CN219961038U - Control device - Google Patents

Abstract

The utility model relates to the technical field of integrated control, in particular to a control device, which comprises a box body, a control device body and a damping mechanism, wherein the damping mechanism comprises a mounting plate, two inclined rods, a sliding rod, two sliding cylinders, two damping springs, two sliding blocks and two dampers, when the control device body is moved to jolt, the mounting plate slides to one side close to the two inclined rods to drive the two inclined rods to rotate, when the included angle between the two inclined rods and the mounting plate is reduced, the two sliding cylinders of the two inclined rods slide to one side close to the damping springs, the damping springs are stressed to shrink and deform to offset the force born by the mounting plate, meanwhile, the two sliding cylinders drive the two sliding blocks to slide in the box body, and the two sliding blocks are driven to shrink to prevent the two damping springs from rebounding back, so that the problem that the control device jolt in the box body is damaged due to the influence of external force in the moving process of the control device is solved.

Description

Control device

Technical Field

The utility model relates to the technical field of integrated control, in particular to a control device.

Background

The computer system integrated control device is mainly fixedly installed, movable and inconvenient through a structured comprehensive wiring system and a computer network technology, and has the advantages of greatly reducing the stability of the device, along with poor heat dissipation effect and poor heat dissipation effect without dustproof function.

At present, prior art (CN 215121726U) discloses a computer system integrated control device, which comprises a box body, one side surface fixed mounting of box has the connection control operation board, the below of box is equipped with the universal wheel, the top rotation of universal wheel is connected with the telescopic link, the top of telescopic link is connected with the lower surface fixed of box. This kind of computer system integrated control device, through being provided with telescopic link and damping spring, when utilizing the universal wheel to make computer system integrated control device remove, make the computer system integrated control device that moves have good damping nature, avoided computer system integrated control device to lead to inside spare part to damage because jolting when removing, when braking the device, the motor drives fold form intermediate gear and rotates, pivoted fold form intermediate gear drives intermediate toothed ring through the toothed belt and rotates, make the threaded rod reciprocate in the sleeve, when the threaded rod down motion, make the rubber pad support ground.

By adopting the mode, the control device can be influenced by external force to cause the control device to jolt in the box body to be damaged in the moving process.

Disclosure of Invention

The utility model aims to provide a control device, which aims to solve the problem that the control device is possibly damaged due to the fact that the control device jolts in a box body under the influence of external force in the moving process.

In order to achieve the above purpose, the utility model provides a control device, which comprises a box body, a control device body and a damping mechanism, wherein the damping mechanism comprises a mounting plate, two inclined rods, a sliding rod, two sliding cylinders, two damping springs, two sliding blocks and two dampers;

the mounting plate with box sliding connection, and be located in the box, two the down tube respectively with two mounting plate swivelling joint, all is located one side of mounting plate, the slide bar with box fixed connection, and be located in the box, two the slide tube respectively with slide bar sliding connection, and respectively with two down tube swivelling joint, two damping spring with two the slide tube fixed connection, and respectively with box fixed connection, two the slider respectively with two the slide tube fixed connection, and respectively with box sliding connection, two the attenuator respectively with two slider fixed connection, and respectively with box fixed connection, the controlling means body set up in the mounting plate is kept away from two one side of down tube.

The damping mechanism further comprises two limiting blocks, wherein the two limiting blocks are fixedly connected with the mounting plate respectively and are connected with the box body in a sliding mode respectively.

The damping mechanism further comprises two buffer rods, the two buffer rods are respectively fixedly connected with the two limiting blocks, and are respectively fixedly connected with the box body and are both located between the limiting blocks and the box body.

The damping mechanism further comprises two fixing components, wherein the two fixing components are respectively arranged on one side, away from the two diagonal rods, of the mounting plate.

The fixing assembly comprises a screw rod and a supporting plate, the screw rod is in threaded connection with the mounting plate and penetrates through the mounting plate, and the supporting plate is in rotary connection with the screw rod and is in sliding connection with the mounting plate.

According to the control device, the box body provides mounting conditions for the control device body and the damping mechanism, the control device body can control a computer, when the control device body is moved to jolt, the mounting plate slides to one side close to the two inclined rods to drive the two inclined rods to rotate, when the included angle between the two inclined rods and the mounting plate is reduced, the two sliding cylinders of the two inclined rods slide to one side close to the damping spring, the damping spring is stressed to shrink and deform to counteract the force born by the mounting plate, meanwhile, the two sliding cylinders drive the two sliding blocks to slide in the box body, and the two sliding blocks drive the two dampers to shrink to prevent the two damping springs from reciprocating and rebounding, so that the problem that the control device is damaged in the box body due to the influence of external force in the moving process is solved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural view of a control device according to a first embodiment of the present utility model.

Fig. 2 is a sectional view of a control device according to a first embodiment of the present utility model.

Fig. 3 is a sectional view of a control device according to a second embodiment of the present utility model.

101-box, 102-controlling means body, 103-damper, 104-mounting panel, 105-diagonal bar, 106-slide bar, 107-slide tube, 108-damping spring, 109-slider, 110-attenuator, 111-stopper, 112-buffer rod, 201-fixed subassembly, 202-screw rod, 203-butt plate.

Detailed Description

The first embodiment of the utility model is as follows:

referring to fig. 1-2, fig. 1 is a schematic structural diagram of a control device. Fig. 2 is a cross-sectional view of a control device.

The utility model provides a control device, which comprises a box body 101, a control device body 102 and a damping mechanism 103, wherein the damping mechanism 103 comprises a mounting plate 104, two inclined rods 105, a sliding rod 106, two sliding cylinders 107, two damping springs 108, two sliding blocks 109, two dampers 110, two limiting blocks 111 and two buffer rods 112. The problem that the control device jolts in the box 101 and damages due to the influence of external force in the moving process of the control device is solved by the scheme, and it can be understood that the scheme can be used in the scene of damping the control device body 102 and can also be used for solving the problem that the control device body 102 damages due to direct contact with the box 101 when the mounting plate 104 slides down.

For this embodiment, the mounting plate 104 is slidingly connected to the casing 101 and is located in the casing 101, the two diagonal rods 105 are respectively rotationally connected to the two mounting plates 104 and are located at one side of the mounting plate 104, the slide rod 106 is fixedly connected to the casing 101 and is located in the casing 101, the two slide cylinders 107 are respectively slidingly connected to the slide rod 106 and are respectively rotationally connected to the two diagonal rods 105, the two damping springs 108 are fixedly connected to the two slide cylinders 107 and are respectively fixedly connected to the casing 101, the two slide blocks 109 are respectively fixedly connected to the two slide cylinders 107 and are respectively slidingly connected to the casing 101, the two dampers 110 are respectively fixedly connected to the two slide blocks 109 and are respectively fixedly connected to the casing 101, and the control device body 102 is arranged at one side of the mounting plate 104 away from the two diagonal rods 105. The box 101 provides mounting conditions for the control device body 102 and the damping mechanism 103, a computer can be controlled through the control device body 102, the mounting plate 104 provides mounting conditions for the control device body 102, the sliding rod 106 provides mounting conditions for the sliding cylinders 107, the two inclined rods 105 rotate to drive the two sliding cylinders 107 to move on the sliding rod 106 towards one side close to the damping springs 108 or one side far away from the damping springs 108, the force applied to the mounting plate 104 can be counteracted through the two damping springs 108, the two sliding blocks 109 move to drive the two dampers 110 to retract, and the two damping springs 108 can be prevented from rebounding back and forth through the two dampers 110.

The two limiting blocks 111 are fixedly connected with the mounting plate 104 respectively, and are slidably connected with the box 101 respectively. The mounting board 104 can be limited by two limiting blocks 111, so that the mounting board 104 is prevented from sliding out of a preset range.

Secondly, the two buffer rods 112 are respectively and fixedly connected with the two limiting blocks 111, and are respectively and fixedly connected with the box 101, and are respectively located between the limiting blocks 111 and the box 101. The two buffer rods 112 can buffer the mounting plate 104, so as to prevent the mounting plate 104 from directly contacting the box 101 when sliding down, thereby damaging the control device body 102.

When the control device body 102 is moved to bump, the mounting plate 104 slides to one side close to the two diagonal rods 105, the two limiting blocks 111 slide in the box 101, the mounting plate 104 is guided and limited, the two buffer rods 112 buffer the mounting plate 104, partial forces born by the mounting plate 104 are counteracted, the mounting plate 104 drives the two diagonal rods 105 to rotate, when the included angle between the two diagonal rods 105 and the mounting plate 104 becomes smaller, the two diagonal rods 105 slide to one side close to the damping springs 108, the damping springs 108 bear shrinkage deformation to counteract the forces born by the mounting plate 104, meanwhile, the two sliding cylinders 107 drive the two sliding blocks 109 to slide in the box 101, the two sliding blocks 109 drive the two dampers 110 to shrink, and the two damping springs 108 are prevented from rebounding back to each other, so that the problem that the control device is damaged in the box 101 due to the influence of external force possibly generated in the moving process of the control device is solved.

The second embodiment of the utility model is as follows:

referring to fig. 3, fig. 3 is a cross-sectional view of a control device, where the damping mechanism 103 further includes two fixing assemblies 201, and the fixing assemblies 201 include a screw 202 and an abutment plate 203.

In the control device of this embodiment, two fixing assemblies 201 are respectively disposed on the sides of the mounting plate 104 away from the two diagonal rods 105. The control device body 102 may be of different sizes by two of the fixing members 201.

For this embodiment, the screw 202 is screwed with the mounting plate 104 and penetrates the mounting plate 104, and the holding plate 203 is rotatably connected with the screw 202 and slidably connected with the mounting plate 104. The screw 202 may be rotated to drive the abutting plate 203 to slide on the mounting plate 104, and the abutting plate 203 may abut against and fix the control device body 102.

When the control device body 102 needs to be fixed, the control device body 102 is placed on the mounting plate 104, the two screws 202 are rotated, and the two screws 202 drive the two abutting plates 203 to slide to one side of the control device body 102 when approaching, until the two abutting plates 203 contact with the control device body 102 and clamp the control device body 102, so that the control device body 102 can be fixed.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present utility model, and it is not intended to limit the scope of the claims hereof, as persons of ordinary skill in the art will understand that all or part of the processes for practicing the embodiments described herein may be practiced with equivalent variations in the claims, which are within the scope of the utility model.

Claims (5)

1. A control device comprises a box body and a control device body, and is characterized in that,

the damping mechanism comprises a mounting plate, two inclined rods, a sliding rod, two sliding cylinders, two damping springs, two sliding blocks and two dampers;

the mounting plate with box sliding connection, and be located in the box, two the down tube respectively with two mounting plate swivelling joint, all is located one side of mounting plate, the slide bar with box fixed connection, and be located in the box, two the slide tube respectively with slide bar sliding connection, and respectively with two down tube swivelling joint, two damping spring with two the slide tube fixed connection, and respectively with box fixed connection, two the slider respectively with two the slide tube fixed connection, and respectively with box sliding connection, two the attenuator respectively with two slider fixed connection, and respectively with box fixed connection, the controlling means body set up in the mounting plate is kept away from two one side of down tube.

2. A control device according to claim 1, wherein,

the damping mechanism further comprises two limiting blocks, wherein the two limiting blocks are fixedly connected with the mounting plate respectively and are connected with the box body in a sliding mode respectively.

3. A control device as claimed in claim 2, characterized in that,

the damping mechanism further comprises two buffer rods, the two buffer rods are respectively fixedly connected with the limiting blocks, and are respectively fixedly connected with the box body and are respectively located between the limiting blocks and the box body.

4. A control device according to claim 3, wherein,

the damping mechanism further comprises two fixing components, wherein the two fixing components are respectively arranged on one side, away from the two diagonal rods, of the mounting plate.

5. A control device according to claim 4, wherein,

the fixing assembly comprises a screw rod and a supporting plate, the screw rod is in threaded connection with the mounting plate and penetrates through the mounting plate, and the supporting plate is in rotary connection with the screw rod and is in sliding connection with the mounting plate.