CN111530666B - Spraying equipment for building material - Google Patents

Abstract

The invention relates to the field of buildings, in particular to spraying equipment for building materials. The spraying of the building material can be realized; the spraying effect can be adjusted according to the actual condition; the automatic reciprocating spraying of the building materials can be realized, and the spraying efficiency is conveniently improved; the position of spraying can be adjusted according to actual conditions. Including spraying the assembly, bear the weight of the assembly, drive the assembly, make the drive sleeve pipe be connected with the cooperation of transmission awl tooth one, and then make two pivoted directions of awl tooth change, and then foretell transmission relation simultaneously, make and bear the weight of the slide along middle-end slide bar reverse slip, when bearing the weight of the slide along middle-end slide bar reverse slip, and when contacting with the border of middle-end slide bar, through above-mentioned transmission relation, make the drive sleeve pipe drive the cooperation sleeve pipe and be connected with two cooperations of transmission awl tooth, and then make the drive sleeve pipe break away from with transmission awl tooth one, and then make and bear the weight of the slide along middle-end slide bar reverse slip once more, and then realize the reciprocal spraying to building.

Description

Spraying equipment for building material

Technical Field

The invention relates to the field of buildings, in particular to spraying equipment for building materials.

Background

The spraying equipment for building materials is a common equipment in the field of buildings, but the function of the common spraying equipment for building materials is single.

Disclosure of Invention

The invention aims to provide spraying equipment for building materials, which can realize spraying of the building materials; the spraying effect can be adjusted according to the actual condition; the automatic reciprocating spraying of the building materials can be realized, and the spraying efficiency is conveniently improved; the position of spraying can be adjusted according to actual conditions.

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

the utility model provides a spraying equipment for building material, includes sprays assembly, bears assembly, drive assembly, its characterized in that: the spraying assembly is connected with the driving assembly, and the bearing assembly is connected with the driving assembly.

As a further optimization of the technical scheme, the invention relates to a spraying device for building materials, which comprises a fixed bottom plate, a first belt, a middle-end rotary column, a first eccentric rod, an eccentric rod hinge rod, a rectangular slider, a first oscillating rod, a U-shaped rod, a first rotating wheel, a second eccentric rod, an eccentric rod connecting rod, a piston rod, a spraying sleeve, a spraying pipe, a containing pipe, a rectangular sleeve, an upper end piston, a lower end piston, a first inner end clamping groove, a first inner end clamping rod and a first inner end clamping rod push spring, wherein the middle-end rotary column is rotatably connected with the fixed bottom plate, the first belt is in fit connection with the middle-end rotary column, the first eccentric rod is fixedly connected with the middle-end rotary column, the first eccentric rod is rotatably connected with the eccentric rod hinge rod, the eccentric rod hinge rod is rotatably connected with the rectangular slider, the rectangular slider is slidably connected with the first oscillating rod, the first inner end clamping groove is arranged on the first oscillating rod, the, the inner end clamping rod I is connected with the rectangular slider in a sliding mode, the inner end clamping rod push spring I is arranged between the two inner end clamping rods I, the swing rod I is connected with the U-shaped rod in a matched mode, the U-shaped rod is fixedly connected with the rotating wheel I, the rotating wheel I is fixedly connected with the fixing bottom plate, the eccentric rod II is fixedly connected with the rotating wheel I, the eccentric rod II is hinged with the eccentric rod connecting rod, the eccentric rod connecting rod is rotatably connected with the piston rod, the upper end piston, the lower end piston is fixedly connected with the piston rod, the upper end piston is connected with the rectangular sleeve in a sliding mode, the lower end piston is connected with the liquid spraying sleeve in a sliding mode, the spraying pipe is fixedly connected and communicated with.

As a further optimization of the technical scheme, the invention relates to spraying equipment for building materials, which comprises a bearing outer frame, a bearing support, a bearing belt, a connecting belt, a roller I, an inner end spiral rod, an inner end sliding column push spring, a roller II, an inner end spiral groove rod, a spiral groove, a matching sliding column, an inner end sleeve I, a buffering sliding rod II, a buffering spring I, a buffering spring II, an inner end sleeve III, a rectangular slider sliding rod and a rectangular slider push spring, wherein the bearing support is fixedly connected with the bearing outer frame, the roller I is rotatably connected with the bearing support, the bearing belt is cooperatively connected with the roller I, the roller II and the inner end sleeve I, the inner end spiral rod is rotatably connected with the roller, the matching sliding column is fixedly connected with the inner end spiral rod, and the matching sliding column is slidably connected with the spiral groove, the spiral groove is arranged on an inner end spiral groove rod, the inner end spiral groove rod is rotatably connected with a roller II, an inner end sliding column is fixedly connected with a roller I, an inner end sliding column push spring is connected with the inner end sliding column in a sleeved mode, the roller II is connected with the inner end sliding column in a sliding mode, a buffering sliding rod I is hinged with an inner end sleeve I, a buffering sliding rod II is connected with the buffering sliding rod I in a sliding mode, a buffering spring I, the buffer spring II is arranged between the buffer slide bar II and the buffer slide bar I, the buffer slide bar II is hinged with the inner end sleeve II, the inner end sleeve II is connected with the inner end sleeve III in a sliding fit mode, the inner end sleeve III is rotatably connected with the rectangular slider, the rectangular slider is connected with the rectangular slider slide bar in a sliding mode, the rectangular slider slide bar is fixedly connected with the bearing outer frame, the rectangular slider push spring is connected with the rectangular slider slide bar in a sleeved mode, the rectangular slider push spring is arranged between the rectangular slider and the rectangular slider slide bar, and the inner spiral rod externally assists the rotating rod.

As a further optimization of the technical scheme, the invention relates to a spraying device for building materials, which comprises a driving assembly, a driving outer frame, a side wall clamping groove, a middle end sliding rod, a bearing sliding plate, a rack rod, a striking rod push spring, an input motor, input bevel teeth, a first transmission bevel gear, a second transmission bevel gear, a driving sleeve, a driving column, a middle end rotating rod, a push spring, a rectangular matching groove, a matching sleeve, a middle end transmission rotating rod, a driving straight tooth, a first bevel gear, a second bevel gear, a prismatic clamping rod and a prismatic clamping rod push spring, wherein the side wall clamping groove is arranged on the driving outer frame, the middle end sliding rod is slidably connected with the driving outer frame, the bearing sliding plate is slidably connected with the middle end sliding rod, the prismatic clamping rod push spring is arranged between the prismatic clamping rod and the middle end sliding rod, the prismatic clamping rod is cooperatively connected with the side wall clamping groove, the, the impact rod is connected with the bearing sliding plate in a sliding manner, the impact rod push spring is connected with the impact rod in a sleeved manner, the impact rod push spring is arranged between the impact rod and the bearing sliding plate, the input motor is fixedly connected with the bearing sliding plate, the input bevel gear is fixedly connected with the input motor, the input bevel gear is in meshing transmission with the transmission bevel gear I and the transmission bevel gear II, the transmission bevel gear I and the transmission bevel gear II are in rotating connection with the bearing sliding plate, the middle-end transmission rotating rod is in rotating matching connection with the transmission bevel gear I and the transmission bevel gear II, the driving sleeve is in sliding connection with the driving column, the middle-end rotating rod is in rotating connection with the bearing sliding plate, the driving column is in matching connection with the middle-end rotating rod, the push spring is connected between the middle-end rotating rod and the bearing sliding plate, the rectangular matching groove is arranged on the middle-end rotating rod, the impact rod is in sliding matching connection with the rectangular matching groove, the driving straight tooth is in rotating connection with the bearing, the bevel gear II is fixedly connected with the middle-end transmission rotating rod, the driving straight teeth are in meshed transmission with the rack rod, the fixing bottom plate is fixedly connected with the bearing sliding plate, the driving outer frame is fixedly connected with the bearing outer frame, and the belt I is connected with an output shaft of the input motor.

The spraying equipment for the building material has the beneficial effects that:

according to the spraying equipment for the building materials, the matching sleeve is driven by the driving sleeve to be separated from the transmission bevel gear II, so that the driving sleeve is connected with the transmission bevel gear I in a matching mode, the rotating direction of the bevel gear II is changed, the bearing sliding plate slides reversely along the middle end sliding rod due to the transmission relation, when the bearing sliding plate slides reversely along the middle end sliding rod and contacts with the boundary of the middle end sliding rod, the driving sleeve drives the matching sleeve to be connected with the transmission bevel gear II in a matching mode through the transmission relation, the driving sleeve is separated from the transmission bevel gear I, the bearing sliding plate slides reversely again along the middle end sliding rod, and therefore the building materials are sprayed in a reciprocating mode.

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 the spray assembly of the present invention;

FIG. 4 is a second schematic structural view of the spray assembly of the present invention;

FIG. 5 is a third schematic view of the spray assembly of the present invention;

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

FIG. 7 is a first schematic structural diagram of the carrier assembly of the present invention;

FIG. 8 is a second schematic structural diagram of the carrier assembly of the present invention;

FIG. 9 is a third schematic structural view of the bearing assembly of the present invention;

FIG. 10 is a fourth schematic view of the bearing assembly of the present invention;

FIG. 11 is a fifth structural schematic view of the bearing assembly of the present invention;

FIG. 12 is a first schematic view of the driving assembly of the present invention;

FIG. 13 is a second schematic structural view of the driving assembly of the present invention;

fig. 14 is a third schematic structural diagram of the driving assembly of the present invention.

In the figure: a spraying assembly 1; a fixed base plate 1-1; 1-2 parts of a first belt; 1-3 middle-end rotary columns; 1-4 parts of an eccentric rod I; eccentric rod hinged rods 1-5; 1-6 of rectangular sliders; 1-7 of a swing rod I; 1-8 parts of a U-shaped rod; 1-9 of a first rotating wheel; 1-10 parts of an eccentric rod II; eccentric rod connecting rods 1-11; a piston rod 1-12; liquid spraying sleeves 1-13; 1-14 parts of a spray pipe; accommodating tubes 1-15; 1-16 of a rectangular sleeve; upper end pistons 1-17; lower end pistons 1-18; a first clamping groove at the inner end is 1-19; the inner end clamping rod I is 1-20; the inner end clamping rod pushes the spring 1-21; a carrier assembly 2; a bearing outer frame 2-1; a load bearing support 2-2; 2-3 of a bearing belt; connecting belts 2-4; 2-5 parts of a roller I; 2-6 of an inner end screw rod; inner end sliding columns 2-7; the inner end sliding column pushes springs 2-8; 2-9 parts of a second roller; 2-10 parts of an inner end spiral grooved rod; 2-11 parts of spiral groove; 2-12 of a matched sliding column; the inner end sleeve I is 2-13; buffer sliding rods I2-14; 2-15 parts of a buffer slide bar II; 2-16 parts of a first buffer spring; 2-17 parts of a second buffer spring; the inner end sleeve II is 2-18; inner end sleeves three 2-19; 2-20 parts of rectangular slider; 2-21 rectangular slider bars; rectangular slider push springs 2-22; the drive assembly 3; driving the outer frame 3-1; a side wall slot 3-2; 3-3 middle slide bars; 3-4 of a bearing sliding plate; 3-5 parts of a rack rod; 3-6 of a striking rod; the impact rod pushes the spring 3-7; inputting a motor 3-8; inputting 3-9 parts of bevel gear; 3-10 parts of a first transmission bevel gear; 3-11 parts of a second transmission bevel gear; drive bushings 3-12; drive columns 3-13; 3-14 of middle rotating rod; 3-15 parts of a push spring; 3-16 rectangular matching grooves; matching the sleeves 3-17; 3-18 middle-end transmission rotating rods; 3-20 parts of driving straight teeth; 3-21 parts of a first bevel gear; 3-22 parts of a second bevel gear; 3-23 of prismatic clamping rod; and 3-24 parts of prismatic clamping rod push spring.

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 present embodiment is described below with reference to fig. 1 to 14, and a spraying apparatus for building materials includes a spraying assembly 1, a carrying assembly 2, and a driving assembly 3, and is characterized in that: the spraying assembly 1 is connected with the driving assembly 3, and the bearing assembly 2 is connected with the driving assembly 3.

The second embodiment is as follows:

the first embodiment is further described with reference to fig. 1-14, the injection assembly 1 includes a fixed base plate 1-1, a first belt 1-2, a middle rotating column 1-3, a first eccentric rod 1-4, an eccentric rod hinge rod 1-5, a rectangular slider 1-6, a first swing rod 1-7, a U-shaped rod 1-8, a first rotating wheel 1-9, a second eccentric rod 1-10, an eccentric rod connecting rod 1-11, a piston rod 1-12, a liquid spraying sleeve 1-13, a spraying pipe 1-14, a containing pipe 1-15, a rectangular sleeve 1-16, an upper end piston 1-17, a lower end piston 1-18, a first inner end clamping groove 1-19, a first inner end clamping rod 1-20, a first inner end clamping rod pushing spring 1-21, a middle rotating column 1-3 rotatably connected with the fixed base plate 1-1, a belt I1-2 is matched and connected with the middle-end rotary column 1-3, an eccentric rod I1-4 is fixedly connected with the middle-end rotary column 1-3, the eccentric rod I1-4 is rotatably connected with an eccentric rod hinge rod 1-5, the eccentric rod hinge rod 1-5 is rotatably connected with a rectangular slider 1-6, the rectangular slider 1-6 is slidably connected with a swing rod I1-7, an inner end clamping groove I1-19 is arranged on the swing rod I1-7, an inner end clamping rod I1-20 is matched and connected with an inner end clamping groove I1-19, the inner end clamping rod I1-20 is slidably connected with the rectangular slider 1-6, an inner end clamping rod push spring I1-21 is arranged between the two inner end clamping rods I1-20, the swing rod I1-7 is matched and connected with a U-shaped rod 1-8, the U-shaped rod I1-8 is fixedly connected with a rotating wheel I1-9, the rotating wheel I1-9 is fixedly connected with the fixed bottom plate 1-1, the eccentric rod II 1-10 is fixedly connected with the rotating wheel I1-9, the eccentric rod II 1-10 is hinged with the eccentric rod connecting rod 1-11, the eccentric rod connecting rod 1-11 is rotatably connected with the piston rod 1-12, the upper end piston 1-17 and the lower end piston 1-18 are fixedly connected with the piston rod 1-12, the upper end piston 1-17 is slidably connected with the rectangular sleeve 1-16, the lower end piston 1-18 is slidably connected with the liquid spraying sleeve 1-13, the spraying pipe 1-14 is fixedly connected and communicated with the liquid spraying sleeve 1-13, and the accommodating pipe 1-15 is fixedly connected and communicated with the rectangular sleeve 1-16.

The third concrete implementation mode:

the first embodiment is further described with reference to fig. 1-14, and the bearing assembly 2 includes a bearing outer frame 2-1, a bearing support 2-2, a bearing belt 2-3, a connecting belt 2-4, a roller I2-5, an inner end screw rod 2-6, an inner end sliding column 2-7, an inner end sliding column push spring 2-8, a roller II 2-9, an inner end screw groove rod 2-10, a screw groove 2-11, a matching sliding column 2-12, an inner end sleeve I2-13, a buffer sliding rod I2-14, a buffer sliding rod II 2-15, a buffer spring I2-16, a buffer spring II 2-17, an inner end sleeve II 2-18, an inner end sleeve III 2-19, a rectangular slider 2-20, a rectangular slider sliding rod 2-21, a rectangular slider 2-21, a slider 2-1, a slider II 2-9, A rectangular slider push spring 2-22, a bearing support 2-2 is fixedly connected with a bearing outer frame 2-1, a roller I2-5 is rotatably connected with the bearing support 2-2, a bearing belt 2-3 is in fit connection with the roller I2-5, the bearing belt 2-3 is in fit connection with the roller I2-5, a roller II 2-9 and an inner end sleeve I2-13, an inner end spiral rod 2-6 is rotatably connected with the roller I2-5, a fit sliding column 2-12 is fixedly connected with an inner end spiral rod 2-6, a fit sliding column 2-12 is in slide fit connection with a spiral groove 2-11, the spiral groove 2-11 is arranged on the inner end spiral groove rod 2-10, the inner end spiral groove rod 2-10 is rotatably connected with the roller II 2-9, an inner end sliding column 2-7 is fixedly connected with the roller I2-5, an inner end sliding column push spring 2-8 is connected with an inner end sliding column 2-7 in a sleeved mode, a roller II 2-9 is connected with the inner end sliding column 2-7 in a sliding mode, a buffering sliding rod I2-14 is hinged with an inner end sleeve I2-13, a buffering sliding rod II 2-15 is connected with a buffering sliding rod I2-14 in a sliding mode, a buffering spring I2-16 and a buffering spring II 2-17 are arranged between the buffering sliding rod II 2-15 and the buffering sliding rod I2-14, the buffering sliding rod II 2-15 is hinged with an inner end sleeve II 2-18, the inner end sleeve II 2-18 is connected with an inner end sleeve III 2-19 in a sliding fit mode, the inner end sleeve III 2-19 is connected with a rectangular sliding column 2-20 in a rotating mode, the rectangular sliding column 2-20 is connected with a rectangular sliding column sliding rod 2-21 in a sliding mode, the rectangular sliding rod 2-21 is, the rectangular slider push springs 2-22 are connected with the rectangular slider sliding rods 2-21 in a sleeved mode, the rectangular slider push springs 2-22 are arranged between the rectangular sliders 2-20 and the rectangular slider sliding rods 2-21, and the screw rods 2-6 at the inner ends are outside auxiliary rotating rods.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-14, and the embodiment further describes the first embodiment, where the driving assembly 3 includes a driving outer frame 3-1, a side wall slot 3-2, a middle end slide rod 3-3, a bearing slide plate 3-4, a rack rod 3-5, a striking rod 3-6, a striking rod push spring 3-7, an input motor 3-8, an input bevel gear 3-9, a transmission bevel gear 3-10, a transmission bevel gear two 3-11, a driving sleeve 3-12, a driving column 3-13, a middle end rotary rod 3-14, a push spring 3-15, a rectangular matching groove 3-16, a matching sleeve 3-17, a middle end transmission rotary rod 3-18, a driving straight gear 3-20, a bevel gear one 3-21, a bevel gear two 3-22, a prismatic clamping rod 3-23, Prismatic clamping rod push springs 3-24, side wall clamping grooves 3-2 are arranged on a driving outer frame 3-1, a middle end sliding rod 3-3 is connected with the driving outer frame 3-1 in a sliding manner, a bearing sliding plate 3-4 is connected with a middle end sliding rod 3-3 in a sliding manner, prismatic clamping rods 3-23 are connected with a middle end sliding rod 3-3 in a sliding manner, prismatic clamping rod push springs 3-24 are arranged between the prismatic clamping rods 3-23 and the middle end sliding rod 3-3, the prismatic clamping rods 3-23 are connected with the side wall clamping grooves 3-2 in a matching manner, rack rods 3-5 are fixedly connected with the middle end sliding rod 3-3, impact rods 3-6 are connected with the bearing sliding plate 3-4 in a sliding manner, impact rod push springs 3-7 are connected with the impact rods 3-6 in a sleeving manner, and impact rod push springs 3-7 are arranged between the impact rods 3-6 and the bearing sliding plate, an input motor 3-8 is fixedly connected with a bearing sliding plate 3-4, an input bevel gear 3-9 is fixedly connected with the input motor 3-8, the input bevel gear 3-9 is in meshing transmission with a transmission bevel gear 3-10 and a transmission bevel gear two 3-11, the transmission bevel gear one 3-10 and the transmission bevel gear two 3-11 are rotatably connected with the bearing sliding plate 3-4, a middle end transmission rotating rod 3-18 is rotatably connected with the transmission bevel gear one 3-10 and the transmission bevel gear two 3-11 in a matching way, a driving sleeve 3-12 is slidably connected with a driving column 3-13, a middle end rotating rod 3-14 is rotatably connected with the bearing sliding plate 3-4, the driving column 3-13 is connected with a middle end rotating rod 3-14 in a matching way, a push spring 3-15 is connected between the middle end rotating rod 3-14 and the bearing sliding plate 3-4, the rectangular matching grooves 3-16 are formed in the middle end rotating rods 3-14, the impact rods 3-6 are connected with the rectangular matching grooves 3-16 in a sliding matching mode, the driving straight teeth 3-20 are connected with the bearing sliding plates 3-4 in a rotating mode, the driving straight teeth 3-20 are fixedly connected with the bevel teeth I3-21, the bevel teeth I3-21 are in meshing transmission with the bevel teeth II 3-22, the bevel teeth II 3-22 are fixedly connected with the middle end transmission rotating rods 3-18, the driving straight teeth 3-20 are in meshing transmission with the rack rods 3-5, the fixed bottom plate 1-1 is fixedly connected with the bearing sliding plates 3-4, the driving outer frame 3-1 is fixedly connected with the bearing outer frame 2-1, and the belt I1-2 is connected with the output shaft of the input motor 3-8;

the driving sleeve 3-12 drives the matching sleeve 3-17 to be separated from the transmission bevel gear II 3-11, so that the driving sleeve 3-12 is in matching connection with the transmission bevel gear I3-10, the direction of rotation of the bevel gear II 3-22 is changed, the bearing sliding plate 3-4 is enabled to slide reversely along the middle end sliding rod 3-3 through the transmission relation, when the bearing sliding plate 3-4 slides reversely along the middle end sliding rod 3-3 and contacts with the boundary of the middle end sliding rod 3-3, the driving sleeve 3-12 drives the matching sleeve 3-17 to be in matching connection with the transmission bevel gear II 3-11 through the transmission relation, the driving sleeve 3-12 is further separated from the transmission bevel gear I3-10, and the bearing sliding plate 3-4 is enabled to slide reversely along the middle end sliding rod 3-3 again, thereby realizing the reciprocating spraying of the building material.

The invention relates to a spraying device for building materials, which has the working principle that: when in use, the coating is added into the accommodating pipes 1 to 15, and the belt I1 to 2 rotates to drive the middle end rotary column 1 to 3 to rotate, thereby driving the eccentric rod I1-4 to rotate and further driving the eccentric rod hinge rod 1-5 to move, then the swing rods 1-7 are driven to move by the rectangular sliders 1-6, and the U-shaped rods 1-8 are driven to move by the swing rods 1-7, the first rotating wheel 1-9 is driven to rotate by the U-shaped rod 1-8, and the second eccentric rod 1-10 is driven to move by the first rotating wheel 1-9, further drives the eccentric rod connecting rod 1-11 to move through the eccentric rod II 1-10, the eccentric rod connecting rod 1-11 drives the piston rod 1-12 to slide in a reciprocating manner along the vertical direction, and then drives the upper end piston 1-17 respectively; the lower end piston 1-18 is arranged in the rectangular sleeve 1-16; the liquid spraying sleeves 1-13 slide in a reciprocating manner, so that the accommodating pipes 1-15 enter the rectangular sleeves 1-16, flow into the liquid spraying sleeves 1-13 and are sprayed out through the spray pipes 1-14, and the building materials are sprayed; the spraying effect on the building materials can be adjusted according to actual conditions, the rectangular sliders 1-6 are slid along the first swing rods 1-7, the using positions of the rectangular sliders 1-6 in the first swing rods 1-7 are changed, the first swing rods 1-7 drive the U-shaped rods 1-8, the U-shaped rods 1-8 drive the first rotating wheels 1-9 to move, the rotating amplitude of the second eccentric rods 1-10 is changed through the first rotating wheels 1-9, the moving amplitude of the piston rods 1-12 is changed, the amount of the coating liquid sprayed out through the spray pipes 1-14 is changed, and the amount of the coating liquid sprayed out is adjusted; placing the building materials to be processed in the bearing belts 2-3, and manually rotating the auxiliary rotating rod to drive the inner end spiral rods 2-6 to rotate so as to be connected with the spiral grooves 2-11 through the matched sliding columns 2-12 on the inner end spiral rods 2-6 in a sliding fit manner, so that the use distance between the inner end spiral rods 2-6 and the inner end spiral groove rods 2-10 is changed, and the distance between the first roller 2-5 and the second roller 2-9 is changed, so that the specifications of the bearing belts 2-3 which can be adapted to the building materials to be processed in different specifications are changed, and the building materials to be processed in different specifications are adapted; starting an input motor 3-8, and driving a belt I1-2 to move through the input motor 3-8, and driving an input bevel gear 3-9 to rotate at the same time, and driving a transmission bevel gear I3-10 at the same time; the second transmission bevel gear 3-11 rotates simultaneously, the second transmission bevel gear 3-11 rotates to drive the middle transmission rotating rod 3-18 to rotate through the matching sleeve 3-17, further the second bevel gear 3-22 to rotate, further the first bevel gear 3-21 to rotate, further the driving straight gear 3-20 to move, simultaneously the bearing sliding plate 3-4 is driven to slide along the middle sliding rod 3-3 through the matching connection of the driving straight gear 3-20 and the rack rod 3-5, when the impact rod 3-6 is contacted with the boundary of the middle sliding rod 3-3, the driving column 3-13 is driven to move through the middle rotating rod 3-14, further the driving sleeve 3-12 is driven to move through the driving column 3-13, further the matching sleeve 3-17 is driven to be separated from the second transmission bevel gear 3-11 through the driving sleeve 3-12, and further enabling the driving sleeve 3-12 to be in matched connection with the first transmission bevel gear 3-10, further enabling the rotating direction of the second bevel gear 3-22 to change, further enabling the bearing sliding plate 3-4 to reversely slide along the middle-end sliding rod 3-3 at the same time through the transmission relation, and enabling the driving sleeve 3-12 to drive the matching sleeve 3-17 to be in matched connection with the second transmission bevel gear 3-11 through the transmission relation when the bearing sliding plate 3-4 reversely slides along the middle-end sliding rod 3-3 and contacts with the boundary of the middle-end sliding rod 3-3, further enabling the driving sleeve 3-12 to be separated from the first transmission bevel gear 3-10, further enabling the bearing sliding plate 3-4 to reversely slide along the middle-end sliding rod 3-3 again, and further achieving reciprocating spraying of the building materials.

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 (1)

1. The utility model provides a spraying equipment for building material, includes sprays assembly (1), bears assembly (2), drive assembly (3), its characterized in that: the spraying assembly (1) comprises a fixed bottom plate (1-1), a belt I (1-2), a middle-end rotating column (1-3), an eccentric rod I (1-4), an eccentric rod hinge rod (1-5), a rectangular slider (1-6), a swing rod I (1-7), a U-shaped rod (1-8), a rotating wheel I (1-9), an eccentric rod II (1-10), an eccentric rod connecting rod (1-11), a piston rod (1-12), a liquid spraying sleeve (1-13), a spraying pipe (1-14), an accommodating pipe (1-15), a rectangular sleeve (1-16), an upper-end piston (1-17), a lower-end piston (1-18), an inner-end clamping groove I (1-19), an inner-end clamping rod I (1-20) and an inner-end clamping rod push spring I (1-21), the middle-end rotary column (1-3) is rotatably connected with the fixed base plate (1-1), the belt I (1-2) is connected with the middle-end rotary column (1-3) in a matched mode, the eccentric rod I (1-4) is fixedly connected with the middle-end rotary column (1-3), the eccentric rod I (1-4) is rotatably connected with the eccentric rod hinge rod (1-5), the eccentric rod hinge rod (1-5) is rotatably connected with the rectangular slider (1-6), the rectangular slider (1-6) is slidably connected with the swing rod I (1-7), the inner end clamping groove I (1-19) is arranged on the swing rod I (1-7), the inner end clamping rod I (1-20) is connected with the inner end clamping groove I (1-19) in a matched mode, the inner end clamping rod I (1-20) is slidably connected with the rectangular slider (1-6), and the inner end clamping rod push spring I (1-21) is arranged between the inner ends of the two clamping rod I (1-20) The swing rod I (1-7) is connected with the U-shaped rod I (1-8) in a matching way, the U-shaped rod I (1-8) is fixedly connected with the rotating wheel I (1-9), the rotating wheel I (1-9) is fixedly connected with the fixed bottom plate (1-1), the eccentric rod II (1-10) is fixedly connected with the rotating wheel I (1-9), the eccentric rod II (1-10) is hinged with the eccentric rod connecting rod (1-11), the eccentric rod connecting rod (1-11) is rotationally connected with the piston rod (1-12), the upper end piston (1-17) and the lower end piston (1-18) are fixedly connected with the piston rod (1-12), the upper end piston (1-17) is slidably connected with the rectangular sleeve (1-16), and the lower end piston (1-18) is slidably connected with the liquid spraying sleeve (1-13), the spray pipes (1-14) are fixedly connected and communicated with the liquid spray sleeves (1-13), and the accommodating pipes (1-15) are fixedly connected and communicated with the rectangular sleeves (1-16);

the bearing assembly (2) comprises a bearing outer frame (2-1), a bearing support (2-2), a bearing belt (2-3), a connecting belt (2-4), a roller I (2-5), an inner end spiral rod (2-6), an inner end sliding column (2-7), an inner end sliding column push spring (2-8), a roller II (2-9), an inner end spiral groove rod (2-10), a spiral groove (2-11), a matching sliding column (2-12), an inner end sleeve I (2-13), a buffering sliding rod I (2-14), a buffering sliding rod II (2-15), a buffering spring I (2-16), a buffering spring II (2-17), an inner end sleeve II (2-18), an inner end sleeve III (2-19), a rectangular sliding rod (2-20), A rectangular slider sliding rod (2-21) and a rectangular slider push spring (2-22), a bearing support (2-2) is fixedly connected with a bearing outer frame (2-1), a roller I (2-5) is rotatably connected with the bearing support (2-2), a bearing belt (2-3) is in fit connection with the roller I (2-5), the bearing belt (2-3) is in fit connection with the roller I (2-5), a roller II (2-9) and an inner end sleeve I (2-13), an inner end spiral rod (2-6) is rotatably connected with the roller I (2-5), a fit sliding column (2-12) is fixedly connected with an inner end spiral rod (2-6), a fit sliding column (2-12) is in slide fit connection with a spiral groove (2-11), the spiral groove (2-11) is arranged on the inner end spiral groove rod (2-10), an inner end spiral grooved rod (2-10) is rotatably connected with a second roller (2-9), an inner end sliding column (2-7) is fixedly connected with a first roller (2-5), an inner end sliding column push spring (2-8) is connected with the inner end sliding column (2-7) in a sleeved mode, a second roller (2-9) is connected with the inner end sliding column (2-7) in a sliding mode, a first buffer sliding rod (2-14) is hinged with a first inner end sleeve (2-13), a second buffer sliding rod (2-15) is connected with a first buffer sliding rod (2-14) in a sliding mode, a first buffer spring (2-16) and a second buffer spring (2-17) are arranged between the second buffer sliding rod (2-15) and the first buffer sliding rod (2-14), and the second buffer sliding rod (2-15) is hinged with a second inner end sleeve (2-18), the inner end sleeve II (2-18) is connected with the inner end sleeve III (2-19) in a sliding fit manner, the inner end sleeve III (2-19) is rotatably connected with the rectangular slider (2-20), the rectangular slider (2-20) is connected with the rectangular slider sliding rod (2-21) in a sliding manner, the rectangular slider sliding rod (2-21) is fixedly connected with the bearing outer frame (2-1), the rectangular slider push spring (2-22) is connected with the rectangular slider sliding rod (2-21) in a sleeved manner, the rectangular slider push spring (2-22) is arranged between the rectangular slider (2-20) and the rectangular slider sliding rod (2-21), and the inner end screw rod (2-6) is externally connected with an auxiliary rotating rod;

the driving assembly (3) comprises a driving outer frame (3-1), a side wall clamping groove (3-2), a middle-end sliding rod (3-3), a bearing sliding plate (3-4), a rack rod (3-5), a striking rod (3-6), a striking rod push spring (3-7), an input motor (3-8), input bevel teeth (3-9), a transmission bevel tooth I (3-10), a transmission bevel tooth II (3-11), a driving sleeve (3-12), a driving column (3-13), a middle-end rotating rod (3-14), a push spring (3-15), a rectangular matching groove (3-16), a matching sleeve (3-17), a middle-end driving rotating rod (3-18), a driving straight tooth (3-20), a bevel tooth I (3-21), a bevel tooth II (3-22), Prismatic clamping rods (3-23) and prismatic clamping rod push springs (3-24), wherein side wall clamping grooves (3-2) are arranged on a driving outer frame (3-1), a middle-end sliding rod (3-3) is connected with the driving outer frame (3-1) in a sliding manner, a bearing sliding plate (3-4) is connected with the middle-end sliding rod (3-3) in a sliding manner, the prismatic clamping rods (3-23) are connected with the middle-end sliding rod (3-3) in a sliding manner, the prismatic clamping rods (3-24) are arranged between the prismatic clamping rods (3-23) and the middle-end sliding rod (3-3), the prismatic clamping rods (3-23) are connected with the side wall clamping grooves (3-2) in a matching manner, rack rods (3-5) are fixedly connected with the middle-end sliding rod (3-3), and impact rods (3-6) are connected with the bearing sliding plate (3-4) in a sliding manner, the impact rod push spring (3-7) is connected with the impact rod (3-6) in a sleeved mode, the impact rod push spring (3-7) is arranged between the impact rod (3-6) and the bearing sliding plate (3-4), the input motor (3-8) is fixedly connected with the bearing sliding plate (3-4), the input bevel gear (3-9) is fixedly connected with the input motor (3-8), the input bevel gear (3-9) is in meshed transmission with the transmission bevel gear I (3-10) and the transmission bevel gear II (3-11), the transmission bevel gear I (3-10) and the transmission bevel gear II (3-11) are in rotating connection with the bearing sliding plate (3-4), the middle end transmission rotating rod (3-18) is in rotating fit connection with the transmission bevel gear I (3-10) and the transmission bevel gear II (3-11), the driving sleeve (3-12) is in sliding connection with the driving column (3-13), the middle end rotating rod (3-14) is rotatably connected with the bearing sliding plate (3-4), the driving column (3-13) is connected with the middle end rotating rod (3-14) in a matching way, the push spring (3-15) is connected between the middle end rotating rod (3-14) and the bearing sliding plate (3-4), the rectangular matching groove (3-16) is arranged on the middle end rotating rod (3-14), the impact rod (3-6) is connected with the rectangular matching groove (3-16) in a sliding matching way, the driving straight tooth (3-20) is rotatably connected with the bearing sliding plate (3-4), the driving straight tooth (3-20) is fixedly connected with the first conical tooth (3-21), the first conical tooth (3-21) is in meshing transmission with the second conical tooth (3-22), and the second conical tooth (3-22) is fixedly connected with the middle end transmission rotating rod (3-18), the driving straight teeth (3-20) are in meshed transmission with the rack rods (3-5), the fixed base plate (1-1) is fixedly connected with the bearing sliding plate (3-4), the driving outer frame (3-1) is fixedly connected with the bearing outer frame (2-1), and the belt I (1-2) is connected with an output shaft of the input motor (3-8);

the spraying assembly (1) is connected with the driving assembly (3), and the bearing assembly (2) is connected with the driving assembly (3).

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