CN110271356B

CN110271356B - 3D model display system

Info

Publication number: CN110271356B
Application number: CN201910579882.4A
Authority: CN
Inventors: 李凤鸣
Original assignee: Ji'anji Model Co ltd
Current assignee: Ji'anji Model Co.,Ltd.
Priority date: 2019-06-28
Filing date: 2019-06-28
Publication date: 2021-05-04
Anticipated expiration: 2039-06-28
Also published as: CN110271356A

Abstract

The invention discloses a 3D model display system, which comprises a machine body, wherein a mounting cavity is arranged in the machine body, and a slurry brushing device is arranged in the mounting cavity, wherein the slurry brushing device comprises a fixing part and a slurry brushing part, the fixing part comprises fixing carrier rollers which are bilaterally symmetrical and fixedly arranged on the end wall of the outer side of a fixed rotating shaft, a fixing slide block is arranged in the mounting cavity in a vertically sliding manner, and a fixing power cavity is arranged in the fixing slide block; this equipment is more reasonable and ingenious on overall structure, and it is all very convenient to install, maintain and overhaul to this equipment can evenly paint the paste behind the 3D model, and the mounting in-process need not the workman and intervenes, avoids the irregularity of mounting quality, and guarantees that the quality of mounting improves mounting efficiency simultaneously, and this equipment has efficient degree of automation in the use, has higher use and spreading value.

Description

3D model display system

Technical Field

The invention relates to the field of 3D model mounting, in particular to a 3D model display system.

Background

Along with the development of society, 3D model's use is more and more, and 3D model often need show it when using, when showing, need mount the 3D model.

At present, the 3D model mounting is carried out by manual operation, but the mounting process in the mode depends heavily on the experience of mounting workers, the mounting quality is uneven, the mounting efficiency is low, and the mounting cost is high.

Therefore, there is a need to further improve the 3D model mounting method in the prior art, so as to improve the 3D model display effect.

Disclosure of Invention

The invention aims to provide a 3D model display system which can overcome the defects in the prior art and improve the mounting efficiency of ancient 3D models.

The 3D model display system comprises a machine body, wherein a mounting cavity is arranged in the machine body, a slurry brushing device is arranged in the mounting cavity, the slurry brushing device comprises a fixing part and a slurry brushing part, the fixing part comprises fixing carrier rollers which are bilaterally symmetrical and fixedly arranged on the outer end wall of a fixing rotating shaft, a fixing sliding block is arranged in the mounting cavity in a vertically sliding mode, a fixing power cavity is arranged in the fixing sliding block, the fixing rotating shaft is rotatably arranged in the fixing power cavity, the slurry brushing part comprises a slurry brushing carrier roller fixedly arranged on the outer end wall of the slurry brushing shaft, a slurry brushing cavity is arranged in the bottom end wall of the mounting cavity, the slurry brushing shaft is rotatably arranged in the slurry brushing cavity, slurry for mounting is arranged in the slurry brushing cavity, and a transmission part is arranged between the fixing part and the slurry brushing part, the drive fixed part rotates the simultaneous drive the brush thick liquid part rotates, wherein, power unit includes main power axle and main driving motor, be provided with comprehensive power chamber in the side wall behind the mounting chamber, main power axle rotate set up in synthesize the power chamber just main power axle right side end with fixed set up in main driving motor power in synthesizing the power chamber right side end wall is connected, fixed part with be provided with a fixed drive mechanism drive between the power unit fixed part rotates.

Specifically, a fixed rear transmission cavity is arranged in the right end wall of the comprehensive power cavity, a comprehensive distribution power shaft extending left and right is rotatably arranged between the fixed rear transmission cavity and the comprehensive power cavity, a comprehensive distribution power gear is fixedly arranged on the outer end wall of the comprehensive distribution power shaft in the comprehensive power cavity, a sliding power spline housing is arranged on the outer end wall of the main power shaft in a left-right sliding manner, a main power gear is fixedly arranged on the outer end wall of the sliding power spline housing, the main power gear is engaged with the comprehensive distribution power gear, a fixed output bevel gear is fixedly arranged at the right end of the comprehensive distribution power shaft in the fixed rear transmission cavity, a fixed front transmission cavity is arranged in the front end wall of the fixed rear transmission cavity, and a fixed power transmission shaft extending front and rear is rotatably arranged between the fixed rear transmission cavity and the fixed front transmission cavity, a fixed rear transmission bevel gear is fixedly arranged at the rear end of the fixed power transmission shaft in the fixed rear transmission cavity, the fixed rear transmission bevel gear is meshed with the fixed output bevel gear, a fixed front transmission bevel gear is fixedly arranged at the front end of the fixed power transmission shaft in the fixed front transmission cavity, a fixed power spline housing extending up and down is rotatably arranged in the fixed front transmission cavity, a fixed upper transmission bevel gear is fixedly arranged at the top end of the fixed power spline housing, the fixed upper transmission bevel gear is meshed with the fixed front transmission bevel gear, a fixed power spline shaft extending up and down is rotatably arranged in the fixed power cavity, a fixed lower transmission bevel gear is fixedly arranged at the bottom end of the fixed power spline shaft, a fixed input bevel gear is fixedly arranged at the front end of the fixed rotating shaft in the fixed power cavity, the fixed input bevel gear is meshed with the fixed lower transmission bevel gear, the top of the fixed power spline shaft is in spline fit with the bottom of the fixed power spline sleeve, a left synchronous belt cavity and a right synchronous belt cavity are arranged in the end wall of the top of the fixed power cavity, a synchronous driving belt wheel is fixedly arranged on the end wall of the outer side of the fixed power spline shaft in the left synchronous belt cavity, a synchronous driven belt wheel is fixedly arranged at the tail end of the top of the fixed power spline shaft on the left side, a synchronous belt is arranged between the synchronous driven belt wheel and the synchronous driving belt wheel in a transmission mode, the fixed input bevel gear is favorable for fixing a 3D model, the back of the 3D model is.

Specifically, a transmission belt cavity is arranged in the left end wall of the fixed rear transmission cavity, a slurry brushing driving belt wheel is fixedly arranged on the outer end wall of the comprehensive distribution power shaft in the transmission belt cavity, a slurry brushing power conversion cavity is arranged in the left end wall of the transmission belt cavity, a slurry brushing power belt is arranged between the slurry brushing power conversion cavity and the transmission belt cavity in a rotating manner, a mounting comprehensive shaft extending left and right is arranged in the transmission belt cavity, a slurry brushing driven belt wheel is fixedly arranged at the right end of the mounting comprehensive shaft in the transmission belt cavity, a slurry brushing power belt is arranged between the slurry brushing driven belt wheel and the slurry brushing driving belt wheel in a driving manner, a conversion driving gear is fixedly arranged on the outer end wall of the mounting comprehensive shaft in the slurry brushing power conversion cavity, a slurry brushing power cavity is arranged in the right end wall of the slurry brushing power conversion cavity, and a slurry brushing power shaft extending left and right is arranged between the slurry brushing power conversion cavity and the, the automatic slurry brushing device is characterized in that a conversion driven gear is fixedly arranged at the tail end of the left side of the slurry brushing power shaft in the slurry brushing power conversion cavity and is meshed with the conversion driving gear, a slurry brushing output bevel gear is fixedly arranged at the tail end of the right side of the slurry brushing power shaft in the slurry brushing power cavity, a slurry brushing input bevel gear is fixedly arranged at the tail end of the rear side of the slurry brushing shaft in the slurry brushing power cavity and is meshed with the slurry brushing power shaft, synchronous driving of the slurry brushing carrier roller is facilitated, and slurry is brushed and smeared on the back of the 3D model more uniformly.

Specifically, a sliding power cavity is arranged in the end wall of the top of the mounting cavity, a sliding swing rod extending up and down is rotatably arranged in the sliding power cavity, the tail end of the top of the sliding swing rod is hinged with the end wall of the top of the sliding power cavity, a sliding sleeve rod extending up and down is arranged in the sliding power cavity, the tail end of the top of the sliding sleeve rod is hinged with the tail end of the bottom of the sliding swing rod, a sliding connecting rod extending up and down is rotatably arranged in the sliding power cavity, a re-tightening cavity is arranged in the sliding sleeve rod, the sliding connecting rod is slidably arranged in the re-tightening cavity, a re-tightening spring is elastically arranged between the end wall of the top of the sliding connecting rod and the end wall of the top of the re-tightening cavity, the tail end of the top of the sliding connecting rod is hinged with the end wall of the top of the fixed slide block, a, the sliding power cavity is characterized in that a fixed sliding groove is formed in the end wall of the top of the sliding power cavity, a pushing permanent magnet sliding block is arranged in the fixed sliding groove in a sliding mode, a pushing reset spring is elastically arranged between the end wall of the right side of the pushing permanent magnet sliding block and the end wall of the right side of the fixed sliding groove, a pushing electromagnet is fixedly arranged in the end wall of the right side of the fixed sliding groove, a pushing rod extending up and down is arranged in the sliding power cavity, the end of the top of the pushing rod is hinged to the end wall of the bottom of the pushing permanent magnet sliding block, the end of the bottom of the pushing rod is hinged to the.

Preferably, a pressing carrier roller is rotatably arranged in the mounting cavity, a pressing fit carrier roller is rotatably arranged at the bottom of the mounting cavity, the pressing fit carrier roller is matched with the pressing carrier roller, a pressing power cavity is arranged in the left end wall of the brushing power conversion cavity, a pressing power shaft extending forwards and backwards is rotatably arranged between the pressing power cavity and the mounting cavity, the pressing carrier roller is fixedly arranged on the outer end wall of the pressing power shaft, a pressing input bevel gear is fixedly arranged at the rear end of the pressing power shaft in the pressing power cavity, a pressing output bevel gear is fixedly arranged at the left end of the mounting comprehensive shaft in the pressing power cavity, the pressing output bevel gear is meshed with the pressing input bevel gear, a brocade cavity is arranged in the end wall of the bottom of the mounting cavity, a brocade shaft is rotatably arranged in the brocade cavity, and a brocade sleeve shaft is rotatably arranged on the outer end wall of the brocade shaft, the utility model discloses a wash and paste 3D model mounting device, including the china brocade cover axle, be provided with the chamber that resets in the china brocade cover axle, the chamber inboard end wall that resets with the elasticity is provided with the clockwork spring between the china brocade axle outside end wall, be provided with the china brocade section on the china brocade cover axle outside end wall, the suppression bearing roller with be provided with the china brocade between the china brocade section, be favorable to changeing the mounting to the china brocade with the 3D model after the completion of brushing thick liquid on.

Preferably, a conveying power cavity is arranged in the end wall of the top of the mounting cavity, a conveying power shaft extending forwards and backwards is rotatably arranged between the conveying power cavity and the mounting cavity, a conveying carrier roller is fixedly arranged on the end wall of the outer side of the conveying power shaft in the mounting cavity, a conveying auxiliary carrier roller is rotatably arranged in the mounting cavity, the conveying auxiliary carrier roller is matched with the conveying carrier roller, a conveying driven pulley is fixedly arranged at the front end of the conveying power shaft in the conveying power cavity, a conveying power transmission cavity is arranged in the end wall of the rear end of the conveying power cavity, a conveying power transmission shaft extending forwards and backwards is rotatably arranged between the conveying power transmission cavity and the conveying power cavity, a conveying driving pulley is fixedly arranged at the front end of the conveying power transmission shaft in the conveying power cavity, and a conveying power belt is arranged between the conveying driving pulley and the conveying driven pulley in a transmission manner, the tail end of the rear side of the conveying power transmission cavity is fixedly provided with a conveying input bevel gear, the tail end of the left side of the comprehensive distribution power shaft in the conveying power transmission cavity is fixedly provided with a conveying output bevel gear, and the conveying output bevel gear is meshed with the conveying input bevel gear, so that the mounted 3D model can be synchronously conveyed out of the equipment.

Preferably, a cutting block which slides back and forth is arranged in the mounting cavity, a cutting cavity is arranged in the cutting block, a cutting knife is rotatably arranged in the cutting cavity, a cutting power cavity is arranged in the end wall of the bottom of the comprehensive power cavity, a cutting power shaft extending left and right is rotatably arranged between the cutting power cavity and the comprehensive power cavity, a cutting reel is fixedly arranged at the tail end of the left side surface of the cutting power shaft in the cutting power cavity, a cutting power gear is fixedly arranged at the tail end of the right side of the cutting power shaft in the comprehensive power cavity, the cutting power gear is disengaged from the main power gear, a transmission rope is arranged between the cutting reel and the cutting block in a transmission way, and an elastic reset mechanism is arranged in the front side end wall of the cutting block, so that the cutting knife can be driven to slide back and forth, and brocade satin below the 3D model can be cut off.

Specifically, the synthesis power intracavity horizontal slip be provided with the switching rotatory piece, slip power spline housing rotate set up in on the switching rotatory piece, be provided with the switching sliding tray in the synthesis power chamber left side end wall, the switching sliding tray horizontal slip be provided with the switching permanent magnet slider in the switching sliding tray, switch the permanent magnet slider with switching rotatory piece fixed connection, switch permanent magnet slider left side end wall with elasticity is provided with between the switching sliding tray left side end wall switches reset spring, switching sliding tray left side end wall internal fixation is provided with the switching electro-magnet, is favorable to controlling cutting device horizontal slip.

The invention has the beneficial effects that: this equipment is more reasonable and ingenious on overall structure, and it is all very convenient to install, maintain and overhaul to this equipment can evenly paint the paste behind the 3D model, and the mounting in-process need not the workman and intervenes, avoids the irregularity of mounting quality, and guarantees that the quality of mounting improves mounting efficiency simultaneously, and this equipment has efficient degree of automation in the use, has higher use and spreading value.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic top view of the overall structure of a 3D model display system of the present invention;

FIG. 2 is a schematic view of the structure A-A of FIG. 1;

FIG. 3 is a schematic diagram of B-B in FIG. 1.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., indicate orientations or positional relationships based on those shown in fig. 1, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be considered as limiting the present invention.

As shown in fig. 1-3, the 3D model display system of the present invention includes a machine body 111, a mounting cavity 119 is disposed in the machine body 111, a paste brushing device is disposed in the mounting cavity 119, wherein the paste brushing device includes a fixing component and a paste brushing component, the fixing component includes fixing rollers 137 that are bilaterally symmetric and fixedly disposed on the outer end wall of a fixing rotating shaft 140, a fixing slider 147 is slidably disposed in the mounting cavity 119 up and down, a fixing power cavity 138 is disposed in the fixing slider 147, the fixing rotating shaft 140 is rotatably disposed in the fixing power cavity 138, the paste brushing component includes a paste brushing roller 135 fixedly disposed on the outer end wall of a paste brushing shaft 136, a paste brushing cavity 134 is disposed in the end wall of the bottom of the mounting cavity 119, the paste brushing shaft 136 is rotatably disposed in the paste brushing cavity 134, a paste for mounting is disposed in the paste brushing cavity 134, the fixing component with be provided with a transmission part between the brush thick liquid part, the drive the fixing component rotates and drives simultaneously the brush thick liquid part rotates, wherein, power unit includes main power shaft 196 and main driving motor 195, be provided with comprehensive power chamber 198 in the side end wall behind the mounting chamber 119, main power shaft 196 rotate set up in synthesize in the power chamber 198 just main power shaft 196 right side end with fixed set up in the main driving motor 195 power connection in synthesizing power chamber 198 right side end wall, the fixing component with be provided with a fixed transmission mechanism drive between the power unit the fixing component rotates.

A specific implementation manner for realizing the rotation of the fixed component will be described in detail, wherein a fixed rear transmission cavity 192 is arranged in the right end wall of the integrated power cavity 198, an integrated power distribution shaft 193 extending left and right is rotatably arranged between the fixed rear transmission cavity 192 and the integrated power cavity 198, an integrated power distribution gear 199 is fixedly arranged on the outer end wall of the integrated power distribution shaft 193 in the integrated power cavity 198, a sliding power spline sleeve 197 is arranged on the outer end wall of the main power shaft 196 in a left-right sliding manner, a main power gear 200 is fixedly arranged on the outer end wall of the sliding power spline sleeve 197, the main power gear 200 is engaged with the integrated power distribution gear 199, a fixed output bevel gear 190 is fixedly arranged at the right end of the integrated power distribution shaft 193 in the fixed rear transmission cavity 192, a fixed front transmission cavity 201 is arranged in the front end wall of the fixed rear transmission cavity 192, a fixed power transmission shaft 153 extending back and forth is rotatably arranged between the fixed rear transmission cavity 192 and the fixed front transmission cavity 201, a fixed rear transmission bevel gear 191 is fixedly arranged at the rear end of the fixed power transmission shaft 153 in the fixed rear transmission cavity 192, the fixed rear transmission bevel gear 191 is engaged with the fixed output bevel gear 190, a fixed front transmission bevel gear 152 is fixedly arranged at the front end of the fixed power transmission shaft 153 in the fixed front transmission cavity 201, a fixed power spline housing 148 extending up and down is rotatably arranged in the fixed front transmission cavity 201, a fixed upper transmission bevel gear 151 is fixedly arranged at the top end of the fixed power spline housing 148, the fixed upper transmission bevel gear 151 is engaged with the fixed front transmission bevel gear 152, and a fixed power spline shaft 142 extending up and down is rotatably arranged in the fixed power cavity 138, a fixed lower transmission bevel gear 141 is fixedly arranged at the tail end of the bottom of the fixed power spline shaft 142, a fixed input bevel gear 139 is fixedly arranged at the tail end of the front side of the fixed rotating shaft 140 in the fixed power cavity 138, the fixed input bevel gear 139 is engaged with the fixed lower transmission bevel gear 141, the top of the fixed power spline shaft 142 is in spline fit with the bottom of the fixed power spline housing 148, a left synchronous belt cavity 145 and a right synchronous belt cavity 145 are arranged in the end wall of the top of the fixed power cavity 138, a synchronous driving pulley 143 is fixedly arranged on the end wall of the outer side of the fixed power spline shaft 142 in the left synchronous belt cavity 145, a synchronous driven pulley 146 is fixedly arranged at the tail end of the top of the left fixed power spline shaft 142, a synchronous belt 144 is arranged between the synchronous driven pulley 146 and the synchronous driving pulley 143 in a transmission manner, so as to, and avoids shifting of the 3D model.

Next, referring to fig. 2-3, a transmission mechanism of the fixing component and the slurry brushing component is described in detail, wherein a transmission belt cavity 188 is provided in a left end wall of the fixed rear transmission cavity 192, a slurry brushing driving pulley 194 is fixedly provided on an outer end wall of the comprehensive distribution power shaft 193 in the transmission belt cavity 188, a slurry brushing power conversion cavity 180 is provided in a left end wall of the transmission belt cavity 188, a mounting comprehensive shaft 186 extending left and right is rotatably provided between the slurry brushing power conversion cavity 180 and the transmission belt cavity 188, a slurry brushing driven pulley 187 is fixedly provided at a right end of the mounting comprehensive shaft 186 in the transmission belt cavity 188, a slurry brushing power belt 189 is provided between the slurry brushing driven pulley 187 and the slurry brushing driving pulley 194, a conversion driving gear 186 is fixedly provided on an outer end wall of the mounting comprehensive shaft in the slurry brushing power conversion cavity 180, a brushing power cavity 184 is arranged in the right end wall of the brushing power conversion cavity 180, a brushing power shaft 181 extending left and right is rotatably arranged between the brushing power cavity 184 and the brushing power conversion cavity 180, a conversion driven gear 179 is fixedly arranged at the left end of the brushing power shaft 181 in the brushing power conversion cavity 180, the conversion driven gear 179 is engaged with the conversion driving gear 185, a brushing output bevel gear 182 is fixedly arranged at the right end of the brushing power shaft 181 in the brushing power cavity 184, a brushing input bevel gear 183 is fixedly arranged at the rear end of the brushing shaft 136 in the brushing power cavity 184, and the brushing input bevel gear 183 is engaged with the brushing power shaft 181, so that the back of the brushing carrier roller is synchronously driven to rotate, and the brushing paste is brushed and more uniformly coated on the 3D model.

Next, referring to fig. 2-3, a sliding power cavity 202 is provided in the top end wall of the mounting cavity 119, a sliding swing rod 156 extending up and down is rotatably provided in the sliding power cavity 202, the top end of the sliding swing rod 156 is hinged to the top end wall of the sliding power cavity 202, a sliding sleeve rod 155 extending up and down is provided in the sliding power cavity 202, the top end of the sliding sleeve rod 155 is hinged to the bottom end of the sliding swing rod 156, a sliding link 149 extending up and down is rotatably provided in the sliding power cavity 202, a re-tightening cavity 150 is provided in the sliding sleeve rod 155, the sliding link 149 is slidably provided in the re-tightening cavity 150, a re-tightening spring 154 is elastically provided between the top end wall of the sliding link 149 and the top end wall of the re-tightening cavity 150, the top end of the sliding link 149 is hinged to the top end wall of the fixed slider 147, a push link 162 is disposed within the push link 162 within the sliding power cavity 202, the right end of the push link 162 is hinged to the bottom end of the sliding swing lever 156, a fixed sliding groove 158 is arranged in the top end wall of the sliding power cavity 202, a propelling permanent magnet slider 160 is arranged in the fixed sliding groove 158 in a left-right sliding manner, a thrust return spring 159 is elastically arranged between the right end wall of the thrust permanent magnet slider 160 and the right end wall of the fixed slide groove 158, a propelling electromagnet 157 is fixedly arranged in the right side end wall of the fixed sliding groove 158, a propelling rod 161 which extends up and down is arranged in the sliding power cavity 202, the top end of the pushing rod 161 is hinged with the bottom end wall of the pushing permanent magnet slider 160, the bottom end of the push rod 161 is hinged with the left end of the push connecting rod 162, which is beneficial to controlling the fixed part to slide up and down.

The pressing mechanism of the present application is described in detail with reference to fig. 2-3, wherein a pressing roller 133 is rotatably disposed in the mounting cavity 119, a pressing fit roller 131 is rotatably disposed at the bottom of the mounting cavity 119, the pressing fit roller 131 is fitted with the pressing roller 133, a pressing power cavity 176 is disposed in the left end wall of the brushing power conversion cavity 180, a pressing power shaft 132 extending forward and backward is rotatably disposed between the pressing power cavity 176 and the mounting cavity 119, the pressing roller 133 is fixedly disposed on the outer end wall of the pressing power shaft 132, a pressing input bevel gear 177 is fixedly disposed at the rear end of the pressing power shaft 132 in the pressing power cavity 176, a pressing output bevel gear 178 is fixedly disposed at the left end of the mounting integrated shaft 186 in the pressing power cavity 176, the pressing output bevel gear 178 is engaged with the pressing input bevel gear 177, a brocade cavity 124 is arranged in the end wall at the bottom of the mounting cavity 119, a brocade shaft 128 is rotatably arranged in the brocade cavity 124, a brocade sleeve shaft 126 is rotatably arranged on the end wall at the outer side of the brocade shaft 128, a reset cavity 129 is arranged in the brocade sleeve shaft 126, a clockwork spring 127 is elastically arranged between the end wall at the inner side of the reset cavity 129 and the end wall at the outer side of the brocade shaft 128, a brocade section 125 is arranged on the end wall at the outer side of the brocade sleeve shaft 126, and a brocade 130 is arranged between the pressing carrier roller 133 and the brocade section 125, so that the 3D model after being finished with the slurry is favorably mounted on the brocade 130 in a rotating manner and is.

The output mechanism of the present application is described in detail with reference to fig. 2 to 3, wherein a conveying power cavity 112 is disposed in a top end wall of the mounting cavity 119, a conveying power shaft 121 extending forward and backward is rotatably disposed between the conveying power cavity 112 and the mounting cavity 119, a conveying idler 122 is fixedly disposed on an outer side end wall of the conveying power shaft 121 in the mounting cavity 119, a conveying auxiliary idler 123 is rotatably disposed in the mounting cavity 124, the conveying auxiliary idler 123 is engaged with the conveying idler 122, a conveying driven pulley 120 is fixedly disposed at a front end of the conveying power shaft 121 in the conveying power cavity 112, a conveying power transmission cavity 163 is disposed in a rear end wall of the conveying power cavity 112, a conveying power transmission shaft 113 extending forward and backward is rotatably disposed between the conveying power transmission cavity 163 and the conveying power cavity 112, the tail end of the front side of the conveying power transmission shaft 113 in the conveying power cavity 112 is fixedly provided with a conveying driving pulley 114, a conveying power belt 115 is arranged between the conveying driving pulley 114 and the conveying driven pulley 120 in a transmission manner, the tail end of the rear side of the conveying power transmission cavity 163 is fixedly provided with a conveying input bevel gear 164, the tail end of the left side of the comprehensive distribution power shaft 193 in the conveying power transmission cavity 163 is fixedly provided with a conveying output bevel gear 165, and the conveying output bevel gear 165 is meshed with the conveying input bevel gear 164, so that the mounted 3D model can be synchronously conveyed out of the equipment.

The cutting device of the present application is described in detail with reference to fig. 2-3, wherein a cutting block 116 sliding back and forth is disposed in the mounting cavity 119, a cutting cavity 117 is disposed in the cutting block 116, a cutting knife 118 is rotatably disposed in the cutting cavity 117, a cutting power cavity 172 is disposed in an end wall of the bottom of the comprehensive power cavity 198, a cutting power shaft 174 extending left and right is rotatably disposed between the cutting power cavity 172 and the comprehensive power cavity 198, a cutting reel 173 is fixedly disposed at a left end of the cutting power shaft 174 in the cutting power cavity 172, a cutting power gear 175 is fixedly disposed at a right end of the cutting power shaft 174 in the comprehensive power cavity 198, the cutting power gear 175 is disengaged from the main power gear 200, and a driving rope is drivingly disposed between the cutting reel 173 and the cutting block 116, and an elastic reset mechanism is arranged in the front side end wall of the cutting block 116, so that the cutting knife 118 can be driven to slide back and forth, and brocade below the 3D model can be cut off.

Next, the switching mechanism of the present application is described in detail with reference to fig. 3, wherein the switching rotary block 171 is disposed in the comprehensive power cavity 198 in a sliding manner, the sliding power spline sleeve 197 is rotatably disposed on the switching rotary block 171, a switching sliding groove 168 is disposed in the end wall of the left side of the comprehensive power cavity 198, a switching permanent magnet slider 170 is disposed in the switching sliding groove 168 in a sliding manner, the switching permanent magnet slider 170 is fixedly connected to the switching rotary block 171, a switching return spring 169 is elastically disposed between the end wall of the left side of the switching permanent magnet slider 170 and the end wall of the left side of the switching sliding groove 168, and a switching electromagnet 167 is fixedly disposed in the end wall of the left side of the switching sliding groove 168, so as to facilitate controlling the cutting device to slide left and right.

In the following, the applicant will describe in detail the use steps of 3D model mounting with reference to the accompanying fig. 1-3 and the above-described specific composition of a 3D model display system of the present application: firstly, in an initial state, the pushing electromagnet 157 is not electrified, the fixed slider 147 is maximally positioned at the top of the mounting cavity 119, the switching electromagnet 167 is not electrified, the switching permanent magnet slider 170 is maximally positioned at the left side of the switching sliding groove 168, the switching rotating block 171 is maximally positioned at the left side of the comprehensive power cavity 198, the main power gear 200 is engaged with the comprehensive distribution power gear 199, and the main power gear 200 is disengaged from the cutting power gear 175;

when the device is used, the propulsion electromagnet 157 is energized, the propulsion permanent magnet slider 160 slides to the right, the propulsion permanent magnet slider 160 drives the propulsion rod 161 to slide to the right, the propulsion rod 161 drives the propulsion link 162 to slide to the right, the propulsion link 162 drives the sliding swing rod 156 to swing to the right, the sliding swing rod 156 drives the sliding loop bar 155 to slide to the lower side, the sliding loop bar 155 drives the sliding link bar 149 to slide downwards, the sliding link bar 149 drives the fixed slider 147 to slide downwards, the fixed slider 147 drives the fixed idler roller 137 to slide downwards, the fixed idler roller 137 is matched with the brushing idler roller 135 to fixedly press the 3D model, the main driving motor 195 starts to work, the main driving motor 195 drives the main power shaft 196 to rotate, and the main power shaft 196 drives the sliding power spline sleeve 197 to rotate, the main power gear 200 driven by the sliding power spline housing 197 rotates, the main power gear 200 drives the comprehensive distribution power gear 199 to rotate, the comprehensive distribution power gear 199 drives the comprehensive distribution power shaft 193 to rotate, the comprehensive distribution power shaft 193 drives the fixed output bevel gear 190 to rotate, the fixed output bevel gear 190 drives the fixed rear transmission bevel gear 191 to rotate, the fixed rear transmission bevel gear 191 drives the fixed power transmission shaft 153 to rotate, the fixed power transmission shaft 153 drives the fixed front transmission bevel gear 152 to rotate, the fixed front transmission bevel gear 152 drives the fixed upper transmission bevel gear 151 to rotate, the fixed upper transmission bevel gear 151 drives the fixed power spline housing 148 to rotate, the fixed power spline housing 148 drives the fixed power spline shaft 142 to rotate, and the fixed power spline shaft 142 drives the fixed lower transmission bevel gear 141 to rotate, the fixed lower transmission bevel gear 141 drives the fixed input bevel gear 139 to rotate, the fixed input bevel gear 139 drives the fixed rotating shaft 140 to rotate, the fixed rotating shaft 140 drives the fixed carrier roller 137 to rotate, meanwhile, the fixed power spline shaft 142 drives the synchronous driving pulley 143 to rotate, the synchronous driving pulley 143 drives the synchronous driven pulley 146 to rotate, the synchronous driven pulley 146 drives the left fixed carrier roller 137 to rotate, meanwhile, the comprehensive distribution power shaft 193 drives the slurry brushing driving pulley 194 to rotate, the slurry brushing driving pulley 194 drives the slurry brushing driven pulley 187 to rotate, the slurry brushing driven pulley 187 drives the mounting comprehensive shaft 186 to rotate, the mounting comprehensive shaft 186 drives the conversion driving gear 185 to rotate, and the conversion driving gear 185 drives the conversion driven gear 179 to rotate, the conversion driven gear 179 drives the slurry brushing power shaft 181 to rotate, the slurry brushing power shaft 181 drives the slurry brushing output bevel gear 182 to rotate, the slurry brushing output bevel gear 182 drives the slurry brushing input bevel gear 183 to rotate, the slurry brushing input bevel gear 183 drives the slurry brushing shaft 136 to rotate, the slurry brushing shaft 136 drives the slurry brushing carrier roller 135 to rotate, slurry is uniformly coated on the back of the 3D model, the 3D model is preliminarily matched with the rice brocade 130, meanwhile, the mounting comprehensive shaft 186 drives the pressing output bevel gear 178 to rotate, the pressing output bevel gear 178 drives the pressing input bevel gear 177 to rotate, the pressing input bevel gear 177 drives the pressing power shaft 132 to rotate, the pressing power shaft 132 drives the pressing carrier roller 133 to rotate, and the pressing carrier roller 133 and the pressing matching carrier roller 131 tightly match the 3D model with the rice brocade 130, the mounting quality is ensured, meanwhile, the comprehensive distribution power shaft 193 drives the conveying output bevel gear 165 to rotate, the conveying output bevel gear 165 drives the conveying input bevel gear 164 to rotate, the conveying input bevel gear 164 drives the conveying power transmission shaft 113 to rotate, the conveying power transmission shaft 113 drives the conveying driving pulley 114 to rotate, the conveying driving pulley 114 drives the conveying driven pulley 120 to rotate, the conveying driven pulley 120 drives the conveying power shaft 121 to rotate, the conveying power shaft 121 drives the conveying carrier roller 122 to rotate, the conveying carrier roller 122 conveys the mounted 3D model to the outside of the equipment, when the mounting is completed, the switching electromagnet 167 is energized, the switching permanent magnet slider 170 slides to the right side, and the switching permanent magnet slider 170 drives the switching rotating block 171 to slide to the right side, the switching rotary block 171 drives the sliding power spline housing 197 to slide to the right, the sliding power spline housing 197 drives the main power gear 200 to slide to the right, the main power gear 200 is disengaged from the comprehensive distribution power gear 199, the main power gear 200 is engaged with the cutting power gear 175, the main power gear 200 drives the cutting power gear 175 to rotate, the cutting power gear 175 drives the cutting power shaft 174 to rotate, the cutting power shaft 174 drives the cutting reel 173 to rotate, the cutting reel 173 drives the cutting block 116 to slide forward, the cutting block 116 drives the cutting knife 118 to slide forward, the cutting knife 118 cuts the brocade 130 which is not pasted with the 3D model, after the cutting is finished, the cutting block 116 returns to the initial position under the action of the resetting mechanism, the propulsion electromagnet 157 is powered off, the propulsion permanent magnet slider 160 drives the propulsion rod 161 to slide to the left, the propulsion rod 161 drives the fixed slider 147 to slide upwards, the fixed carrier roller 137 is disengaged from the brushing carrier roller 135, the main driving motor 195 stops working, and the device returns to the initial state.

From the above detailed analysis it can be seen that: the paste is uniformly smeared on the back of the 3D model by using the brushing carrier roller, the 3D model and the brocade are pressed and mounted by using the pressing carrier roller, the tightness of the brocade is ensured by the spring, and the mounting quality is ensured.

Therefore, the method is more reasonable and ingenious in overall structure, installation, maintenance and overhaul are all very convenient, the equipment can evenly paint paste to the back of the 3D model, workers do not need to intervene in the mounting process, the mounting quality is prevented from being uneven, the mounting quality is guaranteed, the mounting efficiency is improved, the equipment has high-efficiency automation degree in the using process, and the equipment has high use and popularization values.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a 3D model display system, includes the organism, be provided with the mounting chamber in the organism, its characterized in that: the mounting cavity is internally provided with a paste brushing device, wherein the paste brushing device comprises a fixed part and a paste brushing part, the fixed part comprises fixed carrier rollers which are arranged on the outer end wall of the fixed rotating shaft in a bilateral symmetry mode, the mounting cavity is internally provided with a fixed sliding block in a vertical sliding mode, the fixed rotating shaft is rotationally arranged in the fixed power cavity, the paste brushing part comprises paste brushing carrier rollers which are fixedly arranged on the outer end wall of the paste brushing shaft, the bottom end wall of the mounting cavity is internally provided with a paste brushing cavity, the paste brushing shaft is rotationally arranged in the paste brushing cavity, paste for mounting is arranged in the paste brushing cavity, a transmission part is arranged between the fixed part and the paste brushing part and drives the fixed part to rotate and drive the paste brushing part to rotate, and the power mechanism comprises a main power shaft and a main driving motor, a comprehensive power cavity is arranged in the rear end wall of the mounting cavity, the main power shaft is rotatably arranged in the comprehensive power cavity, the right tail end of the main power shaft is in power connection with a main driving motor fixedly arranged in the right end wall of the comprehensive power cavity, and a fixed transmission mechanism is arranged between the fixed part and the power mechanism to drive the fixed part to rotate;

a fixed rear transmission cavity is arranged in the right end wall of the comprehensive power cavity, a comprehensive distribution power shaft extending left and right is rotatably arranged between the fixed rear transmission cavity and the comprehensive power cavity, a comprehensive distribution power gear is fixedly arranged on the outer end wall of the comprehensive distribution power shaft in the comprehensive power cavity, a sliding power spline housing is arranged on the outer end wall of the main power shaft in a left and right sliding manner, a main power gear is fixedly arranged on the outer end wall of the sliding power spline housing, the main power gear is meshed with the comprehensive distribution power gear, a fixed output bevel gear is fixedly arranged at the right end of the comprehensive distribution power shaft in the fixed rear transmission cavity, a fixed front transmission cavity is arranged in the front end wall of the fixed rear transmission cavity, and a fixed power transmission shaft extending front and back is rotatably arranged between the fixed rear transmission cavity and the fixed front transmission cavity, a fixed rear transmission bevel gear is fixedly arranged at the rear end of the fixed power transmission shaft in the fixed rear transmission cavity, the fixed rear transmission bevel gear is meshed with the fixed output bevel gear, a fixed front transmission bevel gear is fixedly arranged at the front end of the fixed power transmission shaft in the fixed front transmission cavity, a fixed power spline housing extending up and down is rotatably arranged in the fixed front transmission cavity, a fixed upper transmission bevel gear is fixedly arranged at the top end of the fixed power spline housing, the fixed upper transmission bevel gear is meshed with the fixed front transmission bevel gear, a fixed power spline shaft extending up and down is rotatably arranged in the fixed power cavity, a fixed lower transmission bevel gear is fixedly arranged at the bottom end of the fixed power spline shaft, a fixed input bevel gear is fixedly arranged at the front end of the fixed rotating shaft in the fixed power cavity, the fixed input bevel gear is meshed with the fixed lower transmission bevel gear, the top of the fixed power spline shaft is matched with the bottom of the fixed power spline housing through a spline, a left synchronous belt cavity and a right synchronous belt cavity are arranged in the end wall of the top of the fixed power cavity, a synchronous driving pulley is fixedly arranged on the end wall of the outer side of the fixed power spline shaft in the left synchronous belt cavity and the right synchronous belt cavity, a synchronous driven pulley is fixedly arranged at the tail end of the top of the fixed power spline shaft on the left side, a synchronous belt is arranged between the synchronous driven pulley and the synchronous driving pulley in a transmission manner, so that the fixed 3D model and the back slurry brushing operation of the 3D model are;

a transmission belt cavity is arranged in the left end wall of the fixed rear transmission cavity, a slurry brushing driving belt wheel is fixedly arranged on the outer end wall of the comprehensive distribution power shaft in the transmission belt cavity, a slurry brushing power conversion cavity is arranged in the left end wall of the transmission belt cavity, a slurry brushing power belt is arranged between the slurry brushing power conversion cavity and the transmission belt cavity in a transmission manner, a mounting comprehensive shaft extending leftwards and rightwards is arranged in the transmission belt cavity in a rotating manner, a slurry brushing driven belt wheel is fixedly arranged at the right end of the mounting comprehensive shaft in the transmission belt cavity, a slurry brushing power belt is arranged between the slurry brushing driven belt wheel and the slurry brushing driving belt wheel in a transmission manner, a conversion driving gear is fixedly arranged on the outer end wall of the mounting comprehensive shaft in the slurry brushing power conversion cavity, a slurry brushing power cavity is arranged in the right end wall of the slurry brushing power conversion cavity, and a slurry brushing power shaft extending leftwards and rightwards is arranged, a conversion driven gear is fixedly arranged at the tail end of the left side of the slurry brushing power shaft in the slurry brushing power conversion cavity and is meshed with the conversion driving gear, a slurry brushing output bevel gear is fixedly arranged at the tail end of the right side of the slurry brushing power shaft in the slurry brushing power cavity, a slurry brushing input bevel gear is fixedly arranged at the tail end of the rear side of the slurry brushing shaft in the slurry brushing power cavity and is meshed with the slurry brushing power shaft, so that the slurry brushing carrier roller is driven to rotate synchronously, and the slurry is brushed and smeared on the back of the 3D model more uniformly;

a sliding power cavity is arranged in the end wall at the top of the mounting cavity, a sliding swing rod extending up and down is rotatably arranged in the sliding power cavity, the tail end of the top of the sliding swing rod is hinged with the end wall at the top of the sliding power cavity, a sliding sleeve rod extending up and down is arranged in the sliding power cavity, the tail end of the top of the sliding sleeve rod is hinged with the tail end of the bottom of the sliding swing rod, a sliding connecting rod extending up and down is rotatably arranged in the sliding power cavity, a re-tightening cavity is arranged in the sliding sleeve rod, the sliding connecting rod is slidably arranged in the re-tightening cavity, a re-tightening spring is elastically arranged between the end wall at the top of the sliding connecting rod and the end wall at the top of the re-tightening cavity, the tail end of the top of the sliding connecting rod is hinged with the end wall at the top of the fixed slide block, a fixed sliding groove is formed in the end wall of the top of the sliding power cavity, a pushing permanent magnet sliding block is arranged in the fixed sliding groove in a left-right sliding mode, a pushing reset spring is elastically arranged between the end wall of the right side of the pushing permanent magnet sliding block and the end wall of the right side of the fixed sliding groove, a pushing electromagnet is fixedly arranged in the end wall of the right side of the fixed sliding groove, a pushing rod extending up and down is arranged in the sliding power cavity, the tail end of the top of the pushing rod is hinged with the end wall of the bottom of the pushing permanent magnet sliding block, and the tail end of the bottom of the pushing rod is hinged with the tail end;

a pressing carrier roller is rotatably arranged in the mounting cavity, a pressing fit carrier roller is rotatably arranged at the bottom of the mounting cavity, the pressing fit carrier roller is matched with the pressing carrier roller, a pressing power cavity is arranged in the left end wall of the brushing power conversion cavity, a pressing power shaft extending forwards and backwards is rotatably arranged between the pressing power cavity and the mounting cavity, the pressing carrier roller is fixedly arranged on the outer end wall of the pressing power shaft, a pressing input bevel gear is fixedly arranged at the rear end of the pressing power shaft in the pressing power cavity, a pressing output bevel gear is fixedly arranged at the left end of the mounting comprehensive shaft in the pressing power cavity and meshed with the pressing input bevel gear, a brocade cavity is arranged in the bottom end wall of the mounting cavity, a brocade shaft is rotatably arranged in the brocade cavity, and a brocade sleeve shaft is rotatably arranged on the outer end wall of the brocade shaft, a reset cavity is arranged in the brocade sleeve shaft, a clockwork spring is elastically arranged between the inner side end wall of the reset cavity and the outer side end wall of the brocade shaft, a brocade section is arranged on the outer side end wall of the brocade sleeve shaft, and a brocade is arranged between the pressing carrier roller and the brocade section, so that the 3D model after the slurry brushing is favorably mounted on the brocade in a rotating way and is pressed and fixed;

a conveying power cavity is arranged in the end wall of the top of the mounting cavity, a conveying power shaft extending forwards and backwards is rotatably arranged between the conveying power cavity and the mounting cavity, a conveying carrier roller is fixedly arranged on the end wall of the outer side of the conveying power shaft in the mounting cavity, a conveying auxiliary carrier roller is rotatably arranged in the mounting cavity, the conveying auxiliary carrier roller is matched with the conveying carrier roller, a conveying driven belt wheel is fixedly arranged at the tail end of the front side of the conveying power shaft in the conveying power cavity, a conveying power transmission cavity is arranged in the wall of the rear side end of the conveying power cavity, a conveying power transmission shaft extending forwards and backwards is rotatably arranged between the conveying power transmission cavity and the conveying power cavity, a conveying driving belt wheel is fixedly arranged at the tail end of the front side of the conveying power transmission shaft in the conveying power cavity, and a conveying power belt is arranged between the conveying driving belt wheel and the conveying driven, a conveying input bevel gear is fixedly arranged at the tail end of the rear side of the conveying power transmission cavity, a conveying output bevel gear is fixedly arranged at the tail end of the left side of the comprehensive distribution power shaft in the conveying power transmission cavity, and the conveying output bevel gear is meshed with the conveying input bevel gear, so that the mounted 3D model can be synchronously conveyed out of the equipment;

a cutting block which slides back and forth is arranged in the mounting cavity, a cutting cavity is arranged in the cutting block, a cutting knife is rotatably arranged in the cutting cavity, a cutting power cavity is arranged in the end wall of the bottom of the comprehensive power cavity, a cutting power shaft which extends left and right is rotatably arranged between the cutting power cavity and the comprehensive power cavity, a cutting reel is fixedly arranged at the tail end of the left side surface of the cutting power shaft in the cutting power cavity, a cutting power gear is fixedly arranged at the tail end of the right side of the cutting power shaft in the comprehensive power cavity, the cutting power gear is separated from the driving power gear, a transmission rope is arranged between the cutting reel and the cutting block in a transmission manner, and an elastic reset mechanism is arranged in the wall of the front side end of the cutting block, so that the cutting knife can be driven to slide back and forth;

the utility model discloses a switching power spline housing, including comprehensive power chamber, switching sliding tray, switching permanent magnet slider, switching sliding tray left side end wall, switching permanent magnet slider and switching rotating tray fixed connection, switching permanent magnet slider left side end wall with elasticity is provided with switches reset spring between the sliding tray left side end wall, switching sliding tray left side end wall internal fixation is provided with the switching electro-magnet, is favorable to controlling cutting device horizontal slip, and the power spline housing that slides from side to side is provided with the switching rotating block, the slip power spline housing rotate set up in on the switching rotating block, be provided with the switching sliding tray in the comprehensive power chamber left side.