CN112897023A - Clean baling press of building templates - Google Patents

Abstract

The invention discloses a building template cleaning and packaging machine, which comprises an automatic cleaning mechanism and an automatic packaging mechanism, wherein a row of first conveying rollers are arranged on one side of a cleaning machine body to rotate, a row of second conveying rollers are arranged on the other side of the cleaning machine body to rotate, rotating rollers rotate between the first conveying rollers and the second conveying rollers, a supporting slideway is connected with one end of a bottom conveying module, a rotating first conveying belt is arranged on the bottom conveying module, a rotating second conveying belt is arranged on the top conveying module, the top conveying module ascends and descends and slides on the bottom conveying module, the packaging mechanism is connected with the end part of the bottom conveying module, a building template can be cleaned after the rotating rollers rotate, and meanwhile, the building template can be packaged by the packaging mechanism, the processing efficiency of the building template is greatly improved.

Description

Clean baling press of building templates

Technical Field

The invention relates to a building template machine, in particular to a building template cleaning and packaging machine, and particularly relates to a building template cleaning and packaging machine which can automatically clean and package cement on a building template.

Background

The continuous development of construction machinery is further promoted along with the continuous development of city construction, wherein in the construction process of the existing building body, a building template is one of indispensable construction facilities, so that cement can be shaped by using the building template, the building template is shaped after the cement is solidified, the construction of the building body is completed, the cement body shaped by the building template needs to be taken down after the cement is shaped, the building template can be repeatedly used, a large number of cement blocks can be solidified on the building template after the cement blocks are solidified on the building template, the cement on the building template needs to be cleaned because the cement blocks can not be reused after being solidified on the building template, the cement blocks on the building template need to be cleaned because the number of the building template is large and the cleaning of the cement blocks after the cement blocks are solidified on the building template is troublesome, and in the cleaning process of the cement blocks on the building template, the large cement blocks on the template are mostly cleaned manually, the cleaning efficiency of the cement blocks on the building template is extremely low due to manual cleaning, and only the large cement blocks can be cleaned in the process of cleaning the cement blocks, so that the cleaning effect and the low problem are caused;

meanwhile, after the building templates are cleaned, the building templates can only be simply stacked together and cannot be stacked together in order, and the building templates need to be carried one by one in the process of loading and transporting, so that the problem of extremely low carrying efficiency is caused.

Therefore, there is a need to design a building template cleaning and packaging machine to solve the above technical problems.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a building template cleaning and packaging machine, which can drive the rotation of vibration shafts through the rotation of rotating rollers arranged on a cleaning machine body, can convey a building template through the rotation of a first conveying roller and a second conveying roller, can clamp the building template between the two vibration shafts after the rotation of the vibration shafts, is provided with a vibration block which can slide in a telescopic manner on the vibration shafts, and can knock the building template after the quick sliding of the vibration block, thereby cleaning cement on the building template, avoiding the trouble caused by manual cleaning, and simultaneously can stack and package the building template through a packaging mechanism, thereby facilitating the loading and unloading transportation in the later period, and greatly improving the transportation efficiency of the building template.

(II) technical scheme

The invention is realized by the following technical scheme:

a building template cleaning and packaging machine comprises an automatic cleaning mechanism and an automatic packaging mechanism;

the automatic cleaning mechanism comprises a cleaning machine body, a first conveying roller, a second conveying roller, a rotating roller, a vibration shaft and a control ceiling;

the first conveying roller is provided with a row of conveying rollers which rotate at one side of the cleaning machine body, the second conveying roller is provided with a row of conveying rollers which rotate at the other side of the cleaning machine body, and the rotating rollers rotate between the first conveying roller and the second conveying roller;

the cleaning machine is characterized in that the rotating roller is provided with a plurality of swinging grooves, two first threaded rods are respectively arranged in the swinging grooves, a plurality of sliding swinging sliding blocks are respectively arranged on the first threaded rods, first threaded holes correspondingly engaged and connected with the first threaded rods are respectively arranged on the swinging sliding blocks, the thread directions of the first threaded rods are correspondingly arranged, the vibrating shafts are respectively and fixedly connected to the swinging sliding blocks, two driving rotating shafts are respectively arranged in the swinging grooves, the swinging sliding blocks respectively slide on the driving rotating shafts, a row of vibrating blocks capable of sliding in a telescopic manner are respectively arranged on the inner sides of the vibrating shafts, the driving rotating shafts are rotated to drive the vibrating blocks to slide, one side of the cleaning machine body is provided with a control sliding block capable of sliding up and down, and after the rotating roller rotates, the opening direction of the swinging grooves is in a vertical state, the control slide block slides and drives the driving rotating shaft to rotate;

the control ceiling is arranged at the top of the rotating roller, two sides of the control ceiling are respectively provided with a swinging extrusion rod, and the extrusion rods synchronously swing to push the vibration shaft to swing;

the automatic packing mechanism comprises a supporting slideway, a bottom conveying module, a top conveying module, a packing mechanism and a sliding machine body;

the supporting slide way is arranged in an inclined state and connected to one end of the bottom conveying module, a rotating first conveying belt is arranged on the bottom conveying module, a rotating second conveying belt is arranged on the top conveying module, the top conveying module ascends and descends to slide on the bottom conveying module, the packing mechanism is connected to the end portion of the bottom conveying module, the sliding machine body rotates on the packing mechanism, a packing turntable is arranged on the packing mechanism, and a jacking plate capable of sliding in a telescopic mode is further arranged on the supporting slide way;

the end part of the supporting slide way is connected to the cleaning machine body and corresponds to the second conveying roller.

Preferably, a first conveying groove is formed in one side of the cleaning machine body, the first conveying rollers rotate in the first conveying groove side by side, first chain wheels which rotate in the cleaning machine body are respectively arranged at the end parts of the first conveying rollers, the first chain wheels which are arranged side by side are connected in series through first chains, and a first motor which drives the first conveying rollers to rotate is arranged in the cleaning machine body;

the cleaning machine is characterized in that a second conveying groove is formed in the other side of the cleaning machine body, the second conveying rollers are arranged in parallel and rotate in the second conveying groove, second chain wheels rotating in the cleaning machine body are respectively arranged at the end portions of the second conveying rollers, the second chain wheels arranged side by side are connected in series through a second chain, and a sixth motor driving the second conveying rollers to rotate is arranged in the cleaning machine body.

Preferably, the cleaning machine body is provided with a first rotary groove for supporting the rotary roller to rotate, the two swing sliders are in a group, each group of swing sliders is correspondingly connected with each other in a pressing manner through a pressing sheet, the swing sliders are arranged on the first threaded rod at equal intervals, the outer sides of the swing sliders are respectively provided with a first sliding shaft, the outer sides of the swing grooves respectively comprise first sliding grooves formed in the rotary roller, the first sliding shafts respectively slide in the first sliding grooves, the end parts of the first threaded rod are respectively provided with a first gear, the first gears at the end parts of the first threaded rod arranged in the swing grooves are respectively correspondingly meshed with each other, and the rotary roller is provided with a second motor for driving the first threaded rod to rotate;

the cleaning machine body is provided with a supporting rotating hole for supporting the rotating roller to rotate, one side of the rotating roller is provided with a plurality of conductive sliding sheets, the conductive sliding sheets respectively supply power to the second motor, the cleaning machine body is provided with sliding sheet sliding grooves for supporting the conductive sliding sheets to slide, butt-joint conductive heads are arranged in the conductive sliding sheets and are arranged at vertical positions, and the butt-joint conductive heads are correspondingly butted with the conductive sliding sheets.

Preferably, two ends of the driving rotating wheel are respectively provided with a first sliding block, the driving rotating wheel respectively rotates on the first sliding block, the cleaning machine body is provided with a first sliding chute for supporting the first sliding block to slide, the first sliding chutes are respectively arranged in an arc shape, the end parts of the driving rotating shaft are respectively provided with a meshing chain wheel, the cleaning machine body is provided with a sliding block sliding chute for supporting the control sliding block to slide, the sliding block sliding chute is internally provided with a first spring for elastically pressing the control sliding block to slide, the sliding block sliding chute is internally provided with a first jacking cam driven by a fourth motor, the first jacking cam is jacked on the control sliding block to rotate, the control sliding block is arranged in an arc shape, two ends of the control sliding block are respectively provided with a rotating first chain wheel, the top of the control sliding block is provided with a plurality of self-rotating supporting chain wheels, a first chain is arranged on the first chain wheel and the supporting chain wheel, the first chain is arranged in an arc shape, the first chain is meshed and connected with the meshed chain wheel after the control sliding block slides upwards, and a fifth motor for driving the first chain wheel to rotate is arranged in the control sliding block;

the cleaning machine is characterized in that a rotating fluted disc is arranged on the rotating roller, a second gear driven by a third motor is arranged in the cleaning machine body, and the second gear is correspondingly meshed with the rotating gear.

Preferably, the driving rotating shaft is arranged in a square shape, the end part of the vibration block is respectively provided with a jacking head which slides in the vibration shaft, the vibration shaft is internally provided with a second spring which can push the jacking head to slide, the vibration shaft is internally provided with a first rotating shaft which rotates, the first rotating shaft is provided with a second jacking cam which can push the jacking head to slide, the end part of the first rotating shaft is respectively provided with a second bevel gear, the swinging sliding block is internally provided with a first bevel gear which is connected with the second bevel gear in a corresponding meshing manner, the first bevel gear is respectively provided with a supporting sliding hole which is arranged in a square shape, and the driving rotating shaft penetrates through the supporting sliding hole.

Preferably, the control ceiling is arranged in an arc shape, a plurality of ceiling openings are formed in the top of the control ceiling, a second rotating shaft is respectively arranged in each ceiling opening, two first pressing rods which rotate in a crossed manner are respectively arranged on the fourth rotating shaft, two pressing rods are arranged, the pressing rods are respectively connected to the first pressing rods on the two sides, a second rotating pressing rod is respectively arranged on each first pressing rod, the end parts of the second pressing rods are respectively and rotatably connected together, a pressing air bag is respectively arranged between each first pressing rod and each second pressing rod, the pressing air bags press the first pressing rods and the second pressing rods after being inflated, a pressing module covering the second pressing rods is arranged at the top of the control ceiling, a plurality of pressing sliding blocks which are pressed by third springs are arranged in the pressing module, the pressing sliding blocks respectively press the second pressing rods, and a connecting air pipe for inflating and exhausting the jacking air bag is arranged in the jacking module, and the vibration shaft is pressed to swing after the extrusion rod swings.

Preferably, the supporting slideway is inclined, a telescopic sliding shaft is arranged on the supporting slideway, a top pressing plate is arranged at the end of the telescopic shaft, a third gear driven by a motor is arranged in the supporting slideway, and a tooth groove which is correspondingly engaged and connected with the third gear is arranged on the telescopic shaft.

Preferably, a fifth rotating shaft is arranged at each of two ends of the bottom conveying module, a first belt pulley is arranged on each fifth rotating shaft, the first conveying belts are tensioned on the two first belt pulleys, a second chain wheel is arranged on each first fifth rotating shaft, the two second chain wheels are correspondingly connected through a second chain, and a seventh motor for driving the fifth rotating shaft to rotate is arranged in the bottom conveying module.

Preferably, two ends of the top conveying module are respectively provided with a rotating fourth rotating shaft, the fourth rotating shafts are respectively provided with a second belt pulley, the second conveying belt is tensioned between the two second belt pulleys, the fourth rotating shafts are respectively provided with a first chain wheel, a first chain is arranged between the two first chain wheels, the top conveying module is internally provided with an eighth motor for driving the fourth rotating shafts to rotate, the bottom conveying module is provided with a plurality of supporting shafts, the top conveying module is provided with a plurality of supporting slide holes corresponding to the supporting shafts, the supporting shafts are respectively arranged in the supporting slide holes, the top conveying module is internally provided with a third rotating shaft driven by a motor, the third rotating shaft is provided with a plurality of fourth gears, and the supporting shafts are respectively provided with tooth grooves correspondingly engaged and connected with the fourth gears, the rotation directions of the first conveying belt and the second conveying belt are opposite.

Preferably, be provided with a second spout in the packing mechanism, the second spout is circular setting, be provided with a support slide that is circular setting in the second spout, be provided with two pivoted meshing gears on the slip organism, two meshing gears compress tightly to be connected support the slide on, be provided with the drive in the slip organism meshing gear 204 pivoted ninth motor, be provided with a drive in the slip organism packing carousel pivoted tenth motor, be provided with the stay cord on the packing carousel.

(III) advantageous effects

The invention provides a building template cleaning and packaging machine, which has the following beneficial effects:

a first conveying roller which rotates is arranged on the cleaning machine body, the building template can be conveyed through the rotation of the first conveying roller, a rotating roller is arranged on the cleaning machine body, a swinging slide block of a picture is arranged on the rotating roller, the oscillating slide blocks are respectively provided with an oscillating shaft, the oscillating shafts are respectively provided with oscillating blocks which can slide in a telescopic way, the rotation of the rotating roller can drive the vibration shaft to rotate, the building template can slide to the vibration shaft after the rotation of the vibration shaft, the vibration shaft can be pressed on the building template by controlling the swing of the extrusion rod arranged on the ceiling, the cement blocks on the building template can be cleaned after the vibration blocks slide, so that the cleaning efficiency of the building template is greatly improved, the trouble caused by manual cleaning is avoided, and meanwhile, the cleaning effect of the building template is greatly improved;

building templates after finishing the clearance is through supporting on the automatic bottom transport module that slides of slide, be provided with a gliding top transport module that goes up and down on the transport module of bottom, can press from both sides tight building templates after the downward slip of module is carried through the top, thereby can press from both sides tight back with building templates, the slip of rotation drive building templates through first conveyor belt and second conveyor belt, after building templates slides the position of baling mechanism, can be rotatory around building templates through the packing carousel, be provided with the rope of packing on the packing carousel, and then can twine the rope of packing on building templates, thereby pack building templates, avoid the manual work to carry the trouble that building templates caused one by one, great improvement is to building templates conveying efficiency.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the building template cleaning and packaging machine according to the embodiment of the invention.

FIG. 2 is a schematic view of the overall structure of the packing mechanism according to the embodiment of the present invention.

FIG. 3 is a schematic view of the overall structure of the cleaning machine body according to the embodiment of the invention.

Fig. 4 is a schematic view of the overall structure of the oscillating slider according to the embodiment of the present invention.

FIG. 5 is a schematic view of the overall structure of a rotating roller according to an embodiment of the present invention.

Fig. 6 is a schematic view of the overall structure of the oscillating slider according to the embodiment of the present invention.

FIG. 7 is a schematic view of an overall structure of a control slider according to an embodiment of the present invention.

FIG. 8 is a side view of the overall structure of the control slider according to the embodiment of the present invention.

FIG. 9 is a schematic view of an overall structure of a conductive slider according to an embodiment of the present invention.

In the figure: 1 cleaning a machine body, 1001 first rotary groove, 1002 supporting rotary holes and 1003 sliding block sliding grooves;

11 a first conveying groove, 1101 a first conveying roller, 1102 a first chain wheel, 1103 a first chain and 1104 a first motor;

12 rotating rollers, 1201 vibrating shafts, 1202 swinging grooves, 1203 swinging sliders, 1204 first sliding grooves, 1205 first sliding shafts, 1206 first threaded rods, 1207 first threaded holes, 1208 driving rotating shafts, 1209 elastic sheets, 1210 first gears, 1211 second motors, 1212 first sliders, 1213 first sliding grooves, 1214 engaging sprockets, 1215 rotating toothed discs, 1216 second gears, 1217 third motors, 1218 control sliders, 1219 first springs, 1220 fourth motors, 1221 first jacking cams, 1222 fifth motors, 1223 first sprockets, 1224 first chains, 1225 supporting sprockets, 1226 vibrating blocks, 1227 first bevel gears, 1228 supporting sliding holes, 1229 second bevel gears, 1230 first supporting cavities, 1231 first rotating shafts, 1232 second jacking cams, 1233 jacking heads, 1234 second springs, 1235 conductive sliding sheets, 1236 sliding grooves, 1237 butting conductive heads;

13 a second conveying groove, 1301 a second conveying roller, 1302 a second chain wheel, 1303 a second chain and 1304 a sixth motor;

14, a control ceiling, 1401 ceiling openings, 1402 second rotating shafts, 1403 extrusion rods, 1404 first pressing rods, 1405 second pressing rods, 1406 pressing modules, 1407 third springs, 1408 pressing sliders, 1409 pressing air bags and 1410 connecting air pipes;

2, supporting slide ways, 2001 telescopic shafts, 2002 top pressure plates and 2003 third gears;

21 a bottom conveyor module, 2101 a first conveyor belt, 2102 a seventh motor, 2103 a first pulley, 2104 a telescopic shaft, 2105 a top conveyor module, 2106 a fourth gear, 2107 a third rotating shaft, 2108 a support slide hole, 2109 an eighth motor, 2110 a second conveyor belt, 2111 a second pulley, 2112 a fourth rotating shaft, 2113 a first chain, 2114 a first chain wheel, 2115 a fifth rotating shaft, 2116 a second chain wheel, 2117 a second chain;

22 packing mechanism, 2201 second chute, 2202 supporting slide way, 2203 sliding body, 2204 meshing gear, 2205 ninth motor, 2206 packing turntable and 2207 tenth motor.

Detailed Description

As shown in fig. 1 to 9, a building template cleaning and packaging machine comprises an automatic cleaning mechanism and an automatic packaging mechanism;

the automatic cleaning mechanism comprises a cleaning machine body 1, a first conveying roller 1101, a second conveying roller 1301, a rotating roller 12, a vibration shaft 1201 and a control ceiling 14;

the first conveying roller 1101 is provided with a row to rotate on one side of the cleaning body 1, the second conveying roller 1301 is provided with a row to rotate on the other side of the cleaning body 1, and the rotating roller 12 rotates between the first conveying roller 1101 and the second conveying roller 1301.

In-process of clearance building templates can throw building templates onto first conveying roller 1101, can drive building module's slip after the rotation through first conveying roller 1101, is provided with pivoted second conveying roller 1301 on clearance organism 1, can drive building module's slip through the rotation of second conveying roller 1301.

A plurality of swing grooves 1202 are formed in the rotating roller 12, two first threaded rods 1206 are respectively arranged in the swing grooves 1202, a plurality of sliding swing sliders 1203 are respectively arranged on the first threaded rods 1206, first threaded holes 1207 correspondingly engaged with the first threaded rods 1206 are respectively arranged on the swing sliders 1203, the thread directions of the first threaded rods 1206 are correspondingly arranged, the vibration shafts 1201 are respectively and fixedly connected to the swing sliders 1203, two driving rotating shafts 1208 are respectively arranged in the swing grooves 1202, the swing sliders 1203 slide on the driving rotating shafts 1208 respectively, a row of vibration blocks 1226 sliding in a telescopic manner are respectively arranged on the inner sides of the vibration shafts 1201, the rotation of the driving rotating shafts 1208 drives the vibration blocks 1226 to slide, a control slider sliding up and down is arranged on one side of the cleaning machine body 1218 1, and after the rotating roller 12 rotates, when the opening direction of the swing groove 1202 is in a vertical state, the control slider 1218 slides, and the control slider 1218 drives the driving rotation shaft 1208 to rotate.

The cleaning machine body 1 is provided with a rotating roller 12, the rotating roller 12 rotates between a first conveying roller 1101 and a second conveying roller 1301, a swing groove 1202 is arranged on the rotating roller 12, the swing groove 1202 is of a groove structure, the rotating roller 12 is provided with 4 swing grooves 1202, 2 rotating first threaded rods 1206 are respectively arranged in the swing grooves 1202, a plurality of swing sliders 1203 are arranged on the first threaded rods 1206, the number of the swing sliders 1203 is set according to design requirements, first threaded holes 1207 are respectively arranged on the swing sliders 1203, the swing sliders 1203 are connected to the first threaded rods 1206 in a meshed mode through the first threaded holes 1207, the swing sliders 1203 can slide through rotation of the first threaded rods 1206, the swing sliders 12203 are provided with a plurality of swing sliders 12203, the number of the swing sliders 1203 is set according to design requirements, the thread directions of a first threaded rod 1206 arranged in a swing groove 1202 are opposite, two driving rotating shafts 1208 are respectively arranged in the swing groove 1202, the driving rotating shafts 1208 are respectively arranged in a square shape, a swing slider 1203 respectively slides on the driving rotating shafts 1208, a vibration shaft 1201 is respectively arranged on the swing slider 1203, a row of vibration blocks 1226 capable of sliding in a telescopic manner are respectively arranged on the inner sides of the vibration shafts 1201, the vibration blocks 1226 can be driven to slide in a telescopic manner through the rotation of the driving rotating shafts 1208, a control slider 1218 capable of sliding up and down is arranged on one side of a cleaning machine body 1, the rotation of the driving rotating shafts 1208 can be controlled through the sliding of the control slider 1218, when a rotating roller 12 rotates, after the opening direction of the swing groove 1202 faces upwards, a building template on a first conveying roller 1101 can be clamped on the vibration shaft through the rotation of the vibration shaft 1201, and the rotation of the building template can be driven through the rotation of the rotating roller 12, after the opening square of swing groove 1202 up, can make building templates be in the vertically state, and then pass through control slider 1218 the back that slides from top to bottom can pass through control slider 1218 control drive pivot 1208 rotate, and then can control vibrations piece 1226's flexible slip can be right after the flexible slip through vibrations piece 1226, can strike on building templates through vibrations piece 1226 to can clear up the cement piece on the building templates, great improvement the cleaning efficiency of cement piece, avoid the trouble that artifical clearance caused, the further quality of clearing up has been improved simultaneously.

The control ceiling 14 is arranged on the top of the rotating roller 12, two sides of the control ceiling 14 are respectively provided with a swinging extrusion rod 1403, and the extrusion rods 1403 synchronously swing to press the vibration shaft 1201 to swing.

When the rotating roller 12 rotates, after the building module rotates to the position of the control ceiling 14, the two sides of the control ceiling 14 are respectively provided with a swinging extrusion rod 1403, the vibration shaft 1206 can be compressed through the swinging of the extrusion rod 1403, so that the two vibration shafts 1206 can be compressed on the building template, the cleaning efficiency of the building template is greatly improved through the sliding of the vibration blocks 1226, the vibration shafts 1206 are provided with rows, and each two rows are a group.

The automatic packing mechanism comprises a supporting slideway 2, a bottom conveying module 21, a top conveying module 2105, a packing mechanism 22 and a sliding machine body 2203;

the supporting slide way 2 is arranged in an inclined state, the supporting slide way 2 is connected to one end of a bottom conveying module 21, a first rotating conveying belt 2101 is arranged on the bottom conveying module 21, a second rotating conveying belt 2110 is arranged on a top conveying module 2105, the top conveying module 2105 ascends, descends and slides on the bottom conveying module 21, the packing mechanism 22 is connected to the end of the bottom conveying module 21, the sliding machine body 2203 rotates on the packing mechanism 22, a packing turntable 2206 is arranged on the packing mechanism 22, and a top pressure plate 2002 capable of sliding in a telescopic mode is further arranged on the supporting slide way 2;

the end of the supporting slideway 2 is connected to the cleaning machine body 1 and corresponds to the second conveying roller 1301.

After the building module is cleaned, the building module is conveyed to the bottom conveying module 21 through the supporting slide way 2, the rotating first conveying belt 2101 is arranged on the bottom conveying module 21, the building template can be conveyed to the first conveying belt 2101, the supporting slide way 2 is provided with the jacking plate 2002 capable of sliding in a telescopic mode, the building module can be jacked to slide after sliding in a telescopic mode through the jacking plate 2002, the building module can be overlapped on the first conveying belt 2101, the bottom conveying module 21 is provided with the top conveying module 2105, the second conveying belt 2110 can be tightly pressed on the building module after the top conveying module 2105 is lifted up and down, the building module can be driven to slide after the first conveying belt 2101 and the second conveying belt 2110 rotate, the building module can rotate around the building template through the packing turntable 2206 after sliding on the packing mechanism 22, can twine the rope of packing on building templates through packing carousel 2206, and then can pack building templates, thereby realize automatic packing, the transportation of being convenient for, avoid the manual work to carry the trouble that building templates caused one by one, can carry building templates on second conveying roller 1301 after the rotation through first vibrations axle 1206, can carry building templates on supporting slide 2 through the rotation of second conveying roller 1301, and then can realize automatic transport, great improvement is to building templates's cleaning efficiency.

As shown in fig. 1 and 3, a first conveying groove 11 is formed in one side of the cleaning machine body 1, the first conveying rollers 1101 rotate side by side in the first conveying groove 11, first chain wheels 1102 rotating in the cleaning machine body 1 are respectively arranged at ends of the first conveying rollers 1101, the first chain wheels 1102 arranged side by side are connected in series through a first chain 1103, and a first motor 1104 driving the first conveying rollers 1101 to rotate is arranged in the cleaning machine body 1;

a second conveying groove 13 is formed in the other side of the cleaning machine body 1, the second conveying rollers 1301 are arranged in parallel in the second conveying groove 13 and rotate, second chain wheels 1302 which rotate in the cleaning machine body 1 are respectively arranged at the end portions of the second conveying rollers 1301, the second chain wheels 1302 which are arranged side by side are connected in series through a second chain 1303, and a sixth motor 1304 which drives the second conveying rollers 1301 to rotate is arranged in the cleaning machine body 1.

The number of the first conveying rollers 1101 is set according to design requirements, a first chain wheel 1102 is arranged at each end of each first conveying roller 1101, the first chain wheels 1102 are connected in series through a first chain 1103, the first conveying rollers 1101 are driven to rotate by a first motor 1104, the first conveying rollers 1101 can further synchronously rotate, the second chain wheels 1302 can be connected in series through a second chain 1303, the second conveying rollers 1301 can further be connected in series and synchronously rotate, the second conveying rollers 1301 are driven to rotate by a sixth motor 1304, and accordingly the building templates can be driven to slide after the first conveying rollers 1101 and the second conveying rollers 1301 rotate.

As shown in fig. 1, 3 and 4, the cleaning machine body is provided with a first rotating groove 1001 for supporting the rotating roller 12 to rotate, the swing sliders 1203 are grouped into two, each group of the swing sliders 1203 is correspondingly connected with each other in a spring way through a spring piece 1209, the oscillating sliders 1203 are arranged on the first threaded bar 1206 at equal intervals, a first slide shaft 1205 is respectively arranged on the outer sides of the swing sliding blocks 1203, a first slide groove 1204 arranged on the rotating roller 12 is respectively arranged on the outer sides of the swing grooves 1202, the first sliding shafts 1205 respectively slide in the first sliding slots 1204, the ends of the first threaded rods 1206 are respectively provided with a first gear 1210, the first gears 1201 at the ends of the first threaded rods 1206 arranged in the swinging grooves 1202 are respectively in corresponding meshed connection, the rotating roller 12 is provided with a second motor 1211 for driving the first threaded rod 1206 to rotate;

the cleaning machine body 1 is provided with a supporting rotary hole 1002 for supporting the rotary roller 12 to rotate, one side of the rotary roller 12 is provided with a plurality of conductive sliding pieces 1235, the conductive sliding pieces 1235 respectively supply power to the second motor 1211, the cleaning machine body 1 is provided with a sliding piece sliding groove 1236 for supporting the conductive sliding pieces 1235 to slide, a butt-joint conductive head 1237 is arranged in the conductive sliding piece 1235, the butt-joint conductive head 1237 is arranged at a vertical position, and the butt-joint conductive head 1237 is correspondingly butt-jointed with the conductive sliding pieces 1235.

A first rotating groove 1001 is arranged on a cleaning machine body 1, a rotating roller 12 rotates in the first rotating groove 1001, two swinging sliders 1203 are arranged in one group, each group of swinging sliders 1203 are respectively arranged in the swinging groove 1202 to swing, each group of swinging sliders 1203 are respectively connected together through an elastic sheet 1209, the swinging sliders 1203 in each group are arranged on a first threaded rod 1206 at equal intervals, the first threaded rod 1206 rotates to drive the swinging sliders 1203 to synchronously slide, the rotating direction of the first threaded rod 1206 is used for adjusting the sliding direction of the swinging sliders 1203, a first sliding shaft 1205 is respectively arranged on the outer sides of the swinging sliders 1203, the first sliding shafts 1205 respectively slide in the first sliding grooves 1204, the sliding of the swinging sliders 1203 is supported through the first sliding shafts 1205 to enable the swinging sliders 1203 to normally slide, a first gear 1210 is respectively arranged at the end part of the first threaded rod 1206, the two first gears 1210 are correspondingly engaged and connected, so that the two first threaded rods 1206 can synchronously rotate, the sliding of the swing sliding blocks 1203 can be controlled, after the two swing sliding blocks 1203 are pressed through the pressing sheets 1209, the vibration shaft 1201 can be in an open state, the first threaded rods 1206 are driven to rotate through the second motor 1211, a supporting rotating hole 1002 for supporting the rotation of the rotating roller 12 is arranged on the cleaning machine body 1, the rotation of the rotating roller 12 is supported through the supporting rotating hole 1002, a plurality of conductive sliding pieces 1235 are arranged on one side of the rotating roller 12, two conductive sliding pieces 1235 are in a group, the second motor 1211 can be powered through the conductive sliding pieces 1235, a sliding piece sliding groove 1236 is arranged on the cleaning machine body 1, the conductive sliding pieces 1235 slide in the sliding groove 1236, a butt joint 1237 is arranged in the sliding piece sliding groove 1236, the butt joint 1237 is arranged at the top of the sliding piece 1236, when electrically conductive gleitbretter 1235 is in slide sliding back in gleitbretter spout 12 with the corresponding butt joint back of butt joint conductive head 1237, can be through butt joint conductive head 1237 with electric power transport on electrically conductive flowerpot 1236, and then can supply power to second motor 1211, thereby control the rotation of first threaded rod 1206 can realize horizontal slip when can shaking block 1226 and strike on the building after the slip through swing slider 1203, great improvement to the clearance effect of building templates.

As shown in fig. 5 to 9, two ends of the driving spindle 1208 are respectively provided with a first slider 1212, the driving wheel 1208 respectively rotates on the first slider 1212, the cleaning machine body 1 is provided with a first sliding slot 1213 for supporting the first slider 1212 to slide, the first sliding slots 1213 are respectively arranged in an arc shape, the ends of the driving spindle 1208 are respectively provided with a meshing sprocket 1214, the cleaning machine body 1 is provided with a slider sliding slot 1003 for supporting the control slider 1218 to slide, the slider sliding slot 1003 is provided with a first spring 1219 for biasing the control slider 1218 to slide, the slider sliding slot 1003 is provided with a first pressing cam 122 driven by a fourth motor 1220, the first pressing cam 1221 presses the control slider 1218 to rotate, the control slider 1218 is arranged in an arc shape, two ends of the control slider 1218 are respectively provided with a rotating first sprocket 1223, a plurality of self-rotating supporting chain wheels 1225 are arranged at the top of the control sliding block 1218, a first chain 1224 is arranged on the first chain wheel 1223 and the supporting chain wheels 1225, the first chain 1224 is arranged in an arc shape, after the control sliding block 1218 slides upwards, the first chain 1224 is engaged and connected with the engaging chain wheel 1214, and a fifth motor 1222 for driving the first chain wheel 1223 to rotate is arranged in the control sliding block 1218;

the rotating roller 12 is provided with a rotating fluted disc 1215, the cleaning machine body 1 is provided with a second gear 1216 driven by a third motor 1217, and the second gear 1216 is correspondingly meshed with the rotating fluted disc 1215.

A first slider 1212 is respectively disposed at two ends of the driving shaft 1208, the driving shaft 1208 is respectively rotated on the first slider 1212, first sliding grooves 1213 for supporting the first slider 1212 to slide are disposed at two ends of the rotating roller 12, the first sliding grooves 1213 are arranged in an arc shape, so that the first slider 1212 can be supported by the first sliding grooves 1213, when the swing slider 1203 swings, the driving shaft 1208 can be driven to swing, the driving shaft 1208 can be supported by the first slider 1212 to rotate normally, an engaging sprocket 1213 is respectively disposed at an end of the driving shaft 1208, a slider sliding groove 1003 for supporting the control slider 1218 to slide is disposed in the cleaning machine body 1, the first pressing cam 1221 is driven to rotate by a fourth motor 1220, and the first pressing cam 1221 presses the control slider 1218 to slide upwards after rotating, so that the first chain 1224 can be engaged with the engaging sprocket 1214, the first chain 1224 is arranged in an arc shape, when the engaging sprocket 1214 swings along with the driving shaft 1208, the engaging sprocket 1214 can be engaged with the first chain 1224, so that the driving wheel 1208 can be driven to rotate by the rotation of the first chain 1224, and the telescopic sliding of the vibrating block 1226 can be controlled, the first sprocket 1223 can be driven to rotate by the fifth motor 1222, and the first chain 1224 can be driven to rotate, the first chain 1224 is supported by the supporting sprocket 1225, so that the first chain 1224 can be in an arc shape, the control block 1218 can be reset by the first spring 1219 pressing the control block 1218, the rotating roller 12 is provided with a rotating toothed disc 1215, and the second sprocket 1216 can be driven to rotate by the third motor 1217, the second gear 1216 is correspondingly engaged with the rotating toothed disc 1215 so as to control the rotation of the rotating rollers 12.

As shown in fig. 5, 6 and 7, the driving rotating shaft 1208 is disposed in a square shape, the end portions of the vibration blocks 1226 are respectively provided with a pressing head 1233 sliding in the vibration shaft 1201, the vibration shaft 1201 is internally provided with a second spring 1234 elastically pressing the pressing head 1233 to slide, the vibration shaft 1201 is internally provided with a first rotating shaft 1231 rotating, the first rotating shaft 1231 is provided with a second pressing cam 1232 pressing the pressing head 1233 to slide, the end portions of the first rotating shaft 1231 are respectively provided with a second bevel gear 1229, the swing slider 1203 is internally provided with a first bevel gear 1227 engaged with the second bevel gear 1229, the first bevel gear 1227 is respectively provided with a supporting sliding hole 1228 disposed in a square shape, and the driving rotating shaft 1208 passes through the supporting sliding hole 1228.

The second jacking cam 1232 is driven to rotate by the first rotating shaft 1231, the second jacking cam 1232 jacks the jacking head 1233 to slide, so as to drive the vibration block 1226 to slide, the jacking head 1233 is sprung by the second spring 1234 to slide, so as to reset the vibration block 1226, after the jacking head 1233 is jacked by the second jacking cam 1232, the vibration block 1226 can slide in a reciprocating manner, the second bevel gear 1229 is correspondingly meshed with the first bevel gear 1227, so as to drive the second bevel gear 1229 to rotate by the rotation of the first bevel gear 1227, so as to drive the first rotating shaft 1231 to rotate, a first supporting cavity 1230 for supporting the first bevel gear 1227 and the second bevel gear 1229 to rotate is arranged in the swinging sliding block 1203, the driving rotating shaft 1208 is arranged in a square, a supporting sliding hole 1228 corresponding to the driving rotating shaft 1208 is arranged in the first bevel gear 1227, the supporting sliding hole 1228 is arranged in a square shape, and the first bevel gear 1227 can be driven to rotate by the rotation of the driving rotating shaft 1208, so that the sliding of the vibrating block 1226 can be controlled.

As shown in fig. 3, the control ceiling 14 is arranged in an arc shape, a plurality of ceiling openings 1401 are arranged at the top of the control ceiling 14, a second rotating shaft 1402 is arranged in each ceiling opening 1401, two first pressing rods 1404 which rotate in a crossed manner are arranged on each fourth rotating shaft 1402, two pressing rods 1403 are arranged, each pressing rod 1403 is connected to each first pressing rod 1404 on two sides, each first pressing rod 1404 is provided with a second rotating pressing rod 1405, the end portions of each second pressing rod 1405 are connected together in a rotating manner, a pressing air bag 1405 is arranged between each first pressing rod 1404 and each second pressing rod 1405, each pressing air bag 1409 presses the first pressing rod 1404 and the second pressing rod 1405 after being inflated, a pressing module 1406 which covers the second pressing rod 1405 is arranged at the top of the control ceiling 14, and a plurality of pressing sliders 1408 which are pressed by a third spring 1407 is arranged in the pressing module 1406, the pressing slider 1408 presses the second pressing rod 1405 respectively, a connecting air pipe 1410 for inflating and exhausting the pressing air bag 1409 is arranged in the pressing module 1406, and the vibration shaft 1201 is pressed to swing after the pressing rod 1403 swings.

After the connecting air pipe 1401 is filled with compressed air, the jacking air bag 1409 can be inflated and expanded, and further the jacking air bag 1409 can be used for jacking and pressing the first and second pressing rods 1405 and the first pressing rod 1404 to swing synchronously, so that the swing of the extrusion rod 1403 can be controlled, the swing of the vibration shaft 1206 can be pressed after the extrusion pressing rod 1043 swings, so that the two vibration shafts 1206 can be pressed on the building template, and further the cleaning effect on the building template 1401 can be greatly improved, after the connecting air pipe exhausts, the jacking air bag 1409 can be exhausted, the jacking sliding block 1408 is jacked and slid by the third spring 1407, the second pressing rod 1405 swings through the jacking sliding block 1408, so that the extrusion rod 1403 can be contracted, the two first pressing rods 1404 are connected in a crossing manner through the second rotating shaft 1402, so that the first pressing rod is supported, and the two second pressing rods 1405 are connected together, and thus the swing of the pressing bar 1403 can be controlled.

As shown in fig. 1 and 2, the supporting slide way 2 is inclined, a telescopic shaft 2001 which is telescopically slid is arranged on the supporting slide way 2, a top pressing plate 2002 is arranged at an end of the telescopic shaft 2001, a third gear 2003 driven by a motor is arranged in the supporting slide way 2, and a tooth socket which is correspondingly engaged with the third gear 2003 is arranged on the telescopic shaft 2001.

The building templates can slide on the first conveying belt 2101 through the inclined supporting slide ways 2, the third gear 2003 is driven to rotate through the motor, tooth grooves which are correspondingly meshed and connected with the third gear 2003 are formed in the telescopic shaft 2001, telescopic sliding of the telescopic shaft 2001 can be controlled, the jacking plates 2002 can be controlled to slide, the building templates can be jacked to slide after the jacking plates 2002 slide, the building templates can be stacked together, and packaging of the building templates is facilitated.

As shown in fig. 1 and 2, two ends of the bottom conveying module 21 are respectively provided with a fifth rotating shaft 2115, the fifth rotating shafts 2115 are respectively provided with a first pulley 2103, the first conveying belt 2101 is tensioned on the two first pulleys 2103, the first fifth rotating shafts 2115 are respectively provided with a second sprocket 2116, the two second sprockets 2116 are correspondingly connected through a second chain 2117, and the bottom conveying module 21 is internally provided with a seventh motor 2102 for driving the fifth rotating shafts 2115 to rotate.

The fifth rotating shaft 2115 is driven to rotate by the seventh motor 2102, the two second chain wheels 2116 can be connected together by the second chain 2117, the two first belt pulleys 2103 are driven to rotate, the first conveying belt 2101 is tensioned between the two first belt pulleys 2103, and the first conveying belt 2101 can be rotated.

As shown in fig. 1 and fig. 2, two ends of the top conveying module 2105 are respectively provided with a rotating fourth rotating shaft 2112, the fourth rotating shaft 2112 is respectively provided with a second pulley 2111, the second conveying belt 2110 is tensioned between the two second pulleys 2111, the fourth rotating shaft 2112 is respectively provided with a first sprocket 2114, a first chain 2113 is arranged between the two first sprockets 2114, the top conveying module 2104 5 is internally provided with an eighth motor 2109 for driving the fourth rotating shaft 2112 to rotate, the bottom conveying module 21 is provided with a plurality of supporting shafts 2104, the top conveying module 2105 is provided with a plurality of supporting slide holes 2108 corresponding to the supporting shafts 2104, the supporting shafts are respectively arranged in the supporting slide holes 2108, the top conveying module 5 is internally provided with a third rotating shaft 2107 driven by a motor, the third rotating shaft 2107 is provided with a plurality of fourth gears 2106, the supporting shafts 2104 are respectively provided with tooth grooves corresponding to and engaged with the fourth gear 2106, and the rotation directions of the first conveying belt 2101 and the second conveying belt 2110 are opposite.

After the third rotating shaft 2107 is driven to rotate by a motor, the fourth gear 2106 can be controlled to rotate, the fourth gear 2106 is correspondingly meshed with a tooth groove on the supporting shaft 2104, so that the top conveying module 2105 can be controlled to slide up and down, a supporting sliding hole 2108 corresponding to the supporting shaft 2104 is formed in the top conveying module 2105, after the top conveying module 2105 slides downwards, the second conveying belt 2110 can be pressed on a building template, the eighth motor 2109 drives the fourth rotating shaft 2112 to rotate, the two first chain wheels 2114 are connected through the first chain 2113, so that the second belt wheel 2111 can be driven to rotate, the second conveying belt 2110 is driven to rotate, after the first conveying belt 2101 and the second conveying belt 2110 rotate, the building template can be clamped to slide, and the sliding of the building template can be controlled.

As shown in fig. 1 and 2, a second sliding groove 2201 is disposed on the packing mechanism 22, the second sliding groove 2201 is disposed in a circular shape, a supporting slide 2202 is disposed in the second sliding groove 2201 in a circular shape, two rotating meshing gears 2204 are disposed on the sliding body 2203, the two meshing gears 2204 are pressed and connected to the supporting slide 2202, a ninth motor 2205 for driving the meshing gears 2204 to rotate is disposed in the sliding body 2203, a tenth motor 2207 for driving the packing turntable 2206 to rotate is disposed in the sliding body 2203, and a pull rope is disposed on the packing turntable 2206.

The second sliding groove 2201 is circularly arranged, the supporting slide 2202 is circularly arranged, the sliding body 2203 is internally provided with a groove which is clamped on the supporting slide 2202, the supporting slide 2202 is provided with a tooth groove which is correspondingly engaged and connected with the engaging gear 2204, so that the sliding body 2203 beaten by the rotation of the engaging gear 2202 can slide on the supporting slide 2202, the sliding body 2203 rotates around the building template, the tenth motor 2207 drives the packing turntable 2206 to rotate, the stay cord is arranged on the packing turntable 2206, and the building template can be packed after rotating around the building template through the stay cord, thereby avoiding the trouble caused by manually loading and unloading the building template one by one, and greatly improving the loading and transporting efficiency of the building template.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a clean baling press of building templates which characterized in that: comprises an automatic cleaning mechanism and an automatic packing mechanism;

the automatic cleaning mechanism comprises a cleaning machine body (1), a first conveying roller (1101), a second conveying roller (1301), a rotating roller (12), a vibration shaft (1201) and a control ceiling (14);

the first conveying roller (1101) is provided with a row rotating on one side of the cleaning machine body (1), the second conveying roller (1301) is provided with a row rotating on the other side of the cleaning machine body (1), and the rotating roller (12) rotates between the first conveying roller (1101) and the second conveying roller (1301);

the rotary roller (12) is provided with a plurality of swing grooves (1202), the swing grooves (1202) are respectively provided with two first threaded rods (1206), the first threaded rods (1206) are respectively provided with a plurality of sliding swing sliding blocks (1203), the swing sliding blocks (1203) are respectively provided with first threaded holes (1207) correspondingly meshed with the first threaded rods (1206) in a meshing way, the thread directions of the first threaded rods (1206) are correspondingly arranged, the vibration shafts (1201) are respectively and fixedly connected to the swing sliding blocks (1203), the swing grooves (1202) are respectively provided with two driving rotating shafts (1208), the swing sliding blocks (1203) respectively slide on the driving rotating shafts (1208), the inner sides of the vibration shafts (1201) are respectively provided with a row of vibration blocks (1226) capable of sliding in a telescopic way, and the driving rotating shafts (1208) drive the vibration blocks (1226) to slide, a control slide block (1218) which can slide up and down is arranged on one side of the cleaning machine body (1), after the rotating roller (12) rotates, the opening direction of the swinging groove (1202) is in a vertical state, the control slide block (1218) slides, and the control slide block (1218) drives the driving rotating shaft (1208) to rotate;

the control ceiling (14) is arranged at the top of the rotating roller (12), two sides of the control ceiling (14) are respectively provided with a swinging extrusion rod (1403), and the extrusion rods (1403) synchronously swing to press the vibration shaft (1201) to swing;

the automatic packaging mechanism comprises a supporting slide way (2), a bottom conveying module (21), a top conveying module (2105), a packaging mechanism (22) and a sliding machine body (2203);

the supporting slide way (2) is arranged in an inclined state, the supporting slide way (2) is connected to one end of a bottom conveying module (21), a first rotating conveying belt (2101) is arranged on the bottom conveying module (21), a second rotating conveying belt (2110) is arranged on a top conveying module (2105), the top conveying module (2105) slides up and down on the bottom conveying module (21), a packing mechanism (22) is connected to the end of the bottom conveying module (21), a sliding machine body (2203) rotates on the packing mechanism (22), a packing turntable (2206) is arranged on the packing mechanism (22), and a pressing plate (2002) capable of sliding in a telescopic mode is further arranged on the supporting slide way (2);

the end part of the supporting slide way (2) is connected to the cleaning machine body (1) and corresponds to the second conveying roller (1301).

2. The building template cleaning and packaging machine as claimed in claim 1, wherein: a first conveying groove (11) is formed in one side of the cleaning machine body (1), the first conveying rollers (1101) rotate in the first conveying groove (11) side by side, first chain wheels (1102) which rotate in the cleaning machine body (1) are respectively arranged at the end portions of the first conveying rollers (1101), the first chain wheels (1102) which are arranged side by side are connected in series through first chains (1103), and a first motor (1104) which drives the first conveying rollers (1101) to rotate is arranged in the cleaning machine body (1);

the cleaning machine is characterized in that a second conveying groove (13) is formed in the other side of the cleaning machine body (1), the second conveying rollers (1301) are arranged in the second conveying groove (13) side by side and rotate in the second conveying groove (13), second chain wheels (1302) rotating in the cleaning machine body (1) are respectively arranged at the end portions of the second conveying rollers (1301), the second chain wheels (1302) arranged side by side are connected in series through a second chain (1303), and a sixth motor (1304) for driving the second conveying rollers (1301) to rotate is arranged in the cleaning machine body (1).

3. The building template cleaning and packaging machine as claimed in claim 1, wherein: the cleaning machine body (1) is provided with a first rotary groove (1001) for supporting the rotary roller (12) to rotate, the two swing sliding blocks (1203) are in one group, the swing sliding blocks (1203) in each group are correspondingly connected through an elastic sheet (1209) in an elastic manner, the swing sliding blocks (1203) are arranged on the first threaded rod (1206) at equal intervals, the outer sides of the swing sliding blocks (1203) are respectively provided with a first sliding shaft (1205), the outer sides of the swing grooves (1202) respectively comprise first sliding grooves (1204) arranged on the rotary roller (12), the first sliding shafts (1205) respectively slide in the first sliding grooves (1204), the end parts of the first threaded rods (1206) are respectively provided with a first gear (1210), and the first gears (1201) at the end parts of the first threaded rods (1206) arranged in the swing grooves (1202) are respectively correspondingly engaged and connected, a second motor (1211) for driving the first threaded rod (1206) to rotate is arranged on the rotating roller (12);

the cleaning machine body (1) is provided with a supporting rotating hole (1002) for supporting the rotating roller (12) to rotate, one side of the rotating roller (12) is provided with a plurality of conductive sliding pieces (1235), the conductive sliding pieces (1235) supply power to the second motor (1211) respectively, a sliding piece sliding groove (1236) for supporting the conductive sliding pieces (1235) to slide is formed in the cleaning machine body (1), a butt-joint conductive head (1237) is arranged in the conductive sliding pieces (1235), the butt-joint conductive head (1237) is arranged at a vertical position, and the butt-joint conductive head (1237) is in butt joint with the conductive sliding pieces (1235) correspondingly.

4. The building template cleaning and packaging machine as claimed in claim 1, wherein: two ends of the driving rotating wheel (1208) are respectively provided with a first sliding block (1212), the driving rotating wheel (1208) respectively rotates on the first sliding block (1212), the cleaning machine body (1) is provided with a first sliding chute (1213) for supporting the first sliding block (1212) to slide, the first sliding chutes (1213) are respectively arranged in an arc shape, the end of the driving rotating shaft (1208) is respectively provided with a meshing chain wheel (1214), the cleaning machine body (1) is provided with a sliding chute (1003) for supporting the control sliding block (1218) to slide, the sliding chute (1003) is internally provided with a first spring (1219) for elastically pressing the control sliding block (1218) to slide, the sliding chute (1003) is internally provided with a first jacking cam (1221) driven by a fourth motor (1220), and the first jacking cam (1221) jacks on the control sliding block (1218) to rotate, the control slide block (1218) is arranged in an arc shape, two ends of the control slide block (1218) are respectively provided with a rotating first chain wheel (1223), the top of the control slide block (1218) is provided with a plurality of self-rotating support chain wheels (1225), the first chain wheel (1223) and the support chain wheels (1225) are provided with a first chain (1224), the first chain (1224) is arranged in an arc shape, after the control slide block (1218) slides upwards, the first chain (1224) is meshed and connected with the meshing chain wheel (1214), and a fifth motor (1222) for driving the first chain wheel (1223) to rotate is arranged in the control slide block (1218);

the rotating roller (12) is provided with a rotating fluted disc (1215), the cleaning machine body (1) is internally provided with a second gear (1216) driven by a third motor (1217), and the second gear (1216) is correspondingly meshed and connected with the rotating gear (1215).

5. The building template cleaning and packaging machine as claimed in claim 1, wherein: the driving rotating shaft (1208) is arranged in a square shape, the end parts of the vibration blocks (1226) are respectively provided with a top pressure head (1233) which slides in the vibration shaft (1201), a second spring (1234) which elastically presses the jacking head (1233) to slide is arranged in the vibration shaft (1201), a first rotating shaft (1231) is respectively arranged in the vibration shafts (1201), a second jacking cam (1232) jacking and pressing the jacking head (1233) to slide is arranged on the first rotating shaft (1231), the end parts of the first rotating shaft (1231) are respectively provided with a second bevel gear (1229), a first bevel gear (1227) which is correspondingly engaged with the second bevel gear (1229) is respectively arranged in the swing sliding block (1203), the first bevel gears (1227) are respectively provided with a supporting sliding hole (1228) which is arranged in a square shape, and the driving rotating shaft (1208) penetrates through the supporting sliding holes (1228).

6. The building template cleaning and packaging machine as claimed in claim 1, wherein: the control ceiling (14) is arc-shaped, the top of the control ceiling (14) is provided with a plurality of ceiling openings (1401), a second rotating shaft (1402) is arranged in each ceiling opening (1401), each fourth rotating shaft (1402) is provided with two first crossed and rotated pressing rods (1404), each extrusion rod (1403) is provided with two extrusion rods (1403), each extrusion rod (1403) is connected to each first pressing rod (1404) on two sides, each first pressing rod (1404) is provided with one rotated second pressing rod (1405), the end portions of the second pressing rods (1405) are rotatably connected together, each pressing air bag (1409) is arranged between each first pressing rod (1404) and each second pressing rod (1405), each pressing air bag (1409) presses against each first pressing rod (1404) and each second pressing rod (1405) after being inflated, the top of the control ceiling (14) is provided with a pressing die covering each second pressing rod (1405) The pressing module (1406) is internally provided with a pressing slider (1408) which is pressed by a plurality of third springs (1407), the pressing slider (1408) respectively presses the second pressing rods (1405), the pressing module (1406) is internally provided with a connecting air pipe (1410) which inflates and exhausts the pressing air bag (1409), and the pressing rod (1403) presses the vibration shaft (1201) to swing after swinging.

7. The building template cleaning and packaging machine as claimed in claim 1, wherein: the supporting slide way (2) is inclined, a telescopic sliding telescopic shaft (2001) is arranged on the supporting slide way (2), a top pressing plate (2002) is arranged at the end part of the telescopic shaft (2001), a third gear (2003) driven by a motor is arranged in the supporting slide way (2), and tooth grooves which are correspondingly meshed and connected with the third gear (2003) are arranged on the telescopic shaft (2001).

8. The building template cleaning and packaging machine as claimed in claim 1, wherein: the two ends of the bottom conveying module (21) are respectively provided with a rotating fifth rotating shaft (2115), the fifth rotating shaft (2115) is respectively provided with a first belt pulley (2103), the first conveying belt (2101) is tensioned on the two first belt pulleys (2103), the first fifth rotating shaft (2115) is respectively provided with a second chain wheel (2116), the two second chain wheels (2116) are correspondingly connected through a second chain (2117), and a seventh motor (2102) for driving the fifth rotating shaft (2115) to rotate is arranged in the bottom conveying module (21).

9. The building template cleaning and packaging machine as claimed in claim 1, wherein: the two ends of the top conveying module (2105) are respectively provided with a rotating fourth rotating shaft (2112), the fourth rotating shaft (2112) is respectively provided with a second belt pulley (2111), the second conveying belt (2110) is tensioned between the two second belt pulleys (2111), the fourth rotating shaft (2112) is respectively provided with a first chain wheel (2114), a first chain (2113) is arranged between the two first chain wheels (2114), the top conveying module (2104) is internally provided with an eighth motor (2109) for driving the fourth rotating shaft (2112) to rotate, the bottom conveying module (21) is provided with a plurality of supporting shafts (2104), the top conveying module (2105) is provided with a plurality of supporting slide holes (2108) corresponding to the supporting shafts (2108), and the supporting shafts (2104) are respectively arranged in the supporting slide holes (2108), a third rotating shaft (2107) driven by a motor is arranged in the top conveying module (2105), a plurality of fourth gears (2106) are arranged on the third rotating shaft (2107), tooth grooves correspondingly meshed and connected with the fourth gears (2106) are respectively arranged on the supporting shaft (2104), and the rotating directions of the first conveying belt (2101) and the second conveying belt (2110) are opposite.

10. The building template cleaning and packaging machine as claimed in claim 1, wherein: the packaging mechanism (22) is provided with a second sliding groove (2201), the second sliding groove (2201) is circularly arranged, a supporting slide way (2202) which is circularly arranged is arranged in the second sliding groove (2201), the sliding machine body (2203) is provided with two rotating meshing gears (2204), the two meshing gears (2204) are connected to the supporting slide way (2202) in a pressing mode, a ninth motor (2205) which drives the meshing gears (2204) to rotate is arranged in the sliding machine body (2203), a tenth motor (2207) which drives the packaging turntable (2206) to rotate is arranged in the sliding machine body (2203), and the packaging turntable (2206) is provided with a pull rope.

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