CN111203408A - Belt cleaning device of husky material for building - Google Patents

Abstract

The invention relates to the field of buildings, in particular to a cleaning device for building sand. The transmission ratio output by the third shaft and the first shaft can be adjusted according to actual conditions; the sand-water separation and collection can be realized, and the separation speed of the device can be adjusted according to the actual situation; mixing of sand and water can be achieved. Including the pressfitting assembly, the stirring assembly, the power supply assembly, the transition assembly, manual rotation seals the lid, make sealed lid and upper end cover separation, and then add husky and abluent water in the lower extreme framework, and then when the axle three rotates, drive two rotations of awl tooth, and then drive one rotation of middle-end pivot, and then drive the actuating lever motion, and then drive two motions of inner axle, and then through the meshing transmission of the inner straight-tooth of inner straight-tooth one and the inner ring gear of lower extreme framework, and then make the rotation of stirring leaf, and then realize the mixture to husky and water, and then accomplish the washing to the sand.

Description

Belt cleaning device of husky material for building

Technical Field

The invention relates to the field of buildings, in particular to a cleaning device for building sand.

Background

A cleaning device for building sand is a common device in the field of buildings, but the cleaning device for the general building sand has single function.

Disclosure of Invention

The invention aims to provide a cleaning device for building sand, which can adjust the transmission ratio output by a shaft III and a shaft I according to the actual situation; the sand-water separation and collection can be realized, and the separation speed of the device can be adjusted according to the actual situation; mixing of sand and water can be achieved.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a belt cleaning device of husky material for building, includes pressfitting assembly, stirring assembly, power supply assembly, transition assembly, the pressfitting assembly is connected with the stirring assembly, and the stirring assembly is connected with the power supply assembly, and transition assembly pressfitting assembly is connected with the stirring assembly.

As a further optimization of the technical scheme, the invention relates to a cleaning device for building sand, which comprises a pressing combination body, a lower end rectangular outer frame, a middle end rectangular outer frame, an upper end outer frame, a piston rod, an upper side rectangular outer frame, a communicating hole, a hinge plate I, a hinge plate II, a sand outlet hole, a middle end bearing plate, an inner end roller, an inner end support I, a push spring II, an inner end support II, an inner side rectangular groove I, a communicating hole, a liquid discharge pipe, a clamping groove, a push spring III, a clamp I, an inner side grid plate, a push spring IV, an inner end slider, a hinge rod I, a push spring V and a hinge rod II, wherein the lower end rectangular outer frame is fixedly connected and communicated with the middle end rectangular outer frame, the middle end rectangular outer frame is fixedly connected and communicated with the upper end outer frame, the communicating hole is arranged on the lower end rectangular outer frame, the hinge plate I is hinged with the lower end rectangular, an inner end support II is fixedly connected with a lower end rectangular outer frame, a middle end bearing plate is connected with the inner end support II in a sliding way, an inner end roller is rotatably connected with an inner end support plate, an inner end support I is connected with a middle end bearing plate in a sliding way, a push spring I is connected with the inner end support I in a sleeved way, a push spring II is connected with the middle end bearing plate in a sleeved way, a hinge plate II is hinged with the middle end bearing plate, an inner side rectangular groove I is arranged on the lower end rectangular outer frame, the inner end roller is matched and connected with an inner side rectangular groove I, a communication hole is arranged on the middle end bearing plate, a liquid discharge pipe is fixedly connected and communicated with an upper end outer frame, a clamping groove is arranged on a piston rod, a clamping clip I is connected with the side rectangular outer frame in a sliding way, a clamping clip I is matched and connected with a clamping clip I, an inner end slider is connected with a piston rod in a sliding way, the second hinge rod is connected with the first hinge rod in a sliding mode, and the first hinge rod is connected with the inner end slider in a hinged mode.

As a further optimization of the technical scheme, the invention relates to a cleaning device for building sand, which comprises an upper end cover, a lower end frame body, a sealing cover, a first bevel gear, a second bevel gear, a first side wall pipe, a second side wall pipe, a first straight gear at the inner end, a first middle end rotating shaft, a driving rod, a second inner end shaft, a spring A and a stirring blade, wherein the upper end cover is fixedly connected with the lower end frame body, the sealing cover is fixedly connected with the upper end cover, the first middle end rotating shaft is rotatably connected with the upper end cover, the first bevel gear is fixedly connected with the first middle end rotating shaft, the second bevel gear is in meshing transmission with the first bevel gear, the first side wall pipe and the second side wall pipe are fixedly connected with the lower end frame body, the driving rod is fixedly connected with the first middle end rotating shaft, the second inner end shaft is rotatably connected with the driving rod, a rack is arranged on the inner wall of the lower end frame body, the first inner end is in meshing transmission with the lower, the stirring blade is connected with the inner end shaft II in a sliding mode, the side wall pipe I and the side wall pipe II are fixedly connected and communicated with the communicating hole, and the lower end frame body is fixedly connected with the lower end rectangular outer frame.

As a further optimization of the technical scheme, the invention relates to a cleaning device for building sand, which comprises a power source assembly, an input motor, a belt I, a shaft I, an inner end column I, a conical roller I, a transmission ball II, a driving ring, a conical roller II, an inner end slider I, an inner end slider pushing spring I, an inner end slider chute I, an inner end column II, a shaft III, a belt II, an inner end slider pushing spring II, an inner end slider chute II, a hinged connecting rod I, a connecting rod spring A, a hinged terminal and a sliding column, wherein the input motor is fixedly connected with the power frame, the belt I is arranged between the input motor and the shaft I, the shaft I is rotatably connected with the power frame, the inner end column I is fixedly connected with the shaft I, the inner end slider I is slidably connected with the inner end column I, the inner end slider pushing spring I is arranged between the inner end slider I and the inner end column I, an inner end slider push spring I is connected with an inner end slider I in a sleeved mode, the inner end slider I is connected with an inner end slider sliding groove I in a matched mode, the inner end slider sliding groove I is arranged on a conical roller I, the conical roller I3-6 is rotatably connected with a power frame, a transmission ball I is connected with the conical roller I3-6 in a matched mode, the transmission ball I is fixedly connected with a transmission ball rod I, the transmission ball II is fixedly connected with the transmission ball rod I, the transmission ball II is connected with a conical roller II in a matched mode, an inner end slider sliding groove II is arranged on the conical roller II, the inner end slider I is connected with the inner end slider sliding groove II in a matched mode, the inner end slider I is connected with an inner end column II in a sliding mode, the inner end slider push spring II is arranged between the inner end slider I and the inner end column II, the inner end slider push spring II is connected with the inner end slider I in a sleeved mode, a shaft II is fixedly, the third shaft is rotatably connected with the power frame, the second belt is connected between the second shaft and the third shaft, the sliding column is fixedly connected with the power frame, the driving ring is slidably connected with the sliding column, an axial limiting boss A is arranged between the driving ring and the sliding column, the first hinged connecting rod is hinged with the driving ring, the hinged terminal is slidably connected with the first hinged connecting rod, the connecting rod spring A is arranged between the hinged terminal and the first hinged connecting rod, the first transmission ball rod is connected with the hinged terminal in a matched mode, the power frame is fixedly connected with the upper end cover, and the second bevel gear is fixedly connected with the third shaft.

As a further optimization of the technical scheme, the invention relates to a cleaning device for building sand, which comprises a first driving outer frame, a waist groove rod, a first driving hinge rod, a first clutch rod, a second clutch rod, a third clutch rod, a second driving hinge rod, a threaded rod and an inner slider, wherein the first driving outer frame is fixedly connected with the waist groove rod, the first driving hinge rod is matched and connected with the waist groove rod, the inner slider is connected with the first driving hinge rod in a sliding manner, the threaded rod is rotationally connected with the first driving hinge rod, the threaded rod is in threaded connection with the inner slider, the second driving hinge rod is rotationally connected with the inner slider, the second driving hinge rod is fixedly connected with the third clutch rod, the second clutch rod is connected with the first clutch rod in a sliding manner, the third clutch rod is matched and connected with the first clutch rod, the second clutch rod is fixedly connected with the first shaft, the second clutch rod is provided with a spring A on a power frame, and the spring A is connected with the first, the first driving outer frame is fixedly connected with the upper rectangular outer frame.

The cleaning device for the building sand has the beneficial effects that:

the invention relates to a cleaning device for building sand, which is characterized in that a sealing cover is manually rotated to be separated from an upper end cover, so that sand and cleaning water are added into a lower end frame body, and further when a third shaft rotates, a second bevel gear rotates to drive a first bevel gear to rotate, and further drive a first middle end rotating shaft to rotate, and further drive a driving rod to move, so that a second inner end shaft is driven to move, and further through meshing transmission of a first inner end straight tooth and a gear ring at the inner end of the lower end frame body, rotation of a stirring blade is further realized, so that mixing of the sand and the water is realized, and further cleaning of the sand is completed.

Drawings

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

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first schematic view of a pressing assembly according to the present invention;

FIG. 4 is a second schematic structural diagram of the pressing assembly of the present invention;

FIG. 5 is a third schematic view of the pressing assembly according to the present invention;

FIG. 6 is a fourth schematic structural view of the pressing assembly of the present invention;

FIG. 7 is a schematic structural diagram of a pressing assembly according to the present invention;

FIG. 8 is a first schematic structural diagram of a stirring assembly of the present invention;

FIG. 9 is a schematic structural diagram of a stirring assembly of the present invention;

FIG. 10 is a third schematic structural view of the stirring assembly of the present invention;

FIG. 11 is a schematic illustration of a power source assembly of the present invention;

fig. 12 is a schematic view of the transition assembly structure of the present invention.

In the figure: pressing the combined body 1; a rectangular outer frame 1-1 at the lower end; a middle rectangular outer frame 1-2; an upper end outer frame 1-3; a piston rod 1-4; 1-5 of an upper rectangular outer frame; communicating holes 1-6; hinge plates 1-7; hinge plates II 1-8; 1-9 of sand outlet holes; a middle bearing plate 1-10; inner end rollers 1-11; 1-12 of an inner end bracket; 1-13 of a push spring; a second push spring 1-14; 1-15 parts of a second inner end bracket; the inner side rectangular groove I is 1-16; communication holes 1-17; 1-18 parts of a drain pipe; a card slot 1-19; 1-20 parts of a push spring III; a first clip 1-21; inner grid plates 1-22; push springs four 1-23; inner end sliders 1 to 24; hinge rods one 1-26; push springs five 1-27; two hinge rods 1-28; a stirring assembly 2; an upper end cover 2-1; a lower end frame body 2-2; 2-3 parts of a sealing cover; 2-4 parts of a first bevel gear; 2-5 parts of a second bevel gear; 2-6 parts of side wall pipe; 2-7 parts of a side wall pipe; straight teeth I at the inner end are 2-8; a middle end rotating shaft I2-9; 2-10 of a driving rod; 2-11 parts of an inner end shaft II; spring A2-12; 2-13 parts of stirring blades; a power source assembly 3; a power frame 3-1; inputting a motor 3-2; 3-3 parts of a first belt; 3-4 of a first shaft; 3-5 of the inner end column I; 3-6 parts of a conical roller I; 3-7 parts of a first transmission ball; 3-8 parts of a first transmission ball arm; 3-9 parts of a second transmission ball; drive rings 3-10; a second conical roller 3-11; 3-12 inner end sliders I; the inner end of the slider push spring is 3-13; the inner end of the sliding block chute I is 3-14; 3-15 parts of an inner end column II; shaft two 3-16; shaft three 3-17; 3-18 parts of a second belt; inner end sliders 3-19; 3-20 parts of inner end slider push spring II; a second inner end slider sliding groove 3-21; 3-22 parts of a first hinge connecting rod; a link spring A3-23; hinge terminals 3-24; 3-25 of a sliding column; a transition assembly 4; driving the outer frame I4-1; 4-2 of a waist groove rod; driving a first hinge rod 4-3; 4-4 parts of a clutch lever I; 4-5 of a clutch lever II; 4-6 parts of a clutch lever; driving the hinge rod II 4-7; 4-8 parts of a threaded rod; 4-9 parts of inner slider.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 12, and a cleaning device for building sand includes a pressing combination 1, a stirring combination 2, a power source combination 3, and a transition combination 4, where the pressing combination 1 is connected to the stirring combination 2, the stirring combination 2 is connected to the power source combination 3, and the transition combination 4 is connected to the pressing combination 1 and the stirring combination 2.

The second embodiment is as follows:

the first embodiment is further described with reference to fig. 1-12, and the pressing assembly 1 includes a lower rectangular outer frame 1-1, a middle rectangular outer frame 1-2, an upper rectangular outer frame 1-3, a piston rod 1-4, an upper rectangular outer frame 1-5, a communication hole 1-6, a first hinge plate 1-7, a second hinge plate 1-8, a sand outlet hole 1-9, a middle bearing plate 1-10, an inner roller 1-11, an inner support frame 1-12, a push spring 1-13, a push spring two 1-14, an inner support frame two 1-15, an inner rectangular groove 1-16, a communication hole 1-17, a drain pipe 1-18, a slot 1-19, a push spring three 1-20, a clip one 1-21, an inner grid plate 1-22, a clamp groove 1-19, a grid plate 1-20, a clamp plate 1-21, A push spring IV 1-23, an inner end slider 1-24, a hinge rod I1-26, a push spring V1-27 and a hinge rod II 1-28, wherein a lower end rectangular outer frame 1-1 is fixedly connected and communicated with a middle end rectangular outer frame 1-2, the middle end rectangular outer frame 1-2 is fixedly connected and communicated with an upper end outer frame 1-3, a communication hole 1-6 is arranged on the lower end rectangular outer frame 1-1, a hinge plate I1-7 is hinged with the lower end rectangular outer frame 1-1, a hinge plate II 1-8 is slidably connected with the hinge plate I1-7, a sand outlet 1-9 is arranged on the lower end rectangular outer frame 1-1, an inner end support II 1-15 is fixedly connected with the lower end rectangular outer frame 1-1, and a middle end bearing plate 1-10 is slidably connected with the inner end support II 1-15, the inner end rollers 1-11 are rotatably connected with the inner end supports 1-12, the inner end supports 1-12 are slidably connected with the middle bearing plate 1-10, the push springs 1-13 are connected with the inner end supports 1-12 in a sleeved mode, the push springs 1-14 are connected with the middle bearing plate 1-10 in a sleeved mode, the hinge plates 1-8 are connected with the middle bearing plate 1-10 in a hinged mode, the inner side rectangular grooves 1-16 are formed in the lower end rectangular outer frame 1-1, the inner end rollers 1-11 are connected with the inner side rectangular grooves 1-16 in a matched mode, the communication holes 1-17 are formed in the middle bearing plate 1-10, the liquid discharge pipes 1-18 are fixedly connected and communicated with the upper end outer frame 1-3, the clamping grooves 1-19 are formed in the piston rods 1-4, and the clips 1-21 are slidably connected with the side rectangular outer frames 1-5, the first clamp 1-21 is connected with the first clamp 1-19 in a matching mode, the third push spring 1-20 is connected with the first clamp 1-21 in a sleeved mode, the inner end slider 1-24 is connected with the piston rod 1-4 in a sliding mode, the fourth push spring 1-23 is connected with the piston rod 1-4 in a sleeved mode, the inner side grid plate 1-22 is connected with the second hinge rod 1-28 in a hinged mode, the fifth push spring 1-27 is arranged between the second hinge rod 1-28 and the first hinge rod 1-26, the second hinge rod 1-28 is connected with the first hinge rod 1-26 in a sliding mode, and the first hinge rod 1-26 is connected with the inner end slider 1-24 in a hinged mode.

The third concrete implementation mode:

the first embodiment is further described with reference to fig. 1-12, where the stirring assembly 2 includes an upper end cap 2-1, a lower end frame 2-2, a sealing cap 2-3, a first bevel gear 2-4, a second bevel gear 2-5, a first side wall tube 2-6, a second side wall tube 2-7, a first straight tooth 2-8 at an inner end, a first middle end rotating shaft 2-9, a driving rod 2-10, a second inner end shaft 2-11, a spring a2-12, and a stirring blade 2-13, the upper end cap 2-1 is fixedly connected with the lower end frame 2-2, the sealing cap 2-3 is fixedly connected with the upper end cap 2-1, the first middle end rotating shaft 2-9 is rotatably connected with the upper end cap 2-1, the first bevel gear 2-4 is fixedly connected with the first middle end rotating shaft 2-9, a bevel gear II 2-5 is in meshing transmission with a bevel gear I2-4, a side wall pipe I2-6 and a side wall pipe II 2-7 are fixedly connected with a lower end frame body 2-2, a driving rod 2-10 is fixedly connected with a middle end rotating shaft I2-9, an inner end shaft II 2-11 is in rotating connection with the driving rod 2-10, a rack is arranged on the inner wall of the lower end frame body 2-2, an inner end straight tooth I2-8 is in meshing transmission with the lower end frame body 2-2, an inner end straight tooth I2-8 is fixedly connected with the inner end shaft II 2-11, a spring A2-12 is arranged between a stirring blade 2-13 and the inner end shaft II 2-11, the stirring blade 2-13 is in sliding connection with the inner end shaft II 2-11, the side wall pipe I2-6 and the side wall pipe II 2-7 are fixedly connected and communicated with, the lower end frame body 2-2 is fixedly connected with the lower end rectangular outer frame 1-1;

the sealing cover 2-3 is manually rotated to separate the sealing cover 2-3 from the upper end cover 2-1, sand and cleaning water are added into the lower end frame body 2-2, the bevel gear II 2-5 is driven to rotate when the shaft III 3-17 rotates, the bevel gear I2-4 is driven to rotate, the middle end rotating shaft I2-9 is driven to rotate, the driving rod 2-10 is driven to move, the inner end shaft II 2-11 is driven to move, and the stirring blades 2-13 are driven to rotate through meshing transmission of the inner end straight teeth I2-8 and the inner end gear ring of the lower end frame body 2-2, so that the sand and the water are mixed, and the sand is cleaned.

The fourth concrete implementation mode:

the first embodiment is further described with reference to fig. 1-12, and the power source assembly 3 includes a power frame 3-1, an input motor 3-2, a belt one 3-3, a shaft one 3-4, an inner end post one 3-5, a tapered roller one 3-6, a transmission ball one 3-7, a transmission ball rod one 3-8, a transmission ball two 3-9, a driving ring 3-10, a tapered roller two 3-11, an inner end slider one 3-12, an inner end slider push spring one 3-13, an inner end slider chute one 3-14, an inner end post two 3-15, a shaft two 3-16, a shaft three 3-17, a belt two 3-18, an inner end slider two 3-19, an inner end slider push spring two 3-20, an inner end slider chute two 3-21, a power source assembly 3-1, an input motor 3-2, a belt one 3-3, a shaft one 3-4, an inner end, A hinged connecting rod I3-22, a connecting rod spring A3-23, a hinged terminal 3-24 and a sliding column 3-25, wherein an input motor 3-2 is fixedly connected with a power frame 3-1, a belt I3-3 is arranged between the input motor 3-2 and a shaft I3-4, the shaft I3-4 is rotatably connected with the power frame 3-1, an inner end column I3-5 is fixedly connected with the shaft I3-4, an inner end sliding column I3-12 is slidably connected with the inner end column I3-5, an inner end sliding column push spring I3-13 is arranged between the inner end sliding column I3-12 and the inner end column I3-5, the inner end sliding column push spring I3-13 is connected with the inner end sliding column I3-12 in a sleeved mode, the inner end sliding column I3-12 is connected with the inner end sliding column I3-14 in a matched mode, the inner end slider sliding groove I3-14 is arranged on the conical roller I3-6, the conical roller I3-6 is rotatably connected with the power frame 3-1, the transmission ball I3-7 is matched and connected with the conical roller I3-6, the transmission ball I3-7 is fixedly connected with the transmission ball rod I3-8, the transmission ball II 3-9 is matched and connected with the conical roller II 3-11, the inner end slider sliding groove II 3-21 is arranged on the conical roller II 3-11, the inner end slider I3-12 is matched and connected with the inner end slider sliding groove II 3-21, the inner end slider I3-12 is slidably connected with the inner end column II 3-15, the inner end slider push spring II 3-20 is arranged between the inner end slider I3-12 and the inner end column II 3-15, and the inner end slider push spring II 3-20 is connected with the inner end slider I3-12 in a sleeved manner, the shaft II 3-16 is fixedly connected with the inner end column II 3-15, the shaft II 3-16 is rotationally connected with the power frame 3-1, the shaft III 3-17 is rotationally connected with the power frame 3-1, the belt II 3-18 is connected between the shaft II 3-16 and the shaft III 3-17, the sliding column 3-25 is fixedly connected with the power frame 3-1, the driving ring 3-10 is slidably connected with the sliding column 3-25, an axial limiting boss A is arranged between the driving ring 3-10 and the sliding column 3-25, the hinge connecting rod I3-22 is hinged with the driving ring 3-10, the hinge terminal 3-24 is slidably connected with the hinge connecting rod I3-22, the connecting rod spring A3-23 is arranged between the hinge terminal 3-24 and the hinge connecting rod I3-22, the first transmission ball arm 3-8 is connected with the hinged terminal 3-24 in a matching mode, the power frame 3-1 is fixedly connected with the upper end cover 2-1, and the second bevel gear 2-5 is fixedly connected with the third shaft 3-17.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 12, and the present embodiment further describes the first embodiment, where the transition assembly 4 includes a first driving outer frame 4-1, a first waist-groove rod 4-2, a first driving hinge rod 4-3, a first clutch rod 4-4, a second clutch rod 4-5, a third clutch rod 4-6, a second driving hinge rod 4-7, a threaded rod 4-8, and an inner slider 4-9, the first driving outer frame 4-1 is fixedly connected to the first waist-groove rod 4-2, the first driving hinge rod 4-3 is connected to the second waist-groove rod 4-2 in a matching manner, the inner slider 4-9 is connected to the first driving hinge rod 4-3 in a sliding manner, the threaded rod 4-8 is rotatably connected to the first driving hinge rod 4-3, the threaded rod 4-8 is connected to the inner slider 4-9 in a threaded manner, the driving hinge rod II 4-7 is rotatably connected with the inner slider 4-9, the driving hinge rod II 4-7 is fixedly connected with the clutch rod III 4-6, the clutch rod II 4-5 is slidably connected with the clutch rod I4-4, the clutch rod III 4-6 is in fit connection with the clutch rod I4-4, the clutch rod II 4-5 is fixedly connected with the shaft I3-4, the clutch rod II 4-5 and the power frame 3-1 are provided with a spring A, the spring A is in sleeve connection with the clutch rod II 4-5, and the driving outer frame I4-1 is fixedly connected with the upper rectangular outer frame 1-5.

The invention relates to a cleaning device for building sand, which has the working principle that: when in use, the input motor 3-2 is started and the shaft I3-4 is driven to rotate by the belt I3-3, further drives an inner end slider 3-12 to drive a conical roller 3-6 to rotate through an inner end post 3-5, thereby driving the first transmission ball 3-7 to rotate, further driving the first transmission ball rod 3-8 and the second transmission ball 3-9 to rotate, further drives the conical rollers II 3-11 to rotate, further drives the inner end columns II 3-15 to rotate through the matching connection of the inner end sliding block chutes II 3-21 and the inner end sliding blocks II 3-19, the second shaft 3-16 is driven to rotate, the third shaft 3-17 is driven to rotate through the second belt 3-18, and power output is conveniently carried out through the third shaft 3-17 and the first shaft 3-4; the speed of power output through the third shaft 3-17 and the first shaft 3-4 can be adjusted according to actual conditions, the driving rings 3-10 are manually pushed, the first transmission ball rod 3-8 is driven to move, the first transmission ball 3-7 and the second transmission ball 3-9 are respectively in matched transmission with the first conical roller 3-6 and the second conical roller 3-11 through the pushing of the connecting rod spring A3-23 when the first transmission ball rod 3-8 moves, and simultaneously the positions of the first transmission ball 3-7 and the second transmission ball 3-9 in the matched transmission on the first conical roller 3-6 and the second conical roller 3-11 are changed along with the movement of the first transmission ball rod 3-8, so that the transmission ratio output through the third shaft 3-17 and the first shaft 3-4 is changed, the adjustment of the transmission ratio of the output of the third shaft 3-17 and the output of the first shaft 3-4 is realized; the first shaft 3-4 rotates to drive the second clutch rod 4-5 to rotate, and then the first clutch rod 4-4 drives the third clutch rod 4-6 to rotate, thereby driving the second driving hinge rod 4-7 to rotate, further conveniently driving the first driving hinge rod 4-3 to move by driving the second driving hinge rod 4-7 through driving the inner slider 4-9, then the waist slot rod 4-2 is driven to move by driving the hinge rod I4-3, and the driving outer frame I4-1 is driven to drive the upper rectangular outer frame 1-5 to move together, and then the piston rod 1-4 is driven to slide along the vertical direction along the inner end of the upper end outer frame 1-3 through the matching connection of the first clip 1-21 and the clamping groove 1-19, the inner end sliders 1 to 24 drive the inner grid plates 1 to 22 to slide along the inner ends of the upper end outer frames 1 to 3; when the inner end sliders 1-24 drive the inner grid plates 1-22 to slide from bottom to top, sand water flows into the upper end outer frames 1-3 through the communication holes 1-6 to realize the pumping-out of the sand water, when the inner end sliders 1-24 drive the inner grid plates 1-22 to slide from top to bottom, under the action of air pressure, the sand water is separated, sand flows out through the sand outlet holes 1-9, and simultaneously cleaned water flows out through the liquid discharge pipes 1-18 to further complete the separation and collection of the sand water, the separation speed of the device can be adjusted according to actual conditions, the slidable distance of the inner end sliders 1-24 at the inner ends of the upper end outer frames 1-3 is changed through the matching connection of the clamps 1-21 and different clamping grooves 1-19, so that the capacity of the sand water for taking in and taking out is conveniently changed, thereby realizing the change of the separation speed; the sealing cover 2-3 is manually rotated to separate the sealing cover 2-3 from the upper end cover 2-1, sand and cleaning water are added into the lower end frame body 2-2, the bevel gear II 2-5 is driven to rotate when the shaft III 3-17 rotates, the bevel gear I2-4 is driven to rotate, the middle end rotating shaft I2-9 is driven to rotate, the driving rod 2-10 is driven to move, the inner end shaft II 2-11 is driven to move, and the stirring blades 2-13 are driven to rotate through meshing transmission of the inner end straight teeth I2-8 and the inner end gear ring of the lower end frame body 2-2, so that the sand and the water are mixed, and the sand is cleaned.

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 (5)

1. The utility model provides a belt cleaning device of husky material for building, includes pressfitting assembly (1), stirring assembly (2), power supply assembly (3), transition assembly (4), its characterized in that: the pressing combination body (1) is connected with the stirring combination body (2), the stirring combination body (2) is connected with the power source combination body (3), and the transition combination body (4) is connected with the pressing combination body (1) and the stirring combination body (2).

2. The building sand cleaning device as claimed in claim 1, wherein: the pressing combination body (1) comprises a lower end rectangular outer frame (1-1), a middle end rectangular outer frame (1-2), an upper end outer frame (1-3), a piston rod (1-4), an upper side rectangular outer frame (1-5), communicating holes (1-6), a first hinged plate (1-7), a second hinged plate (1-8), a sand outlet hole (1-9), a middle end bearing plate (1-10), inner end rollers (1-11), an inner end support I (1-12), a first push spring (1-13), a second push spring (1-14), a second inner end support (1-15), a first inner side rectangular groove (1-16), communicating holes (1-17), a liquid discharge pipe (1-18), a clamping groove (1-19), a third push spring (1-20), a first clamp (1-21) and a second clamp, The sand-discharging device comprises inner side grid plates (1-22), four pushing springs (1-23), inner end sliders (1-24), a first hinge rod (1-26), a fifth pushing spring (1-27) and a second hinge rod (1-28), wherein a lower end rectangular outer frame (1-1) is fixedly connected and communicated with a middle end rectangular outer frame (1-2), the middle end rectangular outer frame (1-2) is fixedly connected and communicated with an upper end outer frame (1-3), communication holes (1-6) are formed in the lower end rectangular outer frame (1-1), a first hinge plate (1-7) is hinged with the lower end rectangular outer frame (1-1), a second hinge plate (1-8) is slidably connected with the first hinge plate (1-7), sand discharging holes (1-9) are formed in the lower end rectangular outer frame (1-1), and an inner end support frame (1-15) is fixedly connected with the lower end rectangular outer frame (1-1), the middle-end bearing plate (1-10) is connected with the inner-end support II (1-15) in a sliding way, the inner-end rollers (1-11) are connected with the inner-end support I (1-12) in a rotating way, the inner-end support I (1-12) is connected with the middle-end bearing plate (1-10) in a sliding way, the push spring I (1-13) is connected with the inner-end support I (1-12) in a sleeved way, the push spring II (1-14) is connected with the middle-end bearing plate (1-10) in a sleeved way, the hinged plate II (1-8) is connected with the middle-end bearing plate (1-10) in a hinged way, the inner-side rectangular groove I (1-16) is arranged on the lower-end rectangular outer frame (1-1), the inner-end rollers (1-11) are connected with the inner-side rectangular groove I (1-16) in a matched, the liquid discharge pipe (1-18) is fixedly connected and communicated with the upper end outer frame (1-3), the clamping groove (1-19) is arranged on the piston rod (1-4), the first clip (1-21) is connected with the side rectangular outer frame (1-5) in a sliding way, the first clip (1-21)) is connected with the clamping groove (1-19) in a matching way, the third push spring (1-20) is connected with the first clip (1-21)) in a sleeved way, the inner end slider (1-24) is connected with the piston rod (1-4) in a sliding way, the fourth push spring (1-23) is connected with the piston rod (1-4) in a sleeved way, the inner side grid plate (1-22) is connected with the second hinge rod (1-28) in a hinged way, the five push spring (1-27) is arranged between the second hinge rod (1-28) and the first hinge rod (1-26), the second hinge rod (1-28) is connected with the first hinge rod (1-26, the first hinge rod (1-26) is hinged with the inner end slider (1-24).

3. The building sand cleaning device as claimed in claim 1, wherein: the stirring assembly (2) comprises an upper end cover (2-1), a lower end frame body (2-2), a sealing cover (2-3), a first bevel gear (2-4), a second bevel gear (2-5), a first side wall pipe (2-6), a second side wall pipe (2-7), a first inner straight tooth (2-8), a first middle end rotating shaft (2-9), a driving rod (2-10), a second inner end shaft (2-11), a spring A (2-12) and a stirring blade (2-13), wherein the upper end cover (2-1) is fixedly connected with the lower end frame body (2-2), the sealing cover (2-3) is fixedly connected with the upper end cover (2-1), the first middle end rotating shaft (2-9) is rotatably connected with the upper end cover (2-1), the first bevel gear (2-4) is fixedly connected with the first middle end rotating shaft (2-9), a second bevel gear (2-5) is in meshing transmission with the first bevel gear (2-4), a first side wall pipe (2-6) and a second side wall pipe (2-7) are fixedly connected with a lower end frame body (2-2), a driving rod (2-10) is fixedly connected with a first middle end rotating shaft (2-9), a second inner end shaft (2-11) is in rotating connection with the driving rod (2-10), a rack is arranged on the inner wall of the lower end frame body (2-2), a first inner end straight tooth (2-8) is in meshing transmission with the lower end frame body (2-2), a first inner end straight tooth (2-8) is fixedly connected with the second inner end shaft (2-11), a spring A (2-12) is arranged between a stirring blade (2-13) and the second inner end shaft (2-11), the stirring blade (2-13) is in sliding connection with the second inner end shaft (2-11), the side wall pipe I (2-6) and the side wall pipe II (2-7) are fixedly connected and communicated with the communicating hole (1-6), and the lower end frame body (2-2) is fixedly connected with the lower end rectangular outer frame (1-1).

4. The building sand cleaning device as claimed in claim 1, wherein: the power source assembly (3) comprises a power frame (3-1), an input motor (3-2), a belt I (3-3), a shaft I (3-4), an inner end column I (3-5), a conical roller I (3-6), a transmission ball I (3-7), a transmission ball rod I (3-8), a transmission ball II (3-9), a driving ring (3-10), a conical roller II (3-11), an inner end slider I (3-12), an inner end slider push spring I (3-13), an inner end slider sliding groove I (3-14), an inner end column II (3-15), a shaft II (3-16), a shaft III (3-17), a belt II (3-18), an inner end slider II (3-19), an inner end slider push spring II (3-20), A second inner end slider sliding groove (3-21), a first hinged connecting rod (3-22), a connecting rod spring A (3-23), a hinged terminal (3-24) and a sliding column (3-25), wherein an input motor (3-2) is fixedly connected with a power frame (3-1), a first belt (3-3) is arranged between the input motor (3-2) and a first shaft (3-4), the first shaft (3-4) is rotatably connected with the power frame (3-1), the first inner end column (3-5) is fixedly connected with the first shaft (3-4), the first inner end slider (3-12) is slidably connected with the first inner end column (3-5), the first inner end slider push spring (3-13) is arranged between the first inner end slider (3-12) and the first inner end column (3-5), and the first inner end slider push spring (3-13) is connected with the first slider (3-12) in a sleeved mode, an inner end slider first (3-12) is connected with an inner end slider sliding groove first (3-14) in a matching way, the inner end slider sliding groove first (3-14) is arranged on a conical roller first (3-6), the conical roller first (3-6) is rotationally connected with a power frame (3-1), a transmission ball first (3-7) is connected with the conical roller first (3-6) in a matching way, the transmission ball first (3-7) is fixedly connected with a transmission ball rod first (3-8), a transmission ball second (3-9) is fixedly connected with the transmission ball rod first (3-8), the transmission ball second (3-9) is connected with a conical roller second (3-11) in a matching way, an inner end slider sliding groove second (3-21) is arranged on a conical roller second (3-11), the inner end slider first (3-12) is connected with the inner end slider sliding groove second (3-21) in a matching way, an inner end slider I (3-12) is connected with an inner end column II (3-15) in a sliding way, an inner end slider push spring II (3-20) is arranged between the inner end slider I (3-12) and the inner end column II (3-15), the inner end slider push spring II (3-20) is connected with the inner end slider I (3-12) in a sleeved way, a shaft II (3-16) is fixedly connected with the inner end column II (3-15), the shaft II (3-16) is rotationally connected with a power frame (3-1), the shaft III (3-17) is rotationally connected with the power frame (3-1), a belt II (3-18) is connected between the shaft II (3-16) and the shaft III (3-17), a sliding column (3-25) is fixedly connected with the power frame (3-1), and a sliding column (3-10) is connected with the sliding column (3-25) in a sliding way, an axial limiting boss A is arranged between the driving ring (3-10) and the sliding column (3-25), a first hinged connecting rod (3-22) is hinged with the driving ring (3-10), a first hinged terminal (3-24) is connected with the first hinged connecting rod (3-22) in a sliding mode, a connecting rod spring A (3-23) is arranged between the first hinged terminal (3-24) and the first hinged connecting rod (3-22), a first transmission ball rod (3-8) is connected with the first hinged terminal (3-24) in a matching mode, the power frame (3-1) is fixedly connected with the upper end cover (2-1), and a second cone tooth (2-5) is fixedly connected with a third shaft (3-17).

5. The building sand cleaning device as claimed in claim 1, wherein: the transition combination body (4) comprises a first driving outer frame (4-1), a first waist groove rod (4-2), a first driving hinge rod (4-3), a first clutch rod (4-4), a second clutch rod (4-5), a third clutch rod (4-6), a second driving hinge rod (4-7), a threaded rod (4-8) and an inner slider (4-9), the first driving outer frame (4-1) is fixedly connected with the first waist groove rod (4-2), the first driving hinge rod (4-3) is connected with the second waist groove rod (4-2) in a matching manner, the inner slider (4-9) is connected with the first driving hinge rod (4-3) in a sliding manner, the threaded rod (4-8) is connected with the first driving hinge rod (4-3) in a rotating manner, and the threaded rod (4-8) is connected with the inner slider (4-9) in a threaded manner, the driving hinge rod II (4-7) is rotatably connected with the inner slider (4-9), the driving hinge rod II (4-7) is fixedly connected with the clutch rod III (4-6), the clutch rod II (4-5) is slidably connected with the clutch rod I (4-4), the clutch rod III (4-6) is in fit connection with the clutch rod I (4-4), the clutch rod II (4-5) is fixedly connected with the shaft I (3-4), the clutch rod II (4-5) and the power frame (3-1) are provided with a spring A, the spring A is in sleeve connection with the clutch rod II (4-5), and the driving outer frame I (4-1) is fixedly connected with the upper rectangular outer frame (1-5).

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