CN219780629U - Control equipment based on real-time simulation prototype operation - Google Patents

Abstract

The utility model relates to the technical field of simulation prototype control equipment, in particular to control equipment based on real-time simulation prototype operation. The technical proposal comprises: the simulation prototype controller is fixed on the mounting frame through a pair of clamping plates, a fixing frame and a movable frame are arranged at the periphery of the simulation prototype controller at the upper end of the base, and the fixing frame is fixed at the upper end of the base. According to the utility model, the protection structure of the combination of the fixed frame and the movable frame is arranged on the periphery of the simulation prototype controller, so that the simulation prototype controller can be peripherally protected, and the movable frame is separated from the fixed frame in the operation process of the simulation prototype controller, so that the generated heat can be rapidly emitted, and the operation stability and safety are ensured.

Description

Control equipment based on real-time simulation prototype operation

Technical Field

The utility model relates to the technical field of simulation prototype control equipment, in particular to control equipment based on real-time simulation prototype operation.

Background

The control equipment of the simulation prototype is a controller for dynamically controlling a simulation model, and generally comprises a controller host and a control panel, wherein corresponding control data is preset by the control panel, and then the simulation prototype controller is used for carrying out corresponding control driving on the simulation model.

In the process of installing the simulation prototype controller, since the simulation prototype controller belongs to an electronic precise instrument, a large number of electronic control elements exist in the simulation prototype controller, so that an additional protective shell is added on the simulation prototype controller for protecting the simulation prototype controller in the aspects of compression resistance, collision resistance and the like, however, the integral protective shell can play a role in protection, but the whole simulation prototype controller is positioned in the protective shell, so that air flow is blocked, heat generated by the simulation prototype controller cannot be timely dissipated in the running process of equipment, internal high temperature is caused, normal running of the equipment is very likely to be influenced, and even the risk of equipment damage can be caused.

Disclosure of Invention

The utility model aims at solving the problems in the background technology and provides real-time simulation prototype operation control equipment with a protection and heat dissipation structure.

The technical scheme of the utility model is as follows: the utility model provides a control equipment based on real-time emulation prototype operation, includes base, control panel and emulation prototype controller, the base upper end is fixed with the mounting bracket, control panel fixes in the mounting bracket front side, install the connecting wire between control panel and the emulation prototype controller, the base upper end is fixed with the locating rack, emulation prototype controller passes through a pair of splint to be fixed on the mounting bracket, the base upper end just is located emulation prototype controller periphery and is provided with mount and movable frame, the mount is fixed in the base upper end, the movable frame slides in the base upper end, mount and movable frame are close to one side mutually and offset, the connecting wire passes the mount.

Preferably, dust-proof plates are fixed at the upper end of the fixing frame and at two sides of the movable frame, and storage grooves corresponding to the dust-proof plates are formed at two sides of the fixing frame and at the upper end of the movable frame.

Preferably, the movable frame bottom is fixed with the sliding block, the sliding tray has been seted up on the base and with the corresponding position of sliding block, be provided with the drive assembly that the drive sliding block is located the sliding tray and slides in the base, the sliding tray bottom is provided with spacing subassembly.

Preferably, the driving assembly comprises a synchronous telescopic cylinder, the synchronous telescopic cylinder is fixed in the base, a connecting plate is fixed at the output end of the synchronous telescopic cylinder, and the connecting plate is inserted in the sliding block.

Preferably, the slot matched with the connecting plate is formed in the bottom of the connecting plate, the side wall of the slot is provided with a side slot matched with the output end of the synchronous telescopic cylinder, the connecting plate is ensured to drive the sliding block to slide in the horizontal direction, the sliding block is pulled upwards, and the sliding block can be separated from the connecting plate.

Preferably, the limiting component comprises a baffle, baffle swing joint is in sliding tray bottom rear side, the sliding tray bottom and with baffle corresponding position seted up the flexible groove, baffle bottom sliding connection is fixed with the expansion spring in flexible inslot and with flexible inslot bottom between, utilizes the flexible of baffle, can carry out spacingly to the sliding distance of sliding block, and the baffle is accomodate to the inside back of flexible groove simultaneously, can be normally with the ejecting sliding tray of sliding block.

Compared with the prior art, the utility model has the following beneficial technical effects: the protection structure of the combination of the fixed frame and the movable frame is arranged on the periphery of the simulation prototype controller, so that the simulation prototype controller can be peripherally protected, and the movable frame is separated from the fixed frame in the operation process of the simulation prototype controller, so that the generated heat can be rapidly emitted, and the operation stability and safety are ensured.

Drawings

FIG. 1 is a schematic side sectional view of the present utility model;

FIG. 2 is a schematic view of a combination structure of a fixed frame and a movable frame of the present utility model;

fig. 3 is a schematic diagram of a combined structure of a connecting plate and a sliding block according to the present utility model.

Reference numerals: 1. a base; 11. a mounting frame; 12. a control panel; 13. a positioning frame; 14. a clamping plate; 15. a simulation prototype controller; 16. a connecting wire; 2. a fixing frame; 3. a movable frame; 4. a dust-proof plate; 5. a storage groove; 6. a sliding block; 61. a slot; 62. a side groove; 7. a sliding groove; 71. a baffle; 72. a telescopic slot; 73. a telescopic spring; 8. a synchronous telescopic cylinder; 81. and (5) connecting a plate.

Detailed Description

The technical scheme of the utility model is further described below with reference to the attached drawings and specific embodiments.

Examples

As shown in fig. 1-3, the control device based on real-time simulation prototype operation provided by the utility model comprises a base 1, a control panel 12 and a simulation prototype controller 15, wherein a mounting frame 11 is fixed at the upper end of the base 1, the control panel 12 is fixed at the front side of the mounting frame 11, a connecting wire 16 is arranged between the control panel 12 and the simulation prototype controller 15, a positioning frame 13 is fixed at the upper end of the base 1, the simulation prototype controller 15 is fixed on the mounting frame 11 through a pair of clamping plates 14, a fixed frame 2 and a movable frame 3 are arranged at the upper end of the base 1 and positioned at the periphery of the simulation prototype controller 15, the fixed frame 2 is fixed at the upper end of the base 1, the movable frame 3 slides at the upper end of the base 1, the fixed frame 2 and the movable frame 3 are abutted against each other at one side close to each other, and the connecting wire 16 passes through the fixed frame 2.

The dust guard 4 is fixed on both sides of the upper end of the fixed frame 2 and the two sides of the movable frame 3, the storage groove 5 corresponding to the dust guard 4 is formed on both sides of the fixed frame 2 and the upper end of the movable frame, the sliding block 6 is fixed on the bottom of the movable frame 3, the sliding groove 7 is formed in the position, corresponding to the sliding block 6, of the base 1, the driving assembly for driving the sliding block 6 to slide in the sliding groove 7 is arranged in the base 1, and the limiting assembly is arranged at the bottom of the sliding groove 7.

The drive assembly includes synchronous telescopic cylinder 8, synchronous telescopic cylinder 8 is fixed in base 1 and the output is fixed with connecting plate 81, connecting plate 81 peg graft in slider 6, slot 61 with connecting plate 81 looks adaptation has been seted up to the connecting plate 81 bottom, slot 61 lateral wall has been seted up with synchronous telescopic cylinder 8 output looks adaptation limit groove 62, after slider 6 slides out sliding tray 7 completely, dust guard 4 will take out from accomodating in the inslot 5 completely, upwards pulling movable frame 3 this moment can make connecting plate 81 take out from slot 61, accomplish the whole dismantlement to movable frame 3.

The limiting component comprises a baffle 71, the baffle 71 is movably connected to the rear side of the bottom of the sliding groove 7, a telescopic groove 72 is formed in the bottom of the sliding groove 7 and at a position corresponding to the baffle 71, a telescopic spring 73 is fixedly arranged between the bottom of the baffle 71 and the bottom of the telescopic groove 72, the baffle 71 is pressed down, the telescopic spring 73 is compressed and then is stored in the telescopic groove 72, and therefore the synchronous telescopic cylinder 8 can push the sliding block 6 to slide outwards of the sliding groove 7 until the sliding block slides out of the sliding groove 7.

In this embodiment, the whole device is connected with an external power supply, after a predetermined digital input is performed by using the control panel 12 in the actual operation process, the motion driving control of the simulation model can be performed by the simulation prototype controller 15, in the process, as the operation of the simulation prototype controller 15 can radiate heat into the space formed by the fixed frame 2 and the movable frame 3, the sliding block 6 is pushed to slide in the sliding groove 7 by using the synchronous driving of the synchronous telescopic cylinder 8 at the moment, so that the movable frame 3 slides to the side far away from the fixed frame 2, finally, a gap is formed between the fixed frame 2 and the movable frame 3, the heat can be rapidly radiated, in the process, the dust-proof plate 4 extends out of the storage groove 5 to prevent dust from blocking the gap between the fixed frame 2 and the movable frame 3, so that a large amount of dust can not enter in the heat radiation process, in the sliding process of the sliding block 6 in the sliding groove 7, the sliding distance of the sliding block is blocked by the baffle 71, so that the dust-proof plate 4 can not be completely pulled out of the containing groove 5, the gap between the fixed frame 2 and the movable frame 3 is ensured to be always provided with the dust-proof plate 4 for dust-proof protection, when the clamping plate 14 needs to be disassembled and overhauled, the baffle 71 can be pressed down to compress the telescopic spring 73 and then is contained in the telescopic groove 72, so that the synchronous telescopic cylinder 8 can push the sliding block 6 to slide outwards of the sliding groove 7 until the sliding block slides out of the sliding groove 7, after the sliding block 6 completely slides out of the sliding groove 7, the dust-proof plate 4 can be completely pulled out of the containing groove 5, at the moment, the movable frame 3 is pulled upwards, the connecting plate 81 can be pulled out of the slot 61, the whole disassembly of the movable frame 3 is completed, and finally the simulated prototype controller 15 can be easily taken down from the positioning frame 13, the operation is simple and convenient.

The above-described embodiments are merely a few preferred embodiments of the present utility model, and many alternative modifications and combinations of the above-described embodiments will be apparent to those skilled in the art based on the technical solutions of the present utility model and the related teachings of the above-described embodiments.

Claims (6)

1. The utility model provides a control equipment based on real-time emulation prototype operation, includes base (1), control panel (12) and emulation prototype controller (15), base (1) upper end is fixed with mounting bracket (11), control panel (12) are fixed in mounting bracket (11) front side, install connecting wire (16), its characterized in that between control panel (12) and emulation prototype controller (15): the device is characterized in that a positioning frame (13) is fixed at the upper end of the base (1), the simulation prototype controller (15) is fixed on the mounting frame (11) through a pair of clamping plates (14), a fixing frame (2) and a movable frame (3) are arranged at the upper end of the base (1) and located on the periphery of the simulation prototype controller (15), the fixing frame (2) is fixed at the upper end of the base (1), the movable frame (3) slides at the upper end of the base (1), the fixing frame (2) and the movable frame (3) are close to one side of the base and are propped against each other, and a connecting wire (16) penetrates through the fixing frame (2).

2. The control device based on the real-time simulation prototype operation according to claim 1, wherein dust-proof plates (4) are fixed on the upper end of the fixed frame (2) and on two sides of the movable frame (3), and storage grooves (5) corresponding to the dust-proof plates (4) are formed on two sides of the fixed frame (2) and on the movable upper end.

3. The control device based on the real-time simulation prototype operation according to claim 1, wherein a sliding block (6) is fixed at the bottom of the movable frame (3), a sliding groove (7) is formed in the base (1) and corresponds to the sliding block (6), a driving component for driving the sliding block (6) to slide in the sliding groove (7) is arranged in the base (1), and a limiting component is arranged at the bottom of the sliding groove (7).

4. A control device based on real-time simulation prototype operation according to claim 3, characterized in that the driving assembly comprises a synchronous telescopic cylinder (8), the synchronous telescopic cylinder (8) is fixed in the base (1) and the output end is fixed with a connecting plate (81), and the connecting plate (81) is inserted in the sliding block (6).

5. The control device based on the real-time simulation prototype operation according to claim 4, wherein a slot (61) matched with the connecting plate (81) is formed in the bottom of the connecting plate (81), and a side slot (62) matched with the output end of the synchronous telescopic cylinder (8) is formed in the side wall of the slot (61).

6. The control device based on real-time simulation prototype operation according to claim 3, wherein the limiting component comprises a baffle (71), the baffle (71) is movably connected to the rear side of the bottom of the sliding groove (7), a telescopic groove (72) is formed in the bottom of the sliding groove (7) and at a position corresponding to the baffle (71), and the bottom of the baffle (71) is slidably connected in the telescopic groove (72) and a telescopic spring (73) is fixed between the bottom of the baffle and the bottom of the telescopic groove (72).