CN213582762U

CN213582762U - Territorial space planning model

Info

Publication number: CN213582762U
Application number: CN202022388048.8U
Authority: CN
Inventors: 洪远吉
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-24
Filing date: 2020-10-24
Publication date: 2021-06-29
Anticipated expiration: 2030-10-24

Abstract

The utility model discloses a national soil space planning model, including the mobile device, the main part device, strutting arrangement, slider and analogue means, the mobile device includes the fixed block, the main part device includes the loading board and holds the case, hold case lower surface and loading board upper surface connection, strutting arrangement includes hydraulic drive component and backup pad, a plurality of hydraulic drive component lower surfaces all with loading board upper surface connection, backup pad week side with hold case internal surface sliding fit, slider includes vertical slide rail and horizontal slider, a plurality of vertical slide rail lower surfaces all with loading board upper surface welding, analogue means includes loose axle and vibration component, loose axle lower surface and horizontal slider upper surface connection, vibration component upper surface and backup pad lower surface connection. The utility model relates to a state soil space planning model, the loose axle can control the arm activity, and the vibrations under the natural environment can be simulated to the vibrating element for the model has maneuverability more.

Description

Territorial space planning model

Technical Field

The utility model relates to a space model specifically is a territory space planning model.

Background

The territorial space planning model is a space model manufactured by silt or other materials according to a certain proportional relation of a topographic map or an on-site terrain, is a three-dimensional space model, can be effectively simulated and implemented by building the territorial space model, and has great effect in modern territorial planning.

The existing territory planning model is generally installed on a simple support or a wood board, the simulation requirements of various environmental conditions cannot be met, most models are fragile and easy to damage when being placed outside, a good storage environment needs to be obtained, the models cannot be conveniently and quickly carried when being moved, and the models are extremely weak when needing to simulate conditions under certain conditions.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a homeland space planning model to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a territorial space planning model comprises a moving device, a main body device, a supporting device, a sliding device and an analog device, wherein the moving device comprises fixed blocks, the main body device comprises a bearing plate and a bearing box, the lower surface of the bearing box is connected with the upper surface of the bearing plate, a plurality of mounting grooves are arrayed on the lower surface of the bearing plate, the mounting grooves are of a cube structure and are four in number, the upper surfaces of the fixed blocks are respectively connected with the mounting grooves, the number of the fixed blocks is four, the fixed blocks are mainly connected with the moving device, the supporting device comprises a hydraulic driving element and a supporting plate, the lower surfaces of the hydraulic driving element are all connected with the upper surface of the bearing plate, the number of the hydraulic driving element is four, the hydraulic driving element mainly provides power for the supporting device, and the peripheral side surface of the supporting plate is in, the sliding device comprises a longitudinal sliding rail and a transverse sliding block, the lower surface of the longitudinal sliding rail is welded with the upper surface of the bearing plate, the number of the longitudinal sliding rail is two, the longitudinal sliding rail mainly provides a sliding rail for the longitudinal sliding block, the simulation device comprises a movable shaft and a vibration element, the lower surface of the movable shaft is connected with the upper surface of the transverse sliding block, and the upper surface of the vibration element is connected with the lower surface of the support plate.

Preferably, the mobile device still includes wheel, brake and axletree, and is a plurality of the wheel surface is equipped with a plurality of rotatory holes, wherein, and the wheel has four, and the wheel mainly used removes the whole device, and is a plurality of axletree week side respectively with a plurality of rotatory hole normal running fit, wherein, the axletree has four, and the axletree mainly connects the wheel, and is a plurality of the axletree is connected with a plurality of fixed block lower surfaces respectively, and is a plurality of the brake internal surface is connected with a plurality of axletree surfaces respectively, and wherein, the brake has four, and the brake mainly used stabilising arrangement, and the stability under the quiescent condition of device can be guaranteed in.

Preferably, the main body device further comprises an operation table and a coordinate axis, the lower surface of the operation table is connected with the upper surface of the containing box, the lower surface of the coordinate axis is welded with the upper surface of the operation table, the bearing plate can bear the whole device, the coordinate axis is used for positioning the model and checking the coordinate, and the operation table is used for operating and managing the model.

Preferably, strutting arrangement still includes hydraulic push rod and model, and is a plurality of the hydraulic push rod surface respectively with a plurality of hydraulic drive component internal surface sliding fit, wherein, hydraulic push rod has four, the lift of hydraulic push rod mainly used model, and is a plurality of hydraulic push rod upper surface all welds with the backup pad lower surface, model lower surface and backup pad upper surface connection, hydraulic drive component provide power for the lift of backup pad, and hydraulic push rod can go up and down, and certain supporting role in addition, model as the country planning model, can arrange.

Preferably, the sliding device further comprises a longitudinal sliding block and a transverse sliding rail, the lower surface of the longitudinal sliding block is in sliding fit with the upper surfaces of the longitudinal sliding rail respectively, the longitudinal sliding block is two, the longitudinal sliding block is mainly connected with the transverse sliding rail, the lower surface of the transverse sliding rail is connected with the upper surfaces of the longitudinal sliding block respectively, the lower surface of the transverse sliding block is in sliding fit with the lower surface of the transverse sliding rail, and the sliding device can enable the simulation device to move freely in the containing box and facilitate simulation activities of the simulation device.

Preferably, the simulation device further comprises a mechanical arm and a plurality of mechanical arms, wherein one surface of each mechanical arm is respectively matched with the sides of the movable shafts in a rotating mode, the lower surface of the vibration element is connected with the upper surface of the mechanical arm, the movable shafts can control the movement of the mechanical arm, and the vibration element can simulate the vibration under the natural environment, so that the model has operability.

Compared with the prior art, the beneficial effects of the utility model are that:

the mobile device can improve the flexibility of the device, so that the heavy model can be freely moved, manpower and material resources are reduced, the stability of the device can be guaranteed by braking, accidental collision is prevented, the device can be safely stored due to the liftable property of the supporting device, the protecting device is not damaged due to the interference of the external environment, the model is enabled to have more maneuverability by the arrangement of the simulating device, the vibration environment of the nature can be simulated, and the practicability of the device is improved.

Drawings

FIG. 1 is an isometric view of a model for territorial space planning;

FIG. 2 is a schematic diagram of a mobile device of a territorial space planning model;

FIG. 3 is a schematic diagram of an internal structure of a territorial space planning model;

fig. 4 is an enlarged view of a simulation apparatus structure of a territorial space planning model.

In the figure: 100. a mobile device; 110. a wheel; 120. braking; 130. an axle; 140. a fixed block; 200. a main body device; 210. a carrier plate; 220. a containing box; 230. an operation table; 240. coordinate axes; 300. a support device; 310. a hydraulic push rod; 320. a hydraulic drive element; 330. a support plate; 340. a mold part; 400. a sliding device; 410. a longitudinal slide rail; 420. a longitudinal slide block; 430. a transverse slide rail; 440. a transverse slide block; 500. a simulation device; 510. a movable shaft; 520. a mechanical arm; 530. a vibrating element.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 4, in an embodiment of the present invention, a model for planning a territorial space includes a mobile device 100, a main body device 200, a supporting device 300, a sliding device 400 and a simulation device 500, the mobile device 100 includes four fixing blocks 140, the main body device 200 includes a bearing plate 210 and a containing box 220, a lower surface of the containing box 220 is connected to an upper surface of the bearing plate 210, a plurality of mounting grooves are arrayed on the lower surface of the bearing plate 210, the number of the mounting grooves is four, the upper surfaces of the fixing blocks 140 are respectively connected to the mounting grooves, wherein there are four fixing blocks 140, the fixing blocks 140 are mainly connected to the mobile device 100, the supporting device 300 includes a hydraulic driving element 320 and a supporting plate 330, lower surfaces of the hydraulic driving elements 320 are all connected to the upper surface of the bearing plate 210, wherein there are four hydraulic driving elements 320, the hydraulic driving elements 320 mainly provide power for, the peripheral side surface of the supporting plate 330 is in sliding fit with the inner surface of the containing box 220, the sliding device 400 comprises a plurality of longitudinal sliding rails 410 and a plurality of transverse sliding blocks 440, the lower surfaces of the longitudinal sliding rails 410 are welded to the upper surface of the bearing plate 210, wherein the number of the longitudinal sliding rails 410 is two, the longitudinal sliding rails 410 mainly provide sliding tracks for the longitudinal sliding blocks 420, the simulation device 500 comprises a movable shaft 510 and a vibrating element 530, the lower surface of the movable shaft 510 is connected with the upper surface of the transverse sliding blocks 440, and the upper surface of the vibrating element 530 is connected with the lower.

Wherein, the mobile device 100 still includes wheel 110, brake 120 and axletree 130, a plurality of rotatory holes are equipped with to a plurality of wheel 110 external surfaces, wherein, wheel 110 has four, wheel 110 mainly used removes the whole device, a plurality of axletree 130 all sides respectively with a plurality of rotatory hole normal running fit, wherein, axletree 130 has four, axletree 130 mainly connects wheel 110, a plurality of axletree 130 are connected with a plurality of fixed block 140 lower surfaces respectively, a plurality of brake 120 internal surfaces respectively with a plurality of axletree 130 external surface connections, wherein, brake 120 has four, brake 120 mainly used stabilising arrangement, brake 120 can guarantee the stability under the quiescent condition of device, prevent the device because the collision and the displacement.

The main body device 200 further comprises an operation table 230 and a coordinate axis 240, the lower surface of the operation table 230 is connected with the upper surface of the containing box 220, the lower surface of the coordinate axis 240 is welded with the upper surface of the operation table 230, the bearing plate 210 can bear the whole device, the coordinate axis 240 is used for positioning and checking the model, and the operation table 230 is used for operating and managing the model.

The supporting device 300 further comprises four hydraulic push rods 310 and model parts 340, the outer surfaces of the hydraulic push rods 310 are respectively in sliding fit with the inner surfaces of the hydraulic driving elements 320, the number of the hydraulic push rods 310 is four, the hydraulic push rods 310 are mainly used for lifting the model, the upper surfaces of the hydraulic push rods 310 are welded to the lower surface of the supporting plate 330, the lower surface of the model part 340 is connected with the upper surface of the supporting plate 330, the hydraulic driving elements 320 provide power for lifting the supporting plate 330, the hydraulic push rods 310 can lift and have a certain supporting function, and the model parts 340 can be arranged as a national soil planning model.

The sliding device 400 further includes two longitudinal sliders 420 and two transverse slide rails 430, lower surfaces of the longitudinal sliders 420 are respectively in sliding fit with upper surfaces of the longitudinal slide rails 410, the longitudinal sliders 420 are mainly connected with the transverse slide rails 430, lower surfaces of the transverse slide rails 430 are respectively connected with upper surfaces of the longitudinal sliders 420, lower surfaces of the transverse sliders 440 are in sliding fit with lower surfaces of the transverse slide rails 430, and the sliding device 400 can enable the simulation device 500 to freely move in the containing box 220, so that the simulation device 500 can conveniently perform simulation activities.

The simulation apparatus 500 further includes a mechanical arm 520, a surface of the mechanical arm 520 is respectively in rotational fit with a peripheral surface of the movable shaft 510, a lower surface of the vibration element 530 is connected with an upper surface of the mechanical arm 520, the movable shaft 510 can control the mechanical arm 520 to move, and the vibration element 530 can simulate the vibration in the natural environment, so that the model has better operability.

The utility model discloses a theory of operation is:

the hydraulic driving element 320 provides power for the hydraulic push rod 310, so that the support plate 330 is lifted out from the interior of the containing box 220, the model part 340 is lifted to an operable height, the operation table 230 can observe and operate the model part 340, the coordinate axis 240 can position and view coordinates for the model, the simulation device 500 can freely move in the containing box 220 by using the sliding action of the sliding device 400, the movable shaft 510 controls the movement of the mechanical arm 520, the vibration element 530 generates vibration, the vibration element simulates the vibration occurrence condition under the natural environment, the flexibility of the device is improved by the moving device 100, and the brake 120 can ensure the stability of the device and prevent the accidental displacement of the device.

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 modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. A territorial space planning model comprises a mobile device (100), a main body device (200), a supporting device (300), a sliding device (400) and a simulation device (500), and is characterized in that: the moving device (100) comprises a fixed block (140), the main body device (200) comprises a bearing plate (210) and a containing box (220), the lower surface of the containing box (220) is connected with the upper surface of the bearing plate (210), a plurality of mounting grooves are arrayed on the lower surface of the bearing plate (210), the upper surfaces of a plurality of fixed blocks (140) are respectively connected with the plurality of mounting grooves, the supporting device (300) comprises a hydraulic driving element (320) and a supporting plate (330), the lower surfaces of the hydraulic driving element (320) are both connected with the upper surface of the bearing plate (210), the peripheral side surface of the supporting plate (330) is in sliding fit with the inner surface of the containing box (220), the sliding device (400) comprises a longitudinal sliding rail (410) and a transverse sliding block (440), the lower surfaces of the longitudinal sliding rail (410) are both welded with the upper surface of the bearing plate (210), the simulating device (500) comprises a movable shaft (510) and a, the lower surface of the movable shaft (510) is connected with the upper surface of the transverse sliding block (440), and the upper surface of the vibration element (530) is connected with the lower surface of the supporting plate (330).

2. A territorial space planning model according to claim 1, characterized in that: mobile device (100) still include wheel (110), brake (120) and axletree (130), and is a plurality of wheel (110) surface is equipped with a plurality of rotatory holes, and is a plurality of axletree (130) week side respectively with a plurality of rotatory hole normal running fit, a plurality of axletree (130) are connected with a plurality of fixed block (140) lower surface respectively, and is a plurality of brake (120) internal surface is connected with a plurality of axletree (130) surface respectively.

3. A territorial space planning model according to claim 1, characterized in that: the main body device (200) further comprises an operation table (230) and a coordinate axis (240), the lower surface of the operation table (230) is connected with the upper surface of the containing box (220), and the lower surface of the coordinate axis (240) is welded with the upper surface of the operation table (230).

4. A territorial space planning model according to claim 1, characterized in that: the supporting device (300) further comprises hydraulic push rods (310) and a mold part (340), the outer surfaces of the hydraulic push rods (310) are in sliding fit with the inner surfaces of the hydraulic driving elements (320), the upper surfaces of the hydraulic push rods (310) are welded to the lower surface of the supporting plate (330), and the lower surface of the mold part (340) is connected with the upper surface of the supporting plate (330).

5. A territorial space planning model according to claim 1, characterized in that: the sliding device (400) further comprises a longitudinal sliding block (420) and a transverse sliding rail (430), the lower surfaces of the longitudinal sliding blocks (420) are in sliding fit with the upper surfaces of the longitudinal sliding rails (410) respectively, the lower surfaces of the transverse sliding rails (430) are connected with the upper surfaces of the longitudinal sliding blocks (420) respectively, and the lower surfaces of the transverse sliding blocks (440) are in sliding fit with the lower surfaces of the transverse sliding rails (430).

6. A territorial space planning model according to claim 1, characterized in that: the simulation device (500) further comprises a mechanical arm (520), one surface of the mechanical arm (520) is in rotating fit with the circumferential side faces of the movable shafts (510) respectively, and the lower surface of the vibration element (530) is connected with the upper surface of the mechanical arm (520).