threaded column 3-6 moves upwards through the threads on the threaded column 3-6, the threaded column slide block 3-4 extrudes the lower plate 3-11 of the water leakage plate to the center of the dumping bin body 4-1-2 through the inclined plane of the threaded column slide block 3-4 and the lower plate 3-11 of the water leakage plate when contacting the lower plate 3-11 of the water leakage plate, so that the water leakage holes 3-11 of the lower plate 3-11 and the water leakage hole 3-13 of the upper plate 3-12 of the water, in the same way, the power motor 1-2 on the other side transmits power to the threaded column 3-10 and the driven pulley 3-8 through the power belt wheel 1-1, the belt 1-7, the driven pulley 1-5 and the belt 3-9, the threaded column driven pulley 3-8 is connected with the threaded column 3-10, the other side of the water leakage plate lower plate 3-11 is coincided with the water leakage hole 3-13 of the water leakage plate upper plate 3-12, the function of water leakage is realized, when the threaded column sliding block 3-4 moves upwards and contacts the upper limit 3-3 of the threaded column, the threads on the threaded column 3-6 and the threaded column 3-10 disappear, the threaded column sliding block 3-4 stops moving upwards, when the threaded column sliding block 3-4 moves downwards and contacts the lower limit 3-5 of the threaded column, the thread on the threaded column 3-6 and the threaded column 3-10 disappears, the threaded column slider 3-4 stops moving downwards, the power motor 1-2 is connected with the threaded column 3-6, the power motor 1-2 and the threaded column 3-10 are transmitted to the threaded column driven pulley 3-8 through the power pulley 1-1, the belt 1-7, the driven pulley 1-5 and the belt 3-9, so that the threaded column 3-10 and the threaded column 3-6 synchronously rotate at the same time, the threaded column 3-6 and the threaded column 3-10 are in threaded connection with the water pressing plate 3-2, the thread on the water pressing plate 3-2 is a reverse thread, and when the threaded column 3-6 and the threaded column 3-10 rotate, the water pressing plate 3-2 rotates along the threaded column 3-6, The threaded column 3-10 moves downwards to press the pouring bin body 4-1-2 and the upper plate 3-12 of the water leaking plate to form space water, so that the water can be uniformly poured downwards from the water leaking holes 3-13 overlapped with the upper plate 3-12 of the water leaking plate and the lower plate 3-11 of the water leaking plate.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present embodiment further describes the present embodiment, where the pouring and discharging mechanism 4 includes a pouring bin mechanism, an upper slide rail mechanism 4-2, a pouring plate hydraulic mechanism 4-3, a pouring plate limit 4-4, a lower slide rail mechanism 4-5, and a slide block 4-6, the pouring bin mechanism is connected to the upper slide rail mechanism 4-2, the upper slide rail mechanism 4-2 is connected to the pouring plate hydraulic mechanism 4-3, and the pouring plate hydraulic mechanism 4-3 is connected to the pouring bin mechanism 4-1; the dumping bin mechanism comprises a sliding rail door sliding rail 4-1-1, a dumping bin body 4-1-2 and a dumping bin body opening 4-1-3, a sliding rail door sliding block 4-1-1 is connected with the dumping bin body 4-1-2, the dumping bin body opening 4-1-3 is arranged at the dumping bin body 4-1-2, an upper sliding rail 4-2-1 comprises a dumping bin upper door 4-2-1 and a dumping bin upper sliding rail 4-2-2, the dumping bin upper door 4-2-1 is hinged with the dumping bin body 4-1-2, the dumping bin upper sliding rail 4-2-6 is in sliding connection with the sliding block 4-6, the dumping plate upper sliding rail 4-2-1 and the sliding rail door sliding rail 4-1-1 are in the same horizontal line, and a dumping plate hydraulic mechanism 4-3 comprises a dumping plate 4-3-1, A pouring plate mounting seat 4-3-2, a hydraulic cylinder 4-3-3, a hydraulic cylinder mounting seat 4-3-4 and a bearing seat 4-3-5, wherein the pouring plate mounting seat 4-3-1 is connected with a pouring bin body 4-1-2, the inclined plate mounting seat 4-3-2 is connected with the pouring plate 4-3-1, the hydraulic cylinder 4-3-3 is hinged with the pouring plate mounting seat 4-3-2, the hydraulic cylinder mounting seat 4-3-4 is connected with the hydraulic cylinder 4-3-3, the hydraulic cylinder mounting seat 4-3-4 is connected with the pouring bin body 4-1-2, the bearing seat 4-3-5 is connected with an air inlet pipe 1-6-1 through a bearing, the pouring plate limit 4-4 is connected with the pouring bin body 4-1-2, the dumping plate limit 4-4 is connected with the dumping plate 4-3-1, the lower slide rail mechanism 4-5 comprises a lower slide rail 4-5-1, a dumping bin lower door 4-5-2, the lower slide rail 4-5-1 is connected with a slide block 4-6 in a sliding manner, the lower slide rail 4-5-1 and the slide rail door 4-1-1 are positioned on the same horizontal line, the dumping bin lower door 4-5-2 is hinged with a dumping bin body 4-1-2, the dumping bin lower door 4-5-2 is connected with the lower slide rail 4-5-1, the equipment can dump the stirred material, the dumping bin upper door 4-2-1, the dumping bin lower door 4-5-2 is hinged with the dumping bin body 4-1-2, the slide block 4-6 is slid onto the slide rail door 4-1-1, the upper dumping bin door 4-2-1 and the lower dumping bin door 4-5-2 are respectively opened upwards and downwards, the hydraulic cylinder 4-3-3 operates to generate an upward pushing force and a downward pulling force, and when the hydraulic rod on the hydraulic cylinder 4-3-3 moves downwards, the dumping plate 4-3-1 moves downwards close to one end of the upper dumping bin door 4-2-1 and one end of the lower dumping bin door 4-5-2, so that stone concrete on the dumping plate 4-3-1 is dumped out.

The sixth specific implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present embodiment further describes the present embodiment, in which the box mechanism 5 includes a box upper plate 5-1 and a box equipment opening 5-2, the box upper plate 5-1 is connected to the dump plate 4-1-2, the box equipment opening 5-2 is connected to the dump bin 4-1-2, the dump bin (4-1-2) is connected to the motor housing (1-3), and the dump bin (4-1-2) is connected to the impeller guard (1-4-4).

The seventh embodiment:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present embodiment further describes the present embodiment, in which the threaded post slider 3-4 does not have threads on the threaded post 3-6 and the threaded post 3-10 when the threaded post 3-6 and the threaded post 3-10 move to reach the position of the upper limit 3-3 or the lower limit 3-5 of the threaded post, and the threaded post slider 3-4 stops moving.

The specific implementation mode is eight:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present embodiment further describes the present embodiment, in which when the threaded columns 3-6 and 3-10 of the water leaking plate move to the position of the upper plate 3-12 of the water leaking plate, the threaded columns 3-6 and 3-10 are unthreaded, and the water leaking plate 3-2 stops moving.

The working principle of the device is as follows: the equipment can crush stone concrete into small particles, firstly, the stone concrete is put into the dumping bin body 4-1-2, the power motor 1-2 drives the power belt pulley 1-1, the power belt pulley 1-1 drives the belt 1-7, the belt 1-7 drives the driven belt pulley 1-5, so that the driven belt pulley 1-5 synchronously rotates, the driven belt pulley 1-5 is connected with the air inlet pipe 1-6-1 to synchronously rotate the air inlet pipe 1-6-1, the air inlet pipe 1-6-1 is connected with the rotating column 2-1 to synchronously rotate the rotating column 2-1, and the rotating column 2-1 is connected with the crushing column 2-2 to synchronously rotate so that large stones and concrete can be crushed into small particles; the device can uniformly inject water, the part of the dumping bin body 4-1-2 and the upper plate 3-12 of the water leakage plate is filled with water, the power motor 1-2 is connected with the threaded column 3-6 and rotates simultaneously, the threaded column slide block 3-4 on the threaded column 3-6 moves upwards through the threads on the threaded column 3-6, the threaded column slide block 3-4 extrudes the lower plate 3-11 of the water leakage plate to the center of the dumping bin body 4-1-2 through the inclined plane of the threaded column slide block 3-4 and the lower plate 3-11 of the water leakage plate when contacting the lower plate 3-11 of the water leakage plate, so that the lower plate 3-11 of the water leakage plate is superposed with the water leakage holes 3-13 of the upper plate 3-12 of the water leakage plate, and the power motor 1-2 on the other side of the same principle enables power to pass through the power belt pulley 1-1, 1-7 parts of a belt, 1-5 parts of a driven belt wheel and 3-9 parts of a belt are transmitted to a threaded column 3-10 part and a driven belt wheel 3-8 part, the threaded column driven belt wheel 3-8 part is connected with the threaded column 3-10 part, the other side of a lower plate 3-11 part of a water leakage plate is coincided with a water leakage hole 3-13 part of an upper plate 3-12 part of the water leakage plate, so that the function of water leakage is realized, when a threaded column slide block 3-4 moves upwards, the upper limit of the threaded column is contacted with 3-3 parts of the upper limit of the threaded column, threads on the threaded column 3-6 and the threaded column 3-10 disappear, the threaded column slide block 3-4 stops moving upwards, when the threaded column slide block 3-4 moves downwards, the threads on the threaded column 3-6 and the threaded column 3-10 disappear, the threaded column slide block 3-4 stops moving downwards, a power motor 1-2 is connected with a threaded column 3-6, the power motor 1-2 and the threaded column 3-10 are transmitted to a threaded column driven pulley 3-8 through a power pulley 1-1, a belt 1-7, a driven pulley 1-5 and a belt 3-9, so that the threaded column 3-10 and the threaded column 3-6 synchronously rotate at the same time, the threaded column 3-6, the threaded column 3-10 and a water pressing plate 3-2 are in threaded connection, the thread on the water pressing plate 3-2 is reverse thread, the water pressing plate 3-2 moves downwards along the threaded column 3-6 and the threaded column 3-10 when the threaded column 3-6 and the threaded column 3-10 rotate, and presses the pouring bin body 4-1-2 and the water leakage plate upper plate 3-12 to form space water, water can be uniformly injected downwards from the water leakage holes 3-13 overlapped by the upper plate 3-12 and the lower plate 3-11 of the water leakage plate; the device can uniformly stir stone concrete and water, the power motor 1-4-2 rotates and drives the forward impeller 1-4-1 and the reverse turbine 1-4-3, the forward impeller 1-4-1 enables wind to enter the impeller protection 1-4-4 by utilizing the physical characteristics of the forward impeller 1-4-1, the reverse turbine 1-4-3 enables the wind to enter the impeller protection 1-4-4 by utilizing the physical characteristics of the reverse turbine 1-4-4, the impeller protection 1-4-4 is inserted into the turbine air inlet 1-8, the wind is discharged into a space formed by the water leakage plate lower plate 3-11, the dumping bin body 4-1-2 and the dumping plate 4-3-1 through the air inlet pipe 1-6-1 and the air outlet 1-6-2, and a wind field is formed in the space to blow the stone concrete and the water, the rotation of a power motor 1-2 is transmitted to an air inlet pipe 1-6-1 through a power belt wheel 1-1 and a belt 1-7, the air inlet pipe 1-6-1 is connected with a crushing mechanism 2 to enable the crushing mechanism 2 to rotate, and a crushing column 2-2 in the crushing mechanism 2 rotates to uniformly stir stone concrete and water blown up by an air field in a space formed by a water leakage plate lower plate 3-11, a pouring bin body 4-1-2 and a pouring plate 4-3-1; the equipment can pour out the stirred materials, the upper door 4-2-1 of the pouring bin and the lower door 4-5-2 of the pouring bin are hinged with the pouring bin body 4-1-2, the slide block 4-6 is slid onto the slide rail 4-1-1 of the slide rail door, the upper door 4-2-1 of the pouring bin, the lower doors 4-5-2 of the dumping bin are respectively opened upwards and downwards, the hydraulic cylinders 4-3-3 operate to generate an upward thrust and a downward tension, and when the hydraulic rods on the hydraulic cylinders 4-3-3 move downwards, one ends of the dumping plates 4-3-1, which are close to the upper doors 4-2-1 and the lower doors 4-5-2 of the dumping bin, move downwards so as to dump stone concrete on the dumping plates 4-3-1.

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 (3)

1. The utility model provides a multi-functional stirring crushing equipment, includes turbo charger mechanism (1), broken mechanism (2), pressurized water tank mechanism (3), the discharge mechanism that pours over (4), box mechanism (5), its characterized in that: the automatic dumping device is characterized in that the turbocharger mechanism (1) is connected with the crushing mechanism (2), the crushing mechanism (2) is connected with the pressure water tank mechanism (3), the pressure water tank mechanism (3) is connected with the turbocharger mechanism (1), the dumping discharging mechanism (4) is connected with the box body mechanism (5), the turbocharger mechanism (1) is connected with the dumping discharging mechanism (4), and the pressure water tank mechanism (3) is connected with the dumping discharging mechanism (4);

the turbocharger mechanism (1) comprises a power belt wheel (1-1), a power motor (1-2), a motor base body (1-3), a turbocharger actuating mechanism (1-4), a driven belt wheel (1-5), a turbine airflow output mechanism (1-6), a belt (1-7) and a turbine air inlet channel (1-8), wherein the power belt wheel (1-1) is connected with the power motor (1-2), the power motor (1-2) is connected with the motor base body (1-3), the turbocharger actuating mechanism (1-4) is connected with the driven belt wheel (1-5), the driven belt wheel (1-5) is in friction connection with the belt (1-7), the driven belt wheel (1-5) is connected with the turbine airflow output mechanism (1-6), and the belt (1-7) is in friction connection with the power belt wheel (1-1), the turbine inlet (1-8) is inserted into the turbine airflow output (1-6); the turbocharging actuating mechanism (1-4) comprises a forward impeller (1-4-1), a power motor (1-4-2) and a reverse turbine (1-4-3), the impeller protection device comprises impeller protection devices (1-4-4), a forward impeller (1-4-1) is connected with a power motor (1-4-2), the power motor (1-4-2) is connected with a reverse turbine (1-4-3), the power motor (1-4-2) is connected with the impeller protection devices (1-4-4), a turbine airflow output mechanism (1-6) comprises an air inlet pipe (1-6-1) and an air outlet hole (1-6-2), and the air inlet pipe (1-6-1) is connected with the air outlet hole (1-6-2);

the crushing mechanism (2) comprises a rotating column (2-1) and a crushing column (2-2), the crushing column (2-2) is connected with the rotating column (2-1), and the rotating column (2-1) is connected with a turbine airflow output (1-6);

the pressure water tank mechanism (3) comprises a limiting plate (3-1), a water pressing plate (3-2), a threaded column upper limit (3-3), a threaded column slider (3-4), a threaded column lower limit (3-5), a threaded column (3-6), a water leakage plate limiting plate (3-7), a threaded column driven pulley (3-8), a belt (3-9), a threaded column (3-10), a water leakage plate lower plate (3-11), a water leakage plate upper plate (3-12) and a water leakage hole (3-13), the limiting plate (3-1) is connected with the water pressing plate (3-2), the water pressing plate (3-2) is in threaded connection with the threaded column (3-6), the threaded column upper limit (3-3) is connected with the threaded column (3-6), the threaded column sliding block (3-4) is in threaded connection with the threaded column (3-6), the threaded column lower limit (3-5) is connected with the threaded column (3-6), the threaded column (3-6) is connected with the power pulley (1-1), the threaded column driven pulley (3-8) is in friction connection with the belt (3-9), the belt (3-9) is in friction connection with the driven pulley (1-5), the threaded column (3-10) is connected with the threaded column driven pulley (3-8), the water leakage plate lower plate (3-11) is in sliding connection with the water leakage plate upper plate (3-12), the water leakage plate limit plate (3-7) is in sliding connection with the water leakage plate lower plate (3-11), the water leakage plate limit plate (3-7) is connected with the water leakage plate upper plate (3-12), the threaded column driven belt wheel (3-8) is connected with the threaded column (3-10), the water leakage hole (3-13) is formed in the lower plate (3-11) of the water leakage plate, and the water leakage hole (3-13) is formed in the upper plate (3-12) of the water leakage plate;

the pouring discharging mechanism (4) comprises a pouring bin mechanism, an upper sliding rail mechanism (4-2), a pouring plate hydraulic mechanism (4-3), a pouring plate limiting mechanism (4-4), a lower sliding rail mechanism (4-5) and a sliding block (4-6), the pouring bin mechanism is connected with the upper sliding rail mechanism (4-2), the upper sliding rail mechanism (4-2) is connected with the pouring plate hydraulic mechanism (4-3), and the pouring plate hydraulic mechanism (4-3) is connected with the pouring bin mechanism; the dumping bin mechanism comprises a sliding rail door sliding rail (4-1-1), a dumping bin body (4-1-2) and a dumping bin body opening (4-1-3), a sliding rail door sliding block (4-1-1) is connected with the dumping bin body (4-1-2), the dumping bin body opening (4-1-3) is opened at the dumping bin body (4-1-2), an upper sliding rail mechanism (4-2) comprises a dumping bin upper door (4-2-1) and a dumping bin upper sliding rail (4-2-2), the dumping bin upper door (4-2-1) is hinged with the dumping bin body (4-1-2), the dumping bin upper sliding rail (4-2-2) is connected with the sliding block (4-6) in a sliding mode, the sliding rail (4-2-2) on the dumping bin and the sliding rail door sliding rail (4-1-1) are in the same horizontal line, the dumping plate hydraulic mechanism (4-3) comprises a dumping plate (4-3-1), a dumping plate mounting seat (4-3-2), a hydraulic cylinder (4-3-3), a hydraulic cylinder mounting seat (4-3-4) and a bearing seat (4-3-5), wherein the dumping plate (4-3-1) is connected with a dumping bin body (4-1-2), the dumping plate mounting seat (4-3-2) is connected with the dumping plate (4-3-1), the hydraulic cylinder (4-3-3) is hinged with the dumping plate mounting seat (4-3-2), the hydraulic cylinder mounting seat (4-3-4) is connected with the hydraulic cylinder (4-3-3), the hydraulic cylinder mounting seat (4-3-4) is connected with the dumping bin body (4-1-2), a bearing seat (4-3-5) is connected with an air inlet pipe (1-6-1) through a bearing, a dumping plate limit (4-4) is connected with a dumping bin body (4-1-2), the dumping plate limit (4-4) is connected with a dumping plate (4-3-1), a lower slide rail mechanism (4-5) comprises a lower slide rail (4-5-1), the lower dumping bin door (4-5-2), a lower sliding rail (4-5-1) is connected with a sliding block (4-6) in a sliding manner, the lower sliding rail (4-5-1) and a sliding rail door sliding rail (4-1-1) are positioned on the same horizontal line, the lower dumping bin door (4-5-2) is hinged with the dumping bin body (4-1-2), and the lower dumping bin door (4-5-2) is connected with the lower sliding rail (4-5-1);

the box body mechanism (5) comprises a box body upper plate (5-1), a box body equipment opening (5-2), wherein the box body upper plate (5-1) is connected with the dumping bin body (4-1-2), the box body equipment opening (5-2) is connected with the dumping bin body (4-1-2), the tilting bin body (4-1-2) is connected with the motor seat body (1-3), and the tilting bin body (4-1-2) is connected with the impeller protection body (1-4-4).

2. The multifunctional stirring crushing device of claim 1, wherein: when the threaded column (3-6) and the threaded column (3-10) move to reach the upper limit (3-3) or the lower limit (3-5) of the threaded column, the threaded column (3-6) and the threaded column (3-10) have no threads, and the threaded column sliding block (3-4) stops moving.

3. The multifunctional stirring crushing device of claim 1, wherein: when the water pressing plate (3-2) moves to the position of the upper plate (3-12) of the water leakage plate through the threaded columns (3-6) and (3-10), the threaded columns (3-6) and (3-10) have no threads, and the water pressing plate (3-2) stops moving.

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