CN216896450U - A rack construction for weather simulation equipment - Google Patents

Abstract

The utility model discloses a rack structure for climate simulation equipment, which comprises a mounting plate, wherein a groove is formed in the surface of the mounting plate, an adjusting mechanism is arranged in the groove, the adjusting mechanism comprises a first lifting motor, a moving block, a limiting block and a limiting groove, the first lifting motor is arranged at one end of the groove, one end of the first lifting motor is connected with the moving block, a clamping plate is arranged at the upper end of the moving block, the limiting block is welded at each of two ends of the moving block, the limiting block is externally matched and provided with the limiting groove with matched size, and the limiting groove is formed in the groove. This a rack construction for weather simulation equipment, under the effect of tenon fourth of twelve earthly branches post, can be with tenon fourth of twelve earthly branches piece and tenon fourth of twelve earthly branches groove firm in connection to with mounting panel and leg joint firm, be convenient for install equipment, this frame is dismantled conveniently simultaneously, only need with tenon fourth of twelve earthly branches post from tenon fourth of twelve earthly branches piece and tenon fourth of twelve earthly branches inslot take out can, easy dismouting is easy, has alleviateed testing personnel's intensity of labour.

Description

A rack construction for weather simulation equipment

Technical Field

The utility model relates to the technical field related to climate simulation, in particular to a rack structure for climate simulation equipment.

Background

The climate simulation means that the climate conditions of the nature are simulated under certain control conditions in a laboratory, a corresponding mathematical model is established according to a basic physical law for controlling the climate and the change of the climate, numerical calculation is carried out under certain initial conditions and boundary conditions, and images of the climate and the change of the climate are obtained.

The rack structure for climate simulation equipment that uses at present can not carry out the centre gripping to different equipment and fix, leads to equipment slope in the simulation experiment, causes equipment damage, and the rack is dismantled the installation complicacy simultaneously, influences follow-up maintenance and installation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a frame structure for climate simulation equipment, and aims to solve the problems that different equipment cannot be clamped and fixed, so that the equipment is inclined in a simulation experiment, the equipment is damaged, and meanwhile, the frame is complex to disassemble and assemble, and the subsequent maintenance and assembly are influenced.

In order to achieve the purpose, the utility model provides the following technical scheme: a rack structure for climate simulation equipment comprises a mounting plate, wherein a groove is formed in the surface of the mounting plate, and an adjusting mechanism is arranged inside the groove;

the adjusting mechanism comprises a first lifting motor, a moving block, limiting blocks and limiting grooves, the first lifting motor is arranged at one end of the groove, the moving block is connected to one end of the first lifting motor, a clamping plate is mounted at the upper end of the moving block, the limiting blocks are welded at two ends of the moving block respectively, the limiting blocks are externally provided with the limiting grooves with matched sizes in a matched mode, and the limiting grooves are formed in the groove;

the utility model discloses a flight mechanism, including adjustment mechanism, mounting panel, connecting plate, flight mechanism, mounting panel lower extreme, adjustment mechanism one end welding has the grip block, the support is installed through coupling mechanism to the mounting panel, the connecting plate is installed respectively at the support both ends, the inside flight mechanism that has run through of connecting plate, the mounting panel lower extreme is connected with the fixed plate through second elevator motor.

Preferably, the first lifting motor, the moving block, the limiting block and the limiting groove are all provided with a plurality of grooves, and the external shape of the limiting block is matched with the internal shape of the limiting groove.

Preferably, coupling mechanism includes tenon fourth of twelve earthly branches piece, tenon fourth of twelve earthly branches groove and tenon fourth of twelve earthly branches post, tenon fourth of twelve earthly branches piece sets up in mounting panel one end, size assorted tenon fourth of twelve earthly branches groove is installed in the outside cooperation of tenon fourth of twelve earthly branches piece, the tenon fourth of twelve earthly branches groove is seted up in support one end, tenon fourth of twelve earthly branches piece and tenon fourth of twelve earthly branches inslot portion have run through the tenon fourth of twelve earthly branches post respectively.

Preferably, the mortise and tenon block, the mortise and tenon groove and the mortise and tenon column are symmetrically arranged by a central axis of the mounting plate, and the outer diameter size of the mortise and tenon block is matched with the inner diameter size of the mortise and tenon groove.

Preferably, flight mechanism includes little driving motor, rotatory piece, threaded rod and rotating vane, little driving motor sets up in connecting plate one side, little driving motor output is connected with rotatory piece, rotatory piece one end is connected with the threaded rod, threaded rod externally mounted has rotating vane.

Preferably, the fixed plate forms a lifting structure with the mounting plate through a second lifting motor, and the second lifting motor and the fixed plate are vertically distributed.

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

1. according to the rack structure for the climate simulation equipment, through the arrangement of the adjusting mechanism, under the use of the first lifting motor, the limiting block connected with one end of the moving block can move in the limiting groove formed in the groove according to the size of the equipment, so that the clamping plate is attached to the outer wall of the equipment, the stability of the equipment is improved, and the success of a subsequent climate simulation experiment is facilitated;

2. according to the frame structure for the climate simulation equipment, the tenon-and-mortise blocks and the tenon-and-mortise grooves can be firmly connected under the action of the tenon-and-mortise columns through the arrangement of the connecting mechanisms, so that the mounting plate and the support are firmly connected, the equipment is convenient to mount, the frame is convenient to dismount, the tenon-and-mortise columns only need to be taken out of the tenon-and-mortise blocks and the tenon-and-mortise grooves, the mounting and dismounting are easy, and the labor intensity of testing personnel is reduced;

3. this a rack construction for weather simulation equipment through flight mechanism's setting, under little driving motor's effect, can rotate the threaded rod that rotatory piece one end is connected to it is rotatory to drive rotating vane, makes rotating vane produce lift, drives mounting panel and support flight, and then accomplishes follow-up weather simulation experiment.

Drawings

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

FIG. 2 is a schematic view of an adjustment mechanism according to the present invention;

FIG. 3 is a schematic view of the connecting mechanism of the present invention;

fig. 4 is a schematic front view of the present invention.

In the figure: 1. mounting a plate; 2. a groove; 3. an adjustment mechanism; 301. a first lift motor; 302. a moving block; 303. a limiting block; 304. a limiting groove; 4. a clamping plate; 5. a connecting mechanism; 501. mortise and tenon joint blocks; 502. mortise and tenon grooves; 503. mortise and tenon columns; 6. a support; 7. a connecting plate; 8. a flying mechanism; 801. a small drive motor; 802. rotating the block; 803. a threaded rod; 804. a rotating blade; 9. a second lift motor; 10. and (7) fixing the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a frame structure for climate simulating equipment, comprising a mounting plate 1;

the surface of the mounting plate 1 is provided with a groove 2, an adjusting mechanism 3 is arranged in the groove 2, the adjusting mechanism 3 comprises a first lifting motor 301, a moving block 302, a limiting block 303 and a limiting groove 304, the first lifting motor 301 is arranged at one end of the groove 2, one end of the first lifting motor 301 is connected with the moving block 302, a clamping plate 4 is arranged at the upper end of the moving block 302, the two ends of the moving block 302 are respectively welded with the limiting block 303, the limiting groove 304 matched with the size is arranged outside the limiting block 303 in the external matching mode, the limiting groove 304 is arranged in the groove 2, under the use of the first lifting motor 301, the limiting block 303 connected with one end of the moving block 302 can move in the limiting groove 304 arranged inside the groove 2 according to the size of the equipment, so that the clamping plate 4 is attached to the outer wall of the equipment, the stability of the equipment is improved, the subsequent climate simulation experiment is successful, the first lifting motor 301, A plurality of moving blocks 302, limiting blocks 303 and limiting grooves 304 are arranged in the grooves 2, and the external shapes of the limiting blocks 303 are matched with the internal shapes of the limiting grooves 304;

a clamping plate 4 is welded at one end of the adjusting mechanism 3, a bracket 6 is installed on the mounting plate 1 through a connecting mechanism 5, the connecting mechanism 5 comprises a mortise and tenon block 501, a mortise and tenon groove 502 and a mortise and tenon column 503, the mortise and tenon block 501 is arranged at one end of the mounting plate 1, the mortise and tenon groove 502 with matched size is installed outside the mortise and tenon block 501 in a matched manner, the mortise and tenon groove 502 is arranged at one end of the bracket 6, the mortise and tenon block 501 and the mortise and tenon column 503 are respectively penetrated inside the mortise and tenon groove 502, under the action of the tenon-and-mortise column 503, the tenon-and-mortise block 501 and the tenon-and-mortise slot 502 can be firmly connected, therefore, the mounting plate 1 and the support 6 are firmly connected, the equipment is convenient to mount, the rack is convenient to dismount, only the mortise and tenon column 503 needs to be taken out of the mortise and tenon block 501 and the mortise and tenon groove 502, the mounting and dismounting are easy, the labor intensity of testing personnel is reduced, the mortise and tenon block 501, the mortise and tenon groove 502 and the mortise and tenon column 503 are symmetrically arranged on the axis of the mounting plate 1, and the outer diameter size of the mortise and tenon block 501 is matched with the inner diameter size of the mortise and tenon groove 502;

the two ends of the bracket 6 are respectively provided with a connecting plate 7, a flying mechanism 8 penetrates through the connecting plate 7, the flying mechanism 8 comprises a small driving motor 801, a rotating block 802, a threaded rod 803 and a rotating blade 804, the small driving motor 801 is arranged at one side of the connecting plate 7, the output end of the small driving motor 801 is connected with the rotating block 802, one end of the rotating block 802 is connected with the threaded rod 803, the rotating blade 804 is arranged outside the threaded rod 803, under the action of the small driving motor 801, the threaded rod 803 connected with one end of the rotating block 802 can rotate, so that the rotating blade 804 is driven to rotate, the rotating blade 804 generates lift force to drive the mounting plate 1 and the bracket 6 to fly, and further complete the subsequent climate simulation experiment, the lower end of the mounting plate 1 is connected with a fixing plate 10 through a second lifting motor 9, the fixing plate 10 forms a lifting structure with the mounting plate 1 through the second lifting motor 9, and the fixing plate 10 are vertically distributed, through the setting of second elevator motor 9, the frame of can being convenient for descends according to different topography to reduce the probability that the frame damaged.

The working principle is as follows: for the frame structure for the climate simulation equipment, firstly, a power supply is switched on, a switch of a first lifting motor 301 is turned on, under the use of the first lifting motor 301, a limit block 303 connected with one end of a moving block 302 can move in a limit groove 304 arranged in a groove 2 according to the size of the equipment, so that a clamping plate 4 is attached to the outer wall of the equipment, the equipment is firmly fixed, then a switch of a small driving motor 801 is turned on, under the action of the small driving motor 801, a threaded rod 803 connected with one end of a rotating block 802 can be rotated, so that a rotating blade 804 is driven to rotate, the rotating blade 804 generates a lifting force, the mounting plate 1 and a bracket 6 are driven to fly, the humidity in the air is known, the climate is analyzed, the experiment is completed, after the experiment is completed, a second lifting motor 9 is turned on, under the use of the second lifting motor 9, the frame can conveniently descend according to different terrains, avoid the frame to strike other objects on, cause the cost to damage, carry out the analysis with the climatic data of record again to reacing the weather law, after the experiment at last, closing switch cuts off the power supply, extracts out tenon fourth of the twelve earthly branches post 503 from tenon fourth of the twelve earthly branches piece 501 and tenon fourth of the twelve earthly branches groove 502 again, thereby with mounting panel 1 and 6 splits of support, the follow-up carrying of being convenient for, wherein first elevator motor 301 and second elevator motor 9's model is: YS-NZ100-12A, the model number of the small driving motor 801 is as follows: BLDC42, thus completing the use of the entire rack structure for climate simulating equipment.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A frame structure for climate simulating equipment, comprising a mounting plate (1), characterized in that: a groove (2) is formed in the surface of the mounting plate (1), and an adjusting mechanism (3) is arranged in the groove (2);

the adjusting mechanism (3) comprises a first lifting motor (301), a moving block (302), a limiting block (303) and a limiting groove (304), the first lifting motor (301) is arranged at one end of the groove (2), one end of the first lifting motor (301) is connected with the moving block (302), a clamping plate (4) is installed at the upper end of the moving block (302), the limiting blocks (303) are welded at two ends of the moving block (302) respectively, the limiting blocks (303) are externally fitted with the limiting groove (304) with matched sizes, and the limiting groove (304) is formed in the groove (2);

adjustment mechanism (3) one end welding has grip block (4), support (6) are installed through coupling mechanism (5) in mounting panel (1), connecting plate (7) are installed respectively at support (6) both ends, inside flying mechanism (8) of having run through of connecting plate (7), mounting panel (1) lower extreme is connected with fixed plate (10) through second elevator motor (9).

2. A frame structure for climate simulating equipment according to claim 1, wherein: the first lifting motor (301), the moving block (302), the limiting block (303) and the limiting groove (304) are all provided with a plurality of grooves (2), and the external shape of the limiting block (303) is matched with the internal shape of the limiting groove (304).

3. A frame structure for climate simulating equipment according to claim 1, wherein: coupling mechanism (5) are including tenon fourth of twelve earthly branches piece (501), tenon fourth of twelve earthly branches groove (502) and tenon fourth of twelve earthly branches post (503), tenon fourth of twelve earthly branches piece (501) set up in mounting panel (1) one end, size assorted tenon fourth of twelve earthly branches groove (502) is installed in tenon fourth of twelve earthly branches piece (501) external fit, support (6) one end is seted up in tenon fourth of twelve earthly branches groove (502), tenon fourth of twelve earthly branches piece (501) and tenon fourth of twelve earthly branches groove (502) inside run through respectively have tenon fourth of twelve earthly branches post (503).

4. A frame structure for climate simulating equipment according to claim 3, wherein: the tenon-and-mortise blocks (501), the tenon-and-mortise grooves (502) and the tenon-and-mortise columns (503) are symmetrically arranged by the axis of the mounting plate (1), and the outer diameter of the tenon-and-mortise blocks (501) is matched with the inner diameter of the tenon-and-mortise grooves (502).

5. A frame structure for climate simulating equipment according to claim 1, wherein: flight mechanism (8) include little driving motor (801), rotatory piece (802), threaded rod (803) and rotating vane (804), little driving motor (801) set up in connecting plate (7) one side, little driving motor (801) output is connected with rotatory piece (802), rotatory piece (802) one end is connected with threaded rod (803), threaded rod (803) externally mounted has rotating vane (804).

6. A frame structure for climate simulating equipment according to claim 1, wherein: the fixed plate (10) and the mounting plate (1) form a lifting structure through a second lifting motor (9), and the second lifting motor (9) and the fixed plate (10) are vertically distributed.

Images