CN112927597A - Building model processing system and method - Google Patents

Abstract

The invention relates to the technical field of model processing equipment, in particular to a building model processing system and a method, which have the advantage of assisting in fixing a building model plate, and the method for processing a building model by the building model processing system comprises the following steps: s1: placing the building model processing system at a position for processing the building model; s2: clamping a plate required by the building model through two clamping assemblies; s3: vertical edge polishing and gluing are carried out on the clamped plate through the processing assembly; s4: and (3) sticking the two clamped plates to a fixed position to realize the processing of the building model.

Description

Building model processing system and method

Technical Field

The invention relates to the technical field of model processing equipment, in particular to a building model processing system and a building model processing method.

Background

At present, with the development of social economy, the importance of urban houses can become a target for one person or even one family to fight for the whole life, the importance of urban houses is self-evident, so that the quality of houses and the building quality are particularly important, generally, before houses are built, a plurality of series of building house models need to be manufactured and are firstly referred by building users, so that the excellent building models can seriously affect the impression of the users on later buildings, the quality of the building models is very important, the processing of the existing building models needs manual manufacturing by personnel, the processing of one person is difficult, and the processing efficiency is low. The invention provides a processing system with a function of assisting in fixing a building model plate.

Disclosure of Invention

The invention aims to provide a building model processing system and a method, which have the advantage of assisting in fixing a building model plate.

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

a building model processing system comprises a driving component, a rotating component, a lifting component, a clamping component, an adjusting component and a processing component, the utility model discloses a processing assembly, including runner assembly, drive assembly, lifting component, elevating system, two elevating system all pass through screw drive with the runner assembly, clamping assembly is provided with two, equal sliding connection has clamping assembly on two elevating system, two elevating system all pass through screw drive with the runner assembly around the runner assembly, two elevating system all pass through screw drive with the clamping assembly that it corresponds, adjusting assembly is provided with two, equal fixedly connected with adjusting part on two clamping assembly, processing assembly is provided with a plurality ofly, the equal fixedly connected with processing subassembly in both ends about two adjusting part, two adjusting part all mesh the transmission rather than the processing subassembly that corresponds.

The driving assembly comprises a base, rotating motors and rotating gears, the base is fixedly connected with the two rotating motors, and the output shafts of the two rotating motors are fixedly connected with the rotating gears.

The runner assembly is including rotating the base, rotate the ring gear, rotate the fixing base, sliding motor, the slip screw, slip gear and synchronous ring gear, it connects on the base to rotate the base, fixedly connected with rotates the ring gear on the rotation base, it is meshing transmission to rotate ring gear and two rotating gear, fixedly connected with rotates the fixing base on the rotation base, it is connected with two slip screw to rotate on the fixing base, the equal fixedly connected with sliding base in front and back both ends of rotation base, fixedly connected with sliding motor on one of them sliding base, sliding motor's output shaft fixed connection is on one of them slip screw, equal fixedly connected with slip gear on two slip screws, synchronous ring gear rotates and connects on rotating the fixing base, synchronous ring gear and two equal meshing transmissions of slip gear.

The lifting assembly comprises a lifting base, a lifting motor and a lifting screw rod, the lifting base is fixedly connected with the lifting motor, the lifting screw rod is fixedly connected onto an output shaft of the lifting motor, the lifting base is connected into the two sliding bases in a sliding mode, and the two lifting bases are in threaded transmission with the two sliding screw rods respectively.

The clamping assembly comprises a clamping base, clamping frames and a sliding clamping block, the two clamping frames are fixedly connected to the clamping base, the sliding clamping block is connected to the clamping base in a sliding mode, the tension spring is fixedly connected between the sliding clamping block and the clamping base, the clamping bases are connected to the two lifting bases in a sliding mode, and the two clamping bases respectively transmit corresponding lifting screws through threads.

The adjusting part comprises an adjusting base, an adjusting motor, an adjusting gear, racks, a processing base plate, a polishing shaft and a processing gear, the adjusting base is fixedly connected with the adjusting motor, the adjusting gear is fixedly connected with an output shaft of the adjusting motor, the adjusting base is connected with two racks in a sliding mode, the two racks are all meshed with the adjusting gear for transmission, the two racks are fixedly connected with the processing base plate, the two processing base plates are connected with two polishing shafts in a rotating mode, the multiple polishing shafts are connected with the processing gear in a fixed mode, and the two clamping bases are connected with the adjusting base in a fixed mode.

The processing subassembly is including the processing support, deposit gluey case, go out gluey flexible pipe, the fall way, scribble the rubber tube, the wheel of polishing, grinding motor, the lead screw of polishing and the drive wheel of polishing, fixedly connected with deposits gluey case on the processing support, deposit gluey flexible pipe of fixedly connected with play gluey on the case, go out gluey flexible pipe on the fixedly connected with fall way, fixedly connected with scribbles the rubber tube on the fall way, it is connected with two wheels of polishing to rotate on the fall way, grinding motor fixed connection is on the processing support, fixedly connected with polishing lead screw on grinding motor's the output shaft, fixedly connected with wheel of polishing on the lead screw of polishing, fall way and the lead screw of polishing pass through screw thread transmission, equal fixedly connected with processing support on a plurality of processing base plates, the epaxial equal sliding connection of a plurality of polishing has the wheel.

The method for processing the building model according to the building model processing system comprises the following steps:

the method comprises the following steps: placing the building model processing system at a position for processing the building model;

step two: clamping a plate required by the building model through two clamping assemblies;

step three: vertical edge polishing and gluing are carried out on the clamped plate through the processing assembly;

step four: and (3) sticking the two clamped plates to a fixed position to realize the processing of the building model.

The building model processing system and method have the beneficial effects that: the building model processing system and the method can fix the plates processed by the building model through the two clamping components to realize the auxiliary fixing of the processed building model, can also drive the rotating component to rotate through the meshing of the driving component, the rotating component drives the two lifting components to rotate, the two lifting components drive the two clamping components to rotate, the two clamping components are driven to lift through the threads of the two lifting components, and then the two lifting components are driven to slide through the threads of the rotating component to realize the adjustment of the space positions of the plates pasted by the two building models and carry out the auxiliary fixing and pasting; the positions of the corresponding processing assemblies can be adjusted through the two adjusting assemblies, so that the sticking of the two plates is not influenced by the processing assemblies; can also realize pasting the flattening of polishing of face to two panels through a plurality of processing subassemblies, area of contact is wider when guaranteeing that two panels paste, and what paste is more firm and pleasing to the eye for paste the speed.

Drawings

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

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, directly or indirectly connected through an intermediate medium, and may be a communication between two members. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

FIG. 1 is a schematic diagram of the overall construction of a building model processing system and method of the present invention;

FIG. 2 is a schematic structural view of the drive assembly of the present invention;

FIG. 3 is a schematic view of the construction of the rotating assembly of the present invention;

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

FIG. 5 is a schematic structural view of the clamping assembly of the present invention;

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

FIG. 7 is a schematic view of another aspect of the adjustment assembly of the present invention;

FIG. 8 is a schematic view of the construction of the processing assembly of the present invention.

In the figure: a drive assembly 1; a base 101; a rotating electric machine 102; a rotating gear 103; a rotating assembly 2; a rotating base 201; rotating ring gear 202; a rotary fixing seat 203; a slide base 204; a slide motor 205; a sliding screw 206; a slide gear 207; a synchronizer ring 208; a lifting assembly 3; a lifting base 301; a lift motor 302; a lifting screw 303; a clamping assembly 4; a clamp base 401; a clamping frame 402; a sliding clamp block 403; an adjustment assembly 5; an adjustment base 501; a conditioning motor 502; an adjustment gear 503; a rack 504; processing the substrate 505; grinding the shaft 506; machining a gear 507; a processing assembly 6; a processing support 601; a glue storage box 602; a glue discharging telescopic pipe 603; an elevator tube 604; glue coating pipe 605; grinding wheel 606; a grinding motor 607; grinding the lead screw 608; the drive wheel 609 is ground.

Detailed Description

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

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 8, a building model processing system includes a driving assembly 1, a rotating assembly 2, lifting assemblies 3, two clamping assemblies 4, two adjusting assemblies 5 and a processing assembly 6, the rotating assembly 2 is rotatably connected to the driving assembly 1, the driving assembly 1 and the rotating assembly 2 are driven in a meshing manner, the lifting assemblies 3 are provided, the two lifting assemblies 3 are respectively connected to the front side and the rear side of the rotating assembly 2 in a sliding manner, the two lifting assemblies 3 are in threaded transmission with the rotating assembly 2, the two clamping assemblies 4 are provided, the two clamping assemblies 3 are in threaded transmission with the corresponding clamping assemblies 4, the two adjusting assemblies 5 are provided, the two clamping assemblies 4 are fixedly connected with the adjusting assemblies 5, the processing assembly 6 is provided with a plurality of adjusting assemblies, two adjusting part 5 about both ends equal fixedly connected with processing subassembly 6, two adjusting part 5 all with its processing subassembly 6 meshing transmission that corresponds.

The plate processed by the building model can be fixed through the two clamping assemblies 4, so that the auxiliary fixing of the processed building model is realized, the driving assembly 1 can be meshed with the driving rotating assembly 2 to drive the rotating assembly 2 to rotate, the rotating assembly 2 drives the two lifting assemblies 3 to rotate, the two lifting assemblies 3 drive the two clamping assemblies 4 to rotate, the two lifting assemblies 3 are used for driving the two clamping assemblies 4 to ascend and descend in a threaded manner, and then the rotating assembly 2 is used for driving the two lifting assemblies 3 to slide in a threaded manner, so that the adjustment of the space positions of the two building model pasting plates is realized, and the auxiliary fixing and pasting are realized; the positions of the corresponding processing assemblies 6 can be adjusted through the two adjusting assemblies 5, so that the plurality of processing assemblies 6 do not affect the adhesion of the two plates; can also realize pasting the flattening of polishing of face to two panels through a plurality of processing subassemblies 6, area of contact is wider when guaranteeing that two panels paste, and what paste is more firm and pleasing to the eye for paste the speed.

The second embodiment is as follows:

referring to fig. 1-8, the driving assembly 1 includes a base 101, two rotating motors 102 and a rotating gear 103, wherein the base 101 is fixedly connected with the two rotating motors 102, and output shafts of the two rotating motors 102 are fixedly connected with the rotating gear 103.

Two rotating motors 102 are started, the two rotating motors 102 drive two rotating gears 103 to rotate, and the two rotating gears 103 are meshed with each other to drive the rotating assembly 2 to rotate, so that the position adjustment of two adhered plates is realized.

The third concrete implementation mode:

referring to fig. 1-8, the embodiment is described, where the rotating assembly 2 includes a rotating base 201, a rotating ring gear 202, a rotating fixing base 203, a sliding base 204, a sliding motor 205, two sliding screws 206, a sliding gear 207 and a synchronizing ring gear 208, the rotating base 201 is rotatably connected to the base 101, the rotating ring gear 202 is fixedly connected to the rotating base 201, the rotating ring gear 202 and the two rotating gears 103 are both in mesh transmission, the rotating fixing base 203 is fixedly connected to the rotating base 201, the two sliding screws 206 are rotatably connected to the rotating fixing base 203, the sliding bases 204 are fixedly connected to the front and rear ends of the rotating base 201, the sliding motor 205 is fixedly connected to one of the sliding bases 204, an output shaft of the sliding motor 205 is fixedly connected to one of the sliding screws 206, the sliding gears 207 are fixedly connected to both of the two sliding screws 206, the synchronizing ring gear 208 is rotatably connected to, the synchronizing ring gear 208 and the two sliding gears 207 are in mesh transmission.

The two rotating gears 103 are meshed with each other to drive the rotating gear ring 202 to rotate, the rotating gear ring 202 drives the rotating base 201 to rotate, the rotating base 201 drives the two lifting components 3 and the two clamping components 4 to rotate, so that the two plates rotate, the two plates rotate to the direction in which the two plates are to be pasted, the plates are convenient to paste, after glue is coated, the sliding motor 205 is started, the sliding motor 205 drives the corresponding sliding screw 206 to rotate, the sliding screw 206 drives the sliding gear 207 fixedly connected with the sliding screw, the sliding gear 207 is meshed with the synchronous gear ring 208 to drive the other sliding gear 207 to rotate, the other sliding gear 207 drives the other sliding screw 206 to rotate, the two sliding screws 206 drive the two lifting bases 301 to slide in the two sliding bases 204 through threads, and the two lifting components 3 are matched to drive the two clamping components 4 to lift through threads, and then the two adjusting components 5 are used for adjusting the plurality of processing components 6 to slide to the positions which do not influence the adhesion of the plates, so that the height adjustment of the two plates is realized, the adhesion of the two plates is realized, the building model processing system is restored to the state of next adhesion of the plates, and the adhesion of the next plate is carried out.

The fourth concrete implementation mode:

referring to fig. 1-8, the lifting assembly 3 includes a lifting base 301, a lifting motor 302 and a lifting screw 303, the lifting base 301 is fixedly connected with the lifting motor 302, an output shaft of the lifting motor 302 is fixedly connected with the lifting screw 303, the lifting bases 301 are slidably connected in the two sliding bases 204, and the two lifting bases 301 are respectively in threaded transmission with the two sliding screws 206.

Two lifting motor 302 are started, two lifting motor 302 drive two lifting screw 303 and rotate, two lifting screw 303 slide on two lifting base 301 through two clamping base 401 of screw drive, realize the lift of two clamping base 401 to realize two regulations of pasting the position height, thereby realize adjusting two panels to the height that needs are pasted.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 8, the clamping assembly 4 includes a clamping base 401, two clamping frames 402 and a sliding clamping block 403, the clamping base 401 is fixedly connected with the two clamping frames 402, the sliding clamping block 403 is slidably connected to the clamping base 401, a tension spring is fixedly connected between the sliding clamping block 403 and the clamping base 401, the two lifting bases 301 are both slidably connected with the clamping base 401, and the two clamping bases 401 are respectively in threaded transmission with the corresponding lifting screws 303.

The plate material for processing the building model is placed between the two sliding clamping blocks 403 and the corresponding clamping frame 402, and the two sliding clamping blocks 403 pull the two sliding clamping blocks 403 tightly to clamp and fix the plate material through the tension springs on the two sliding clamping blocks 403.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1 to 8, where the adjusting assembly 5 includes an adjusting base 501, an adjusting motor 502, an adjusting gear 503, a rack 504, a processing base plate 505, a polishing shaft 506, and a processing gear 507, the adjusting base 501 is fixedly connected with the adjusting motor 502, the output shaft of the adjusting motor 502 is fixedly connected with the adjusting gear 503, the adjusting base 501 is slidably connected with two racks 504, the two racks 504 are respectively engaged with the adjusting gear 503 for transmission, the two racks 504 are respectively fixedly connected with the processing base plate 505, the two processing base plates 505 are respectively rotatably connected with two polishing shafts 506, the polishing shafts 506 are respectively fixedly connected with the processing gear 507, and the two clamping bases 401 are respectively fixedly connected with the adjusting base 501.

Two adjusting motors 502 are started, the two adjusting motors 502 drive two adjusting gears 503 to rotate, the two adjusting gears 503 are meshed with and drive the corresponding racks 504 to slide, the plurality of racks 504 pull the corresponding processing base plates 505 to slide, and the plurality of processing base plates 505 drive the plurality of grinding shafts 506 and the plurality of processing assemblies 6 to slide oppositely, so that the plurality of processing assemblies 6 slide to two sides of the plate.

The seventh embodiment:

the embodiment is described below with reference to fig. 1 to 8, the processing assembly 6 includes a processing bracket 601, a glue storage tank 602, a glue outlet telescopic tube 603, an elevating tube 604, a glue coating tube 605, a polishing wheel 606, a polishing motor 607, a polishing lead screw 608 and a polishing driving wheel 609, the processing bracket 601 is fixedly connected with the glue storage tank 602, the glue outlet telescopic tube 603 is fixedly connected with the elevating tube 604, the elevating tube 604 is fixedly connected with the glue coating tube 605, the elevating tube 604 is rotatably connected with two polishing wheels 606, the polishing motor 607 is fixedly connected with the processing bracket 601, the output shaft of the polishing motor 607 is fixedly connected with the polishing lead screw 608, the polishing driving wheel 609 is fixedly connected with the polishing lead screw 608, the elevating tube 604 and the polishing lead screw 608 are in threaded transmission, the processing brackets 601 are fixedly connected with a plurality of processing substrates 505, and the polishing wheels 606 are slidably connected with a plurality of, the grinding driving wheels 609 are in meshed transmission with the two corresponding machining gears 507.

The grinding motors 607 are started, the grinding motors 607 drive the grinding screws 608 to rotate, the grinding screws 608 drive the grinding driving wheels 609 to rotate, the grinding driving wheels 609 drive the processing gears 507 to rotate in a meshed manner, the processing gears 507 drive the grinding shafts 506 to rotate, the grinding shafts 506 drive the grinding wheels 606 to rotate, the grinding wheels 606 grind the adhered edges of the two clamped plates, the grinding screws 608 drive the corresponding lifting pipes 604 to lift through threads, the lifting pipes 604 drive the grinding wheels 606 to lift, so that the two adhered edges of the plates are completely ground up and down, the adhered edges are ground more smoothly, the contact area is wider during adhering, the adhering is firmer and more attractive, when the grinding motors 607 are started, glue adding devices are arranged in the glue storage boxes 602, the glue adding devices in the glue storage boxes 602 are started, so that glue flows into the glue coating tubes 605 through the glue outlet telescopic tubes 603 and the lifting tubes 604 and flows out of the glue coating tubes to be coated on the two polished plates, and subsequent pasting is facilitated.

The specific implementation mode is eight:

the method for processing the building model according to the building model processing system of the embodiment is described below with reference to fig. 1 to 8, and comprises the following steps:

the method comprises the following steps: placing the building model processing system at a position for processing the building model;

step two: the plates required by the building model are clamped and processed through the two clamping assemblies 4;

step three: vertical edge polishing and gluing are carried out on the clamped plate through the processing assembly 6;

step four: and (3) sticking the two clamped plates to a fixed position to realize the processing of the building model.

The invention relates to a building model processing system and a method, and the using principle is as follows: the building model processing system is placed at a place where a building model is processed, a plate for processing the building model is placed between two sliding clamping blocks 403 and corresponding clamping frames 402, the two sliding clamping blocks 403 pull the two sliding clamping blocks 403 to tightly clamp and fix the plate through tension springs on the two sliding clamping blocks, two rotating motors 102 are started, the two rotating motors 102 drive two rotating gears 103 to rotate, the two rotating gears 103 are meshed to drive a rotating gear ring 202 to rotate, the rotating gear ring 202 drives a rotating base 201 to rotate, the rotating base 201 drives two lifting assemblies 3 and two clamping assemblies 4 to rotate, so that the two plates rotate to the direction in which the two plates are to be adhered, the plate is convenient to adhere, the two lifting motors 302 are started, the two lifting motors 302 drive two lifting screw rods 303 to rotate, the two lifting screw rods 303 drive the two clamping bases 401 to slide on the two lifting bases 301 through threads, the lifting of the two clamping bases 401 is realized, so that the height adjustment of two sticking positions is realized, so that two plates are adjusted to the height required to be stuck, the two adjusting motors 502 are started, the two adjusting motors 502 drive the two adjusting gears 503 to rotate, the two adjusting gears 503 are meshed with and drive the corresponding racks 504 to slide, the plurality of racks 504 pull the corresponding processing substrates 505 to slide, the plurality of processing substrates 505 drive the plurality of grinding shafts 506 and the plurality of processing assemblies 6 to slide oppositely, so that the plurality of processing assemblies 6 slide to two sides of the plates, the plurality of grinding motors 607 are started, the plurality of grinding motors 607 drive the plurality of grinding screw rods 608 to rotate, the plurality of grinding screw rods 608 drive the plurality of grinding driving wheels 609 to rotate, the plurality of grinding driving wheels 609 are meshed with and drive the plurality of processing gears 507 to rotate, the plurality of processing gears 507 drive the plurality of grinding shafts 506 to rotate, the grinding shafts 506 drive the grinding wheels 606 to rotate, the grinding wheels 606 grind the adhered edges of the two clamped plates, the grinding screws 608 drive the corresponding lifting pipes 604 to lift through threads, the lifting pipes 604 drive the grinding wheels 606 to lift, so that the two adhered edges of the plates are completely ground up and down, the adhered edges are more smooth and flat, the contact area is wider during adhering, the adhering is firmer and more attractive, when the grinding motors 607 are started, glue adding devices are arranged in the glue storage boxes 602, the glue adding devices in the glue storage boxes 602 are started, glue flows into the glue coating tubes 605 through the glue outlet telescopic tubes 603 and the lifting pipes 604 to flow out and coat the glue coating tubes 605 on the two polished plates, subsequent adhering is facilitated, after the glue is coated, the sliding motor 205 is started, the sliding motor 205 drives the corresponding sliding screw 206 to rotate, the sliding screw 206 drives the sliding gear 207 fixedly connected with the sliding screw to rotate, the sliding gear 207 is meshed with and drives the synchronous gear ring 208 to rotate, the synchronous gear ring 208 is meshed with and drives the other sliding gear 207 to rotate, the other sliding gear 207 drives the other sliding screw 206 to rotate, the two sliding screws 206 drive the two lifting bases 301 to slide in the two sliding bases 204 through threads, the two lifting assemblies 3 are matched to drive the two clamping assemblies 4 to lift through the threads, and the two adjusting assemblies 5 are used for adjusting the plurality of processing assemblies 6 to slide to positions which do not affect plate adhesion, so that height adjustment of the two plates is realized, adhesion of the two plates is realized, the building model processing system is restored to the state of next plate adhesion, and next plate adhesion is carried out.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (8)

1. The utility model provides a building model system of processing, includes drive assembly (1), runner assembly (2), lifting unit (3), clamping component (4), adjusting part (5) and processing subassembly (6), its characterized in that: rotating assembly (2) rotates to be connected on drive assembly (1), drive assembly (1) and rotating assembly (2) meshing drive, lifting unit (3) are provided with two, two lifting unit (3) sliding connection are both sides around rotating assembly (2) respectively, two lifting unit (3) all pass through screw transmission with rotating assembly (2), clamping assembly (4) are provided with two, equal sliding connection has clamping component (4) on two lifting unit (3), two lifting unit (3) all pass through screw transmission with clamping component (4) that it corresponds, adjusting component (5) are provided with two, equal fixedly connected with adjusting part (5) on two clamping component (4), processing subassembly (6) are provided with a plurality ofly, the equal fixedly connected with processing subassembly (6) in both ends about two adjusting part (5), two adjusting part (5) all mesh transmission rather than processing subassembly (6) that correspond.

2. The building model processing system of claim 1, wherein: the driving assembly (1) comprises a base (101), rotating motors (102) and rotating gears (103), wherein the base (101) is fixedly connected with the two rotating motors (102), and output shafts of the two rotating motors (102) are fixedly connected with the rotating gears (103).

3. The building model processing system of claim 2, wherein: the rotating assembly (2) comprises a rotating base (201), a rotating gear ring (202), a rotating fixing seat (203), a sliding base (204), a sliding motor (205), a sliding screw (206), a sliding gear (207) and a synchronous gear ring (208), wherein the rotating base (201) is rotatably connected to the base (101), the rotating gear ring (202) is fixedly connected to the rotating base (201), the rotating gear ring (202) and the two rotating gears (103) are in meshing transmission, the rotating fixing seat (203) is fixedly connected to the rotating base (201), the two sliding screws (206) are rotatably connected to the rotating fixing seat (203), the sliding bases (204) are fixedly connected to the front end and the rear end of the rotating base (201), one sliding base (204) is fixedly connected to the sliding motor (205), and an output shaft of the sliding motor (205) is fixedly connected to one sliding screw (206), sliding gears (207) are fixedly connected to the two sliding screws (206), a synchronous gear ring (208) is rotatably connected to the rotating fixing seat (203), and the synchronous gear ring (208) and the two sliding gears (207) are in meshing transmission.

4. A building model processing system according to claim 3, wherein: lifting unit (3) are including lift base (301), elevator motor (302) and lifting screw (303), fixedly connected with elevator motor (302) on lift base (301), fixedly connected with lifting screw (303) on the output shaft of elevator motor (302), equal sliding connection has lift base (301) in two slide base (204), and two lift bases (301) pass through screw drive with two slide screw (206) respectively.

5. The construction model machining system according to claim 4, wherein: the clamping assembly (4) comprises a clamping base (401), clamping frames (402) and a sliding clamping block (403), wherein the clamping base (401) is fixedly connected with the two clamping frames (402), the sliding clamping block (403) is connected to the clamping base (401) in a sliding mode, the sliding clamping block (403) and the clamping base (401) are fixedly connected with tension springs, the two lifting bases (301) are all connected with the clamping base (401) in a sliding mode, and the two clamping bases (401) are respectively in threaded transmission with corresponding lifting screw rods (303).

6. The building model processing system of claim 5, wherein: adjusting part (5) is including adjusting base (501), accommodate motor (502), adjusting gear (503), rack (504), processing base plate (505), polish axle (506) and processing gear (507), fixedly connected with accommodate motor (502) on adjusting base (501), fixedly connected with adjusting gear (503) on the output shaft of adjusting motor (502), sliding connection has two racks (504) on adjusting base (501), two racks (504) all with adjusting gear (503) meshing transmission, equal fixedly connected with processing base plate (505) on two racks (504), all rotate on two processing base plate (505) and be connected with two and polish axle (506), equal fixedly connected with processing gear (507) on a plurality of shafts of polishing (506), equal fixedly connected with adjusting base (501) on two clamp bases (401).

7. The building model processing system of claim 6, wherein: the processing assembly (6) comprises a processing support (601), a glue storage box (602), a glue discharging telescopic pipe (603), a lifting pipe (604), a glue coating pipe (605), a polishing wheel (606), a polishing motor (607), a polishing lead screw (608) and a polishing driving wheel (609), the processing support (601) is fixedly connected with the glue storage box (602), the glue storage box (602) is fixedly connected with the glue discharging telescopic pipe (603), the glue discharging telescopic pipe (603) is fixedly connected with the lifting pipe (604), the lifting pipe (604) is fixedly connected with the glue coating pipe (605), the lifting pipe (604) is rotatably connected with two polishing wheels (606), the polishing motor (607) is fixedly connected with the processing support (601), the output shaft of the polishing motor (607) is fixedly connected with the polishing lead screw (608), the polishing driving wheel (609) is fixedly connected with the polishing lead screw (608), and the lifting pipe (604) and the polishing lead screw (608) are in threaded transmission, all fixedly connected with processing support (601) on a plurality of processing base plates (505), all sliding connection has grinding wheel (606) on a plurality of axle (506) of polishing, and a plurality of drive wheel (609) of polishing all with two corresponding processing gear (507) meshing transmission.

8. The method of claim 7, wherein the building model processing system is further configured to: the method comprises the following steps:

the method comprises the following steps: placing the building model processing system at a position for processing the building model;

step two: plates required by the building model are clamped and processed through the two clamping assemblies (4);

step three: vertical edge polishing and gluing are carried out on the clamped plate through a processing assembly (6);

step four: and (3) sticking the two clamped plates to a fixed position to realize the processing of the building model.

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