CN112732213A

CN112732213A - Indoor design imaging processing device and method for data synchronization

Info

Publication number: CN112732213A
Application number: CN202110082068.9A
Authority: CN
Inventors: 郭强; 杜海滨; 朱淳
Original assignee: Shenzhen Technology University
Current assignee: Shenzhen Technology University
Priority date: 2021-01-21
Filing date: 2021-01-21
Publication date: 2021-04-30
Anticipated expiration: 2041-01-21
Also published as: CN112732213B

Abstract

The invention discloses an indoor design imaging processing device for data synchronization, which comprises a fixed seat, wherein a bottom cavity is arranged at the middle position of the bottom end of the fixed seat, a top cavity is arranged at the middle position of the top end of the fixed seat, a connecting hole is formed in the middle of the fixed seat in a penetrating manner, and a projection assembly is arranged in the middle of the fixed seat. The utilization rate of the protective seat is improved.

Description

Indoor design imaging processing device and method for data synchronization

Technical Field

The invention relates to the technical field of indoor design, in particular to an indoor design imaging processing device and method for data synchronization.

Background

The indoor design is that according to the use property, environment and corresponding standard of the building, the material technical means and the building design principle are applied, the indoor environment which has reasonable function and meets the requirements of people on material and mental life is created, the space environment has use value and meets the corresponding functional requirements, the current indoor design usually needs to be measured and shot on site firstly, then the design imaging is carried out, and a projection lens is generally adopted to carry out plane projection imaging in the imaging design imaging process;

but present indoor design imaging processing apparatus only can design through the computer, and inconvenient carries out the projection when the design, and the designer can't reach personally on the spot design sensation, and consequently indoor design can't laminate user's operation requirement more in the details, and whole imaging effect is poor, and can't in time synchronize to the designer behind the on-the-spot data acquisition, has reduced the progress of design.

Disclosure of Invention

The invention provides an indoor design imaging processing device and method for data synchronization, which can effectively solve the problems that the existing indoor design imaging processing device can only be designed through a computer, projection is inconvenient to carry out during design, and designers cannot achieve the personally on-the-spot design feeling, so that the indoor design cannot be more suitable for the use requirements of users in detail, the overall imaging effect is poor, the on-site data cannot be synchronized to the designers in time after being acquired, and the design progress is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: an indoor design imaging processing device for data synchronization comprises a fixed seat, wherein a bottom cavity is formed in the middle of the bottom end of the fixed seat, a top cavity is formed in the middle of the top end of the fixed seat, a connecting hole is formed in the middle of the fixed seat in a penetrating mode, and a projection assembly is installed in the middle of the fixed seat;

the projection assembly comprises a hydraulic cylinder, a fixed cylinder, a lifting rod, a projection lens, a fixed hole, a fixed baffle, a limiting plate, a threaded rod, a protective seat, a baffle ring and a containing groove;

a hydraulic cylinder is fixedly installed inside the bottom cavity, a fixed cylinder is welded at the top end of an output shaft of the hydraulic cylinder, a lifting rod is connected inside the fixed cylinder in a sliding mode, projection lenses are installed on the side end face and the top end of the lifting rod, the input end of the projection lens is electrically connected with the output end of an external power supply, a fixed hole is formed in the side end face of the fixed cylinder, fixed baffles are welded at the top end and the bottom end of the fixed hole, a limiting plate is welded at the position, corresponding to the fixed hole, in the middle of the lifting rod, a threaded rod is connected with the middle of the limiting plate in a threaded mode, a protective seat is sleeved on the outer side of the bottom of the fixed cylinder, a retaining ring is;

the top cavity is internally provided with a collecting assembly, and the outer side end face of the fixing seat is provided with an imaging processing assembly.

According to the technical scheme, the threaded hole is formed in the middle of the limiting plate, the threaded rod is connected to the inside of the threaded hole in a meshed mode, the rotating hole is formed in the middle of the fixing baffle at the bottom end of the fixing hole, the bottom of the threaded rod is sleeved to the inside of the rotating hole, and the top end of the threaded rod is rotatably installed at the bottom end of the fixing baffle at the top end of the fixing hole.

According to the technical scheme, the collecting assembly comprises a rotating ring, a driving gear, a motor, a mounting frame, a supporting rod, a mounting rod, a limiting arc plate, a fixed pipe, a handheld rod, a clamping circular groove, a clamping chute, a positioning plate, a positioning rod and a positioning spring;

the top end of the inner side of the top cavity is rotatably provided with a rotating ring corresponding to the bottom end of the baffle ring, one of the accommodating grooves is internally welded with a mounting frame, the middle part of the mounting frame is sleeved and fixed with a motor, the outer part of an output shaft of the motor is sleeved with a driving gear, the input end of the motor is electrically connected with the output end of an external power supply, the top end of the rotating ring is welded with a supporting rod, the top end of the supporting rod is fixedly connected with a mounting rod through a screw, the outer side of the middle part of the mounting rod is sleeved with a limiting arc plate, a fixing pipe is welded at the position of one end part of the mounting rod far away from the supporting rod, a handheld rod is clamped inside the fixing pipe, a clamping circular groove is arranged at the bottom of the handheld rod, a clamping chute is arranged, and a positioning spring is welded outside one end of the positioning plate.

According to the technical scheme, a movable hole is formed in the position, corresponding to the fixed pipe, of the top end of the installation rod in a penetrating mode, the bottom of the handheld rod is clamped inside the movable hole, and the top end of the handheld rod is provided with the pan-tilt camera;

the driving gear is meshed with the inner side of the rotating ring through the insections;

locating lever one end is the inclined plane structure, the inboard inclined plane of joint chute and the laminating of locating lever tip inclined plane slip, the locating lever joint is inside in the joint circular slot, positioning spring one end welds in locating plate side end face, the positioning spring other end welds and is close to spacing arc board position department in the bracing piece tip.

According to the technical scheme, the imaging processing assembly comprises a sliding rod, an embedding hole, a protective shell, a connecting rod, an embedding rod, a rotating stop rod, a connecting ball cylinder, an L-shaped rod, a magnetic attraction rod, a rotating iron ball, a magnetic attraction groove and an imaging control screen;

the utility model discloses a magnetic field control device, including fixing base, sliding rod, connecting rod bottom, connecting rod end, magnet control screen, imaging control screen and external control ware, the outside end face slidable mounting of fixing base has the sliding rod, the embedding hole has been seted up at the sliding rod middle part, the one end welding of sliding rod has the protecting crust, the outside end face of fixing base corresponds sliding rod position department welding has the connecting rod, the connecting rod bottom corresponds embedding hole position department welding has the embedding pole, the outer end face of embedding pole bottom rotates and has cup jointed and rotate the pin, the welding of connecting rod tip has the connecting ball section of thick bamboo, the welding of connecting ball section of thick bamboo top has L type pole, L type pole tip slip joint has the magnet pole, the inside rotation of connecting ball section of thick bamboo is connected with rotates the iron ball.

According to the technical scheme, a fixed block is installed on the rear end face of the imaging control screen, the fixed block is welded outside the rotating iron ball, an arc-shaped connecting groove is formed in the top of the connecting ball cylinder, and the fixed block is clamped inside the arc-shaped connecting groove;

the bottom end of the magnetic attraction rod and the inside of the magnetic attraction groove are all connected with strong magnet pieces in a gluing mode.

According to the technical scheme, the method comprises the following imaging processing steps:

s1, firstly, surveying indoor layout of indoor design on site, shooting video data by using a camera, and measuring indoor size;

s2, transmitting the data collected on the spot to an imaging control screen through a network, and performing three-dimensional drawing by a designer through a computer according to the data to construct a basic frame of the house and transmitting the basic frame to the imaging control screen for three-dimensional drawing;

s3, guiding out the constructed house frame, projecting the house frame to the wall surface and the roof around the design room through a projection lens, and performing multi-view imaging;

s4, processing the indoor designed image through an imaging control screen by a designer, and synchronously imaging the indoor designed image through a projection lens;

s5, shooting an indoor imaging picture by using a camera in the projection process, and transmitting the indoor imaging picture to an imaging control screen to simulate the multi-angle viewing condition, so that design and adjustment are facilitated;

and S6, after the design is finished, the process of indoor design is saved, and the playback and the check in the later period are facilitated.

According to the technical scheme, when the video is shot, the video is shot by rotating at the middle position in a room, then the video is shot by rotating at the middle position in a single room, and finally the video is shot independently at a close distance at the corner position;

the reference material when building the basic framework of the house comprises field investigation video material, measurement data and a floor plan.

According to the technical scheme, the house frame is led out to be a front view, a rear view, a left view, a right view and an upper view, the front view, the rear view, the left view and the right view are respectively projected on the peripheral wall surface in the design room, and the upper view is projected on the ceiling.

According to the technical scheme, the time that the camera rotates for a circle outside the imaging processing device is 8-10s, the camera lens is perpendicular to the side wall surface, after the camera lens rotates to shoot, the camera lens rotates upwards for 180 degrees to shoot and view the roof, and after the roof shooting is finished, the camera lens automatically resets.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. through setting up the pneumatic cylinder, the solid fixed cylinder, the lifter, the fixed orifices, fixed stop, the limiting plate, the threaded rod, the protection seat, keep off the ring and accomodate the groove, the pneumatic cylinder carries out the altitude mixture control to the solid fixed cylinder, the threaded rod rotates and carries out the altitude mixture control to the lifter, thereby carry out the altitude mixture control to projecting lens, make the imaging of picture better, and conveniently when not using with projecting lens withdraw to the protection seat in protect, the groove of accomodating of protection seat side provides the fixed mounting space for the motor, accomodate the protection space for the cloud platform camera provides, improve the utilization ratio of protection seat.

2. Through setting up the rotating ring, the driving gear, the bracing piece, the installation pole, handheld pole, the joint circular slot, the joint chute, the locating plate, locating lever and positioning spring, the pulling locating lever, take out handheld pole, the convenience is when shooting on the spot, it carries the shooting to take out the cloud platform camera, when formation of image, with handheld pole joint in the fixed tube inside, it is fixed that automatic extrusion locating lever makes its entering joint circular slot inside joint, then utilize the motor to drive the cloud platform camera along device rotation work, it is more convenient to make the installation dismantlement of cloud platform camera, satisfy different occasions and shoot the demand.

3. Through setting up the slide bar, the embedding hole, the protecting crust, the connecting rod, the embedding pole, rotate the pin, connect a ball section of thick bamboo and rotate the iron ball, it rotates to rotate the iron ball, the magnetic attraction pole joint, carry out angle modulation to the formation of image control screen, the slide bar slides, it is spacing to rotate the pin, make the protecting crust cup joint in the formation of image control screen outside, the convenience is adjusted the formation of image control screen to suitable use angle, protect the formation of image control screen, reduce the striking of outside object to the formation of image control screen, the life of extension formation of image control screen.

4. Carry out front view, back view, left view, right side view and top view through projection lens to indoor design and carry out synchronous formation of image, carry out data synchronization with projection lens with the design on the imaging control screen, will design fast and image, make the designer can more audio-visual effect of seeing the design, arouse the design inspiration to make the design more nimble, press close to user's user demand, thereby improve indoor design's efficiency.

5. Rotate in the device outside through the cloud platform camera and shoot, rotate and shoot the roof, will shoot the picture again and control the screen to formation of image in step, the simulation user is to looking over of indoor decoration, experiences the effect of indoor decoration from the visual angle of difference, feels the user in advance and looks over the effect, and the problem that the analysis exists to revise the adjustment to the design, reduce the modification of later stage user acceptance stage.

In summary, the pan-tilt camera is used for shooting on the spot, data is transmitted to the imaging control screen, the pan-tilt camera is installed on the imaging processing device and adjusted to the imaging control screen to a proper using angle, the projection lens is adjusted to perform multi-angle projection, so that the designed imaging effect is more real, the designer can feel personally on the scene, the pan-tilt camera is used for rotating for shooting, the user visual angle is sensed, data among the imaging control screen, the pan-tilt camera and the projection lens are synchronized in real time, convenience is brought to the design, and the imaging processing efficiency in indoor design is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic sectional view of the fixing base of the present invention;

FIG. 3 is a schematic view of the construction of the protective housing of the present invention;

FIG. 4 is a schematic view of the construction of the rotating ring of the present invention;

FIG. 5 is an enlarged view of area A of FIG. 4 according to the present invention;

FIG. 6 is a schematic view of the construction of the connecting ball barrel of the present invention;

FIG. 7 is a schematic view of the structure of a rotating iron ball according to the present invention;

FIG. 8 is a flowchart of the steps of the imaging process of the present invention;

reference numbers in the figures: 1. a fixed seat; 2. a bottom chamber; 3. a top chamber; 4. connecting holes;

5. a projection assembly; 501. a hydraulic cylinder; 502. a fixed cylinder; 503. a lifting rod; 504. a projection lens; 505. a fixing hole; 506. fixing a baffle plate; 507. a limiting plate; 508. a threaded rod; 509. a protective seat; 510. a baffle ring; 511. a receiving groove;

6. a collection assembly; 601. a rotating ring; 602. a driving gear; 603. a motor; 604. a mounting frame; 605. a support bar; 606. mounting a rod; 607. a limiting arc plate; 608. a fixed tube; 609. a hand-held wand; 610. clamping the circular groove; 611. clamping the chute; 612. positioning a plate; 613. positioning a rod; 614. a positioning spring;

7. an imaging processing component; 701. a slide bar; 702. an insertion hole; 703. a protective shell; 704. a connecting rod; 705. an embedded rod; 706. rotating the stop lever; 707. connecting the ball cylinder; 708. an L-shaped rod; 709. a magnetic attraction pole; 710. rotating the iron ball; 711. a magnetic attraction groove; 712. an imaging control screen.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-8, the present invention provides a technical solution, an indoor design imaging processing apparatus for data synchronization, including a fixing base 1, a bottom chamber 2 is disposed at a middle position of a bottom end of the fixing base 1, a top chamber 3 is disposed at a middle position of a top end of the fixing base 1, a connecting hole 4 is disposed in the middle of the fixing base 1, and a projection assembly 5 is mounted in the middle of the fixing base 1;

the projection assembly 5 comprises a hydraulic cylinder 501, a fixed cylinder 502, a lifting rod 503, a projection lens 504, a fixed hole 505, a fixed baffle 506, a limit plate 507, a threaded rod 508, a protective seat 509, a baffle ring 510 and a receiving groove 511;

a hydraulic cylinder 501 is fixedly installed inside the bottom chamber 2, a fixed cylinder 502 is welded at the top end of an output shaft of the hydraulic cylinder 501, a lifting rod 503 is connected inside the fixed cylinder 502 in a sliding manner, a projection lens 504 is installed on the side end face and the top end of the top of the lifting rod 503, the input end of the projection lens 504 is electrically connected with the output end of an external power supply, a fixed hole 505 is formed in the side end face of the fixed cylinder 502, a fixed baffle 506 is welded at the top end and the bottom end of the fixed hole 505, a limiting plate 507 is welded at the position, corresponding to the fixed hole 505, in the middle of the lifting rod 503, a threaded rod 508 is connected with the middle of the limiting plate 507 in a threaded manner, a threaded rod 508 is meshed and connected inside the threaded hole, a rotating hole is formed in the middle of the fixed baffle 506 at, the threaded rod 508 is convenient to rotate, the outer side of the bottom of the fixed cylinder 502 is sleeved with a protective seat 509, the outer end face of the bottom of the protective seat 509 is welded with a baffle ring 510, and the top end of the protective seat 509 is symmetrically provided with accommodating grooves 511;

the top chamber 3 is internally provided with a collecting assembly 6, and the outer side end face of the fixed seat 1 is provided with an imaging processing assembly 7.

According to the above technical solution, the collecting assembly 6 includes a rotating ring 601, a driving gear 602, a motor 603, a mounting bracket 604, a supporting rod 605, a mounting rod 606, a limiting arc plate 607, a fixing tube 608, a hand-held rod 609, a clamping circular groove 610, a clamping inclined groove 611, a positioning plate 612, a positioning rod 613 and a positioning spring 614;

a rotating ring 601 is rotatably installed at the position of the top end of the inner side of the top chamber 3 corresponding to the bottom end of the baffle ring 510, a mounting frame 604 is welded inside a containing groove 511, a motor 603 is fixedly sleeved in the middle of the mounting frame 604, a driving gear 602 is sleeved outside an output shaft of the motor 603, the driving gear 602 is connected with the inner side of the rotating ring 601 through a toothed meshing manner, so that the rotating ring 601 can rotate conveniently, an input end of the motor 603 is electrically connected with an output end of an external power supply, a support rod 605 is welded at the top end of the rotating ring 601, the top end of the support rod 605 is fixedly connected with a mounting rod 606 through a screw, a limiting arc plate 607 is sleeved outside the middle of the mounting rod 606, a fixing tube 608 is welded at a position far away from the support rod 605 at one end of the mounting rod 606, a hand-held rod 609 is clamped inside the, cloud platform camera is installed on handheld pole 609's top, make things convenient for the fixed of cloud platform camera, joint circular slot 610 has been seted up to handheld pole 609 bottom, joint chute 611 has been seted up to corresponding joint circular slot 610 notch position department in handheld pole 609 bottom, the welding of installation pole 606 bottom middle part has locating plate 612, locating plate 612 middle part joint has locating lever 613, locating lever 613 one end is the inclined plane structure, the inboard inclined plane of joint chute 611 and the laminating of locating lever 613 tip inclined plane slide, locating lever 613 joint is inside joint circular slot 610, make things convenient for the joint of locating lever 613 to fix handheld pole 609, the outside welding of locating plate 612 one end has positioning spring 614, positioning spring 614 one end welds in locating plate 612 side end face, the positioning spring 614 other end welds in bracing piece 605 tip and is close to spacing arc board 607 position department, make things convenient.

According to the above technical solution, the imaging processing assembly 7 includes a sliding rod 701, an insertion hole 702, a protective shell 703, a connecting rod 704, an insertion rod 705, a rotation blocking rod 706, a connecting ball cylinder 707, an L-shaped rod 708, a magnetic attraction rod 709, a rotating iron ball 710, a magnetic attraction groove 711 and an imaging control screen 712;

a sliding rod 701 is slidably mounted on the outer side end face of the fixed seat 1, an insertion hole 702 is formed in the middle of the sliding rod 701, a protective shell 703 is welded at one end of the sliding rod 701, a connecting rod 704 is welded at the position, corresponding to the sliding rod 701, of the outer side end face of the fixed seat 1, an insertion rod 705 is welded at the position, corresponding to the insertion hole 702, of the bottom end of the connecting rod 704, a rotating stop rod 706 is rotatably sleeved at the outer end face of the bottom of the insertion rod 705, a connecting ball cylinder 707 is welded at the end of the connecting rod 704, an L-shaped rod 708 is welded at the top end of the connecting ball cylinder 707, a magnetic attraction rod 709 is slidably clamped at the end of the L-shaped rod 708, a rotating iron ball 710 is rotatably connected inside the connecting ball cylinder 707, magnetic attraction grooves 711 are uniformly formed in the outer end face of the rotating iron ball 710, strong pieces are respectively glued to the bottom end of the magnetic attraction rod 709 and the, imaging control screen 712 is connected with external control ware, and the fixed block is installed to imaging control screen 712's rear end face, and the fixed block welds in rotation iron ball 710 outside, connects a ball section of thick bamboo 707 top and has seted up the arc spread groove, and the fixed block joint makes things convenient for imaging control screen 712's angle modulation inside the arc spread groove.

s2, transmitting the data collected on the spot to an imaging control screen 712 through a network, and performing three-dimensional drawing by a designer through a computer according to the data to construct a basic frame of the house and transmitting the basic frame to the imaging control screen 712 for three-dimensional drawing;

s3, guiding out the constructed house frame, projecting the house frame to the wall surface and the roof around the design room through the projection lens 504, and performing multi-view imaging;

s4, processing the indoor designed image through the imaging control screen 712 by the designer, and synchronously imaging in the design room through the projection lens 504;

s5, shooting an indoor imaging picture by using a camera in the projection process, transmitting the indoor imaging picture to the imaging control screen 712, simulating the multi-angle viewing condition, and facilitating design and adjustment;

According to the technical scheme, when video shooting is carried out, firstly shooting is carried out by rotating the indoor middle position, then shooting is carried out by rotating the indoor middle position, and finally, independent shooting is carried out on the corner position in a short distance;

According to the technical scheme, the time that the camera rotates for a circle outside the imaging processing device is 10s, at the moment, the lens of the camera is perpendicular to the side wall surface, after the camera is rotated to shoot, the lens is rotated upwards by 180 degrees to shoot and view the roof, and after the roof shooting is finished, the lens is automatically reset.

The working principle and the using process of the invention are as follows: when shooting on the spot, the positioning rod 613 is pulled to the position of the limiting arc plate 607, so that the positioning rod 613 is pulled out from the inside of the clamping circular groove 610, then the handheld rod 609 is pulled out from the fixed tube 608, the handheld rod 609 and the holder are carried out to shoot on the spot, after the shooting use is finished, the handheld rod 609 is inserted into the fixed tube 608, the clamping chute 611 is aligned with the positioning rod 613 when the handheld rod 609 is inserted, the clamping chute 611 contacts with the positioning rod 613 firstly in the inserting process of the handheld rod 609, the positioning rod 613 slides along the vamp end of the clamping chute 611 and stretches the positioning spring 614, finally the positioning rod 613 enters the clamping circular groove 610 from the top end of the clamping chute 611, so that the positioning rod 613 is clamped and fixed with the handheld rod 609, when multi-angle simulation checking is performed indoors, the power supply of the motor 603 is switched on, the driving gear 602 rotates to drive the rotating ring 601, thereby driving the supporting rod, The handheld rod 609 and the top tripod head camera rotate, so that multi-angle shooting and checking are carried out on indoor designed images, and the tripod head camera is convenient to fix and move;

when the driving gear 602 rotates, the stop ring 510 at the top end of the driving gear is limited, so that the driving gear 602 can rotate more stably, one accommodating groove 511 provides an installation space for the motor 603 and the installation frame 604, when the installation rod 606 is not used, a screw between the installation rod 606 and the support rod 605 is screwed off, then the taken-off installation rod 606, the handheld rod 609 and the pan-tilt camera are placed in the other accommodating groove 511 for accommodating, so that the protective seat 509 not only can accommodate the projection lens 504, but also can provide a fixed installation space for the motor 603, provide an accommodation space for the installation rod 606, the handheld rod 609 and the pan-tilt camera, and improve the utilization rate of the protective seat 509;

when indoor imaging is performed, the fixed cylinder 502 is ejected upwards by the hydraulic cylinder 501, the projection lens 504 is started, and then the threaded rod 508 is rotated according to the indoor height, so that the limiting plate 507 and the lifting rod 503 move upwards along the fixed cylinder 502, the projection lens 504 is placed at a proper height, an imaging picture is located at a proper position of a wall surface, the height adjustment of imaging is facilitated, and then the projection lens 504 is used for imaging;

when the imaging control screen 712 is used for indoor design and imaging control, the magnetic attraction rod 709 is pulled upwards firstly, the magnetic attraction rod 709 is separated from the magnetic attraction groove 711, then the imaging control screen 712 is rotated to a proper use angle according to personal use habits, the rotating iron ball 710 rotates inside the connecting ball cylinder 707, the magnetic attraction rod 709 is aligned with the magnetic attraction groove 711, and finally the magnetic attraction rod 709 is magnetically clamped in the magnetic attraction groove 711, so that the imaging control screen 712 is fixed, when the imaging control screen 712 is not used, the sliding rod 701 is rotated to be fixed in a vertical state and then slides upwards along the fixed seat 1, the embedded rod 705 and the rotating blocking rod 706 penetrate through the embedding hole 702, the imaging control screen 712 is clamped in the protective shell 703, then the rotating blocking rod 706 is rotated by 90 degrees clockwise, and the sliding rod 701 is limited and blocked, so that the imaging control screen 712 is protected.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An in-house design imaging processing apparatus for data synchronization, characterized by: the projection device comprises a fixed seat (1), wherein a bottom cavity (2) is formed in the middle position of the bottom end of the fixed seat (1), a top cavity (3) is formed in the middle position of the top end of the fixed seat (1), a connecting hole (4) is formed in the middle of the fixed seat (1) in a penetrating mode, and a projection assembly (5) is installed in the middle of the fixed seat (1);

the projection assembly (5) comprises a hydraulic cylinder (501), a fixed cylinder (502), a lifting rod (503), a projection lens (504), a fixed hole (505), a fixed baffle (506), a limiting plate (507), a threaded rod (508), a protective seat (509), a baffle ring (510) and a containing groove (511);

the inner fixed mounting of the bottom chamber (2) is provided with a hydraulic cylinder (501), the output shaft of the hydraulic cylinder (501) is welded with a fixed cylinder (502), the inner sliding connection of the fixed cylinder (502) is provided with a lifting rod (503), the top side end face and the top of the lifting rod (503) are provided with a projection lens (504), the input end of the projection lens (504) is electrically connected with the output end of an external power supply, the side end face of the fixed cylinder (502) is provided with a fixed hole (505), the top end and the bottom of the fixed hole (505) are both welded with a fixed baffle (506), the middle part of the lifting rod (503) is welded with a limiting plate (507) corresponding to the position of the fixed hole (505), the middle part of the limiting plate (507) is connected with a threaded rod (508) through threads, the outer side of the bottom of the fixed cylinder (502) is sleeved with a protection seat (509, the top end of the protective seat (509) is symmetrically provided with accommodating grooves (511);

top cavity (3) internally mounted has collection subassembly (6), imaging processing subassembly (7) are installed to the outside terminal surface of fixing base (1).

2. The indoor design imaging processing device for data synchronization according to claim 1, wherein a threaded hole is formed in the middle of the limiting plate (507), the threaded rod (508) is engaged and connected inside the threaded hole, a rotating hole is formed in the middle of the fixed baffle (506) at the bottom end of the fixed hole (505), the bottom of the threaded rod (508) is sleeved inside the rotating hole, and the top end of the threaded rod (508) is rotatably installed at the bottom end of the fixed baffle (506) at the top end of the fixed hole (505).

3. The indoor design imaging processing device for data synchronization according to claim 1, wherein the acquisition assembly (6) comprises a rotating ring (601), a driving gear (602), a motor (603), a mounting rack (604), a support rod (605), a mounting rod (606), a limit arc plate (607), a fixed tube (608), a handheld rod (609), a clamping circular groove (610), a clamping inclined groove (611), a positioning plate (612), a positioning rod (613) and a positioning spring (614);

the top end of the inner side of the top cavity (3) is rotatably provided with a rotating ring (601) corresponding to the bottom end of the baffle ring (510), one accommodating groove (511) is internally welded with a mounting rack (604), the middle of the mounting rack (604) is fixedly sleeved with a motor (603), the outer part of an output shaft of the motor (603) is sleeved with a driving gear (602), the input end of the motor (603) is electrically connected with the output end of an external power supply, the top end of the rotating ring (601) is welded with a support rod (605), the top end of the support rod (605) is fixedly connected with a mounting rod (606) through a screw, the outer side of the middle part of the mounting rod (606) is sleeved with a limiting arc plate (607), a fixing pipe (608) is welded at the position far away from the support rod (605) at one end part of the mounting rod (606), a handheld rod (609) is clamped inside the fixing pipe, hand-held pole (609) bottom corresponds joint circular slot (610) notch position department and has seted up joint chute (611), installation pole (606) bottom middle part welding has locating plate (612), locating plate (612) middle part joint has locating lever (613), locating plate (612) one end outside welding has positioning spring (614).

4. The indoor design imaging processing device for data synchronization according to claim 3, wherein a movable hole is formed at the position, corresponding to the fixed tube (608), of the top end of the mounting rod (606), the bottom of the handheld rod (609) is clamped inside the movable hole, and a pan-tilt camera is mounted at the top end of the handheld rod (609);

the driving gear (602) is meshed and connected with the inner side of the rotating ring (601) through insections;

locating lever (613) one end is the inclined plane structure, joint chute (611) inboard inclined plane and locating lever (613) tip inclined plane slide fit, locating lever (613) joint is inside joint circular slot (610), positioning spring (614) one end welds in locating plate (612) side end face, positioning spring (614) other end welds in bracing piece (605) tip and is close to spacing arc board (607) position department.

5. The indoor design imaging processing device and method for data synchronization according to claim 1, wherein the imaging processing component (7) comprises a sliding rod (701), an embedding hole (702), a protective shell (703), a connecting rod (704), an embedding rod (705), a rotating stop rod (706), a connecting ball cylinder (707), an L-shaped rod (708), a magnetic attraction rod (709), a rotating iron ball (710), a magnetic attraction groove (711) and an imaging control screen (712);

the outer side end face of the fixed seat (1) is slidably provided with a sliding rod (701), the middle of the sliding rod (701) is provided with an embedding hole (702), one end of the sliding rod (701) is welded with a protective shell (703), the outer side end face of the fixed seat (1) is welded with a connecting rod (704) corresponding to the position of the sliding rod (701), the bottom end of the connecting rod (704) is welded with an embedding rod (705) corresponding to the position of the embedding hole (702), the outer end face of the bottom of the embedding rod (705) is rotatably sleeved with a rotating stop rod (706), the end of the connecting rod (704) is welded with a connecting ball cylinder (707), the top end of the connecting ball cylinder (707) is welded with an L-shaped rod (708), the end of the L-shaped rod (708) is slidably clamped with a magnetic absorption rod (709), the inside of the connecting ball cylinder (707) is rotatably connected with a rotating iron ball (710), the outer end face of the rotating iron ball (710) is, an imaging control screen (712) is installed outside the rotating iron ball (710), and the imaging control screen (712) is connected with an external controller.

6. The indoor design imaging processing device for data synchronization according to claim 5, wherein a fixed block is installed on the rear end face of the imaging control screen (712), the fixed block is welded to the outside of the rotating iron ball (710), an arc-shaped connecting groove is formed in the top of the connecting ball cylinder (707), and the fixed block is clamped inside the arc-shaped connecting groove;

the bottom end of the magnetic suction rod (709) and the inside of the magnetic suction groove (711) are all glued with strong magnet pieces.

7. A method of processing an in-house design imaging processing apparatus for data synchronization according to any of claims 1-6, characterized by comprising the imaging processing steps of:

s2, transmitting the data collected on the spot to an imaging control screen (712) through a network, and performing three-dimensional drawing by a designer through a computer according to the data to construct a basic frame of the house and transmitting the basic frame to the imaging control screen (712) for three-dimensional drawing;

s3, guiding out the constructed house frame, projecting the house frame to the wall surface and the roof around the design room through a projection lens (504), and performing multi-view imaging;

s4, processing the indoor designed image through an imaging control screen (712) by the designer, and synchronously imaging the indoor designed image through a projection lens (504);

s5, shooting an indoor imaging picture by using a camera in the projection process, transmitting the indoor imaging picture to an imaging control screen (712), simulating the multi-angle viewing condition, and facilitating design and adjustment;

8. The imaging processing method according to claim 7, wherein in the video shooting, the shooting is performed by rotating at an indoor middle position, then the shooting is performed by rotating at a single room middle position, and finally the close-range independent shooting is performed at a corner position;

9. The imaging processing method according to claim 7, wherein the house frame is derived as a front view, a rear view, a left view, a right view and an upper view, the front view, the rear view, the left view and the right view are respectively projected on a peripheral wall surface in the design room, and the upper view is projected on a ceiling.

10. The image processing method of claim 7, wherein the camera rotates for 8-10s around the outside of the image processing device, the lens of the camera is perpendicular to the side wall surface, after the rotation shooting is completed, the lens is rotated upwards by 180 degrees to shoot and view the roof, and after the roof shooting is completed, the lens is automatically reset.