CN217060379U - Remote monitoring and automatic on-off temperature rise detection system - Google Patents

Abstract

The utility model discloses a remote monitoring and automatic break-make temperature rise detecting system, including workstation and buffer gear, the drawer is installed to the bottom of workstation, and the bottom of drawer is connected with stores the cabinet, the support frame is installed at the top of workstation, and the surface of support frame is connected with places the board for improve panel compressive capacity buffer gear connects in the inboard of placing the board, buffer gear includes slider, guide bar and buffer spring, the inboard of slider is connected with the guide bar, and the surface of guide bar is connected with buffer spring. This remote monitoring and automatic break-make temperature rise detecting system adopts mutually supporting between a plurality of mechanisms, has increased long-range wireless connection function in current device to and make camera automatic identification unusual and send the function to wireless control switch, can remote control, run into the power unusual even under the unknown circumstances, can automatic identification and cut off, thereby reach the effect of remote control and automatic protection.

Description

Remote monitoring and automatic on-off temperature rise detection system

Technical Field

The utility model relates to a remote monitoring and control technical field specifically are remote monitoring and automatic break-make temperature rise detecting system.

Background

The remote monitoring can be divided into two parts of 'monitoring' and 'controlling', wherein the 'monitoring', namely the remote monitoring, can be divided into two parts, namely the monitoring of the environment and the monitoring of a computer system and network equipment, no matter how, the remote monitoring means that information is obtained through a network, and the 'controlling', namely the remote control, means a method for operating a remote computer through the network, and not only comprises the operations of restarting, shutting down and the like of the remote computer, but also comprises the work of daily setting of the remote computer.

The existing test system in the market can only realize a single test function, and a tester needs to monitor the test situation on site for a long time. Therefore, the remote monitoring and automatic on-off temperature rise detection system cannot be remotely controlled in real time according to needs, and cannot automatically protect due to power supply abnormity.

Disclosure of Invention

An object of the utility model is to provide a remote monitoring and automatic break-make temperature rise detecting system 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: remote monitoring and automatic break-make temperature rise detecting system, including workstation and buffer gear, the drawer is installed to the bottom of workstation, and the bottom of drawer is connected with stores the cabinet, the support frame is installed at the top of workstation, and the surface connection of support frame has places the board, is used for improving panel compressive capacity buffer gear connects in the inboard of placing the board, buffer gear includes slider, guide bar and buffer spring, the inboard of slider is connected with the guide bar, and the surface connection of guide bar has buffer spring, buffer spring's outside distributes and has the sliding tray, the top of placing the board distributes and has the grid board, the below of placing the board distributes and has the power, place the top of board and install wireless control switch, the installing frame is installed at the top of grid board.

Further, the inner chamber of installing frame is equipped with the motor, and the top of motor is connected with the pivot, the surface connection of pivot has the bearing, the top of pivot is connected with wireless infrared camera, the left side of installing frame is equipped with the louvre, and the inner chamber of louvre installs the dust screen, the top of dust screen is equipped with accomodates the groove, and accomodates the inner chamber in groove and be connected with reset spring, reset spring's top is connected with the fixture block, and the left side of fixture block installs the driving lever, the outside of driving lever distributes and has the spout, the top of fixture block is equipped with the draw-in groove, the right side of support frame distributes and has the display screen, and the right side of display screen distributes and has the host computer.

Furthermore, the inside diameter of the sliding block is matched with the outside diameter of the guide rod, and the guide rod and the sliding block are vertically distributed.

Furthermore, the grid plate and the placing plate are distributed in a parallel shape, and the diameter of the outer side of the placing plate is consistent with that of the outer side of the grid plate.

Furthermore, the wireless infrared camera is rotationally connected with the motor through a rotating shaft, and the rotating shaft and the wireless infrared camera are vertically distributed.

Furthermore, the dust screens are symmetrically distributed along the vertical center line of the mounting frame, and the dust screens are distributed in a parallel manner.

Furthermore, the fixture block is connected with the dust screen in a sliding mode through the shifting rod, and the return springs are symmetrically distributed along the vertical center line of the fixture block.

The utility model provides a remote monitoring and automatic break-make temperature rise detecting system possesses following beneficial effect: this remote monitoring and automatic break-make temperature rise detecting system, adopt the mutually supporting between a plurality of mechanisms, long-range wireless connection function has been increased in current device, and make camera automatic identification unusual and send the function to the wireless control switch, if long-range needs, can remote control, meet the power unusual even under the unknown condition, can automatic identification and break, thereby reach the effect of remote control and automatic protection, adopt wireless infrared camera, and wireless control switch and cell-phone App three pass through wireless interconnection, and set up camera AI discernment power unusual, and the control switch auto-induction power condition, can carry out automatic protection to the multiple abnormal situation of temperature rise testing arrangement. In addition, under the condition of requirement, an operator can be networked in a remote mobile phone to observe the real-time condition of the power supply and implement operation and control, so that the aims of remote monitoring and control are fulfilled;

1. the utility model discloses a buffer gear who sets up can improve whole holistic compressive capacity of board of placing, thereby can prevent to place the condition that the article overweight and then lead to whole board of placing the appearance rupture of board placed at the top of the board, the article that leads to placing drops, cause the damage of article, influence the normal operation of follow-up whole device, also can improve whole compressive capacity of placing the board simultaneously, can extrude the slider of both sides when placing the board under the effect of gravity when moving downwards, the slider that makes both sides carries out longitudinal motion along the guide bar, utilize the guide bar to improve the stability of slider removal in-process, can extrude the buffer spring of bottom when the slider removes simultaneously, make buffer spring take place deformation, and then utilize the produced reverse acting force of buffer spring deformation to improve the stability when the slider removes.

2. The utility model discloses a combined use between the wireless control switch that sets up and the wireless infrared camera, can liberate the manpower, the work efficiency is improved, no longer need the manual work to carry out real-time supervision to the device, utilize the long-term monitoring power condition of wireless infrared camera, the change of wireless control switch induction source, reach the server on collecting all information, by server intelligent recognition, and protect automatically, and utilize cell-phone App can network into the server, give wireless infrared camera and wireless control switch through the server feedback, the instruction is controlled in the conveying, implement control.

3. The utility model discloses a dust screen that sets up, combined use between louvre and the fixture block, can improve the holistic radiating effect of whole installing frame, it is impaired to prevent that the inside high temperature of installing frame from leading to inside part, simultaneously also can effectually prevent that external dust from entering into the inside of device, lead to inside part bad contact's the condition to appear, influence subsequent normal operation, the louvre that utilizes both sides can give off the heat that the installing frame internals during operation produced and handle, reduce the inside temperature of installing frame with this, and the dust screen that sets up can carry out effectual filtration to the dust that the air has, and then can prevent that the dust from entering into the inner chamber of device in the middle of through the louvre.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the remote monitoring and automatic on-off temperature rise detection system of the present invention;

fig. 2 is an enlarged schematic structural view of a point a in fig. 1 of the remote monitoring and automatic on-off temperature rise detection system of the present invention;

fig. 3 is the structural schematic diagram of the buffering mechanism of the remote monitoring and automatic on-off temperature rise detection system of the present invention.

In the figure: 1. a work table; 2. a drawer; 3. a storage cabinet; 4. a support frame; 5. placing the plate; 6. a buffer mechanism; 601. a slider; 602. a guide rod; 603. a buffer spring; 7. a sliding groove; 8. a grid plate; 9. a power source; 10. a wireless control switch; 11. installing a frame; 12. a motor; 13. a rotating shaft; 14. a bearing; 15. a wireless infrared camera; 16. heat dissipation holes; 17. a dust screen; 18. a storage groove; 19. a return spring; 20. a clamping block; 21. a deflector rod; 22. a chute; 23. a card slot; 24. a display screen; 25. a host.

Detailed Description

Referring to fig. 1 and 3, the present invention provides a technical solution: a remote monitoring and automatic on-off temperature rise detection system comprises a workbench 1 and a buffer mechanism 6, wherein a drawer 2 is installed at the bottom of the workbench 1, the bottom of the drawer 2 is connected with a storage cabinet 3, the drawer 2 and the storage cabinet 3 are arranged for storing some instruments for convenient subsequent direct taking, a support frame 4 is installed at the top of the workbench 1, the outer surface of the support frame 4 is connected with a placing plate 5, the buffer mechanism 6 for improving the pressure resistance of a plate is connected to the inner side of the placing plate 5, the buffer mechanism 6 comprises a sliding block 601, a guide rod 602 and a buffer spring 603, the inner side of the sliding block 601 is connected with the guide rod 602, the outer surface of the guide rod 602 is connected with the buffer spring 603, the diameter size of the inner side of the sliding block 601 is matched with the diameter size of the outer side of the guide rod 602, the guide rod 602 and the sliding block 601 are vertically distributed with the sliding block 601, when the placing plate 5 drives the sliding blocks 601 at two sides to longitudinally move, the sliding block 601 can move along the guide rod 602, the stability of the sliding block 601 in the moving process is improved by the aid of the guide rod 602, a reverse acting force is generated when the buffer spring 603 deforms under the action of the sliding block 601, the stability of the whole placing plate 5 in the moving process is improved by the aid of the reverse acting force, sliding grooves 7 are distributed on the outer side of the buffer spring 603, grid plates 8 are distributed above the placing plate 5, the grid plates 8 and the placing plate 5 are distributed in a parallel mode, the diameter size of the outer side of the placing plate 5 is consistent with that of the outer side of the grid plates 8, a power supply 9 is distributed below the placing plate 5, a wireless control switch 10 is mounted at the top of the placing plate 5, and a mounting frame 11 is mounted at the top of the grid plates 8;

referring to fig. 1, a motor 12 is disposed in an inner cavity of an installation frame 11, a rotating shaft 13 is connected to a top of the motor 12, the rotating shaft 13 can be driven to rotate by the operation of the motor 12, and then a wireless infrared camera 15 can be driven to rotate by the rotating shaft 13, so that an angle and an orientation of the wireless infrared camera 15 can be adjusted, a bearing 14 is connected to an outer surface of the rotating shaft 13, the bearing 14 is used for assisting the rotating shaft 13 to rotate, the wireless infrared camera 15 is connected to the top of the rotating shaft 13, the wireless infrared camera 15 is rotatably connected to the motor 12 through the rotating shaft 13, and the rotating shaft 13 and the wireless infrared camera 15 are vertically distributed;

referring to fig. 1 and 2, heat dissipation holes 16 are formed in the left side of the mounting frame 11, dust screens 17 are installed in inner cavities of the heat dissipation holes 16, the heat generated by electrical components inside the mounting frame 11 during operation can be dissipated by the heat dissipation holes 16, the dust screens 17 are symmetrically distributed along a vertical center line of the mounting frame 11, the dust screens 17 are distributed in parallel, the dust screens 17 are arranged to effectively prevent external dust from entering the inner cavities of the mounting frame 11, a receiving groove 18 is formed in the top of the dust screens 17, an inner cavity of the receiving groove 18 is connected with a return spring 19, a fixture block 20 is connected to the top of the return spring 19, a deflector rod 21 is installed on the left side of the fixture block 20, the fixture block 20 is slidably connected to the dust screens 17 through the deflector rod 21, the return spring 19 is symmetrically distributed along the vertical center line of the fixture block 20, sliding grooves 22 are formed in the outer side of the deflector rod 21, and a clamping groove 23 is formed in the top of the fixture block 20, when the clamping block 20 is clamped into the clamping groove 23, the whole dust screen 17 can be fixed in the heat dissipation hole 16, the display screen 24 is distributed on the right side of the support frame 4, and the host 25 is distributed on the right side of the display screen 24.

In summary, when the remote monitoring and automatic on-off temperature rise detection system is used, according to the structure shown in fig. 1 and 3, the wireless control switch 10 is firstly placed on the top of the placing plate 5, and the placing board 5 is pressed down due to gravity when the wireless control switch 10 is placed on top of the placing board 5, so that the placing plate 5 moves downwards, then the sliders 601 at the two sides are driven to move longitudinally under the action of the placing plate 5, and when the sliders 601 move longitudinally, the sliders 602 move along the guide rods, further, the guide rod 602 is used to improve the stability of the sliding block 601 during the moving process, and the buffer spring 603 is deformed when the sliding block 601 moves, and a reverse acting force is generated when the buffer spring 603 is deformed, further, the impact force caused by the movement of the slider 601 is offset by the reverse acting force, so that the stability of the placing plate 5 during the movement is improved;

then according to the structure shown in fig. 1, when the whole device is in a normal operation process, the situation of the power supply 9 can be monitored for a long time by using the arranged wireless infrared camera 15, the wireless control switch 10 can sense the change of the power supply 9, collect all information and upload the information to the server, the information is intelligently identified by the server and automatically protected, so that the power supply 9 can be timely turned off when the power supply 9 changes, the rotating shaft 13 can be driven by the motor 12 to rotate along with the power supply, and then the wireless infrared camera 15 can be driven to rotate along with the power supply under the action of the rotating shaft 13, so that the orientation of the wireless infrared camera 15 can be adjusted, and observation is facilitated;

finally, according to the structure shown in fig. 1 and fig. 2, the dust screen 17 can effectively prevent external dust from entering the inner cavity of the mounting frame 11, so that the internal electrical element suffers from dust erosion, and poor contact occurs, when the dust screen 17 used for a long time needs to be disassembled, the shifting lever 21 shifts the fixture block 20 downwards, so that the fixture block 20 moves downwards, and the fixture block 20 is separated from the inside of the clamping groove 23, and the reset spring 19 connected at the bottom is extruded when the fixture block 20 moves downwards, so that the reset spring 19 deforms, and generates reverse potential energy, and then under the action of the shifting lever 21, the fixture block 20 is completely separated from the clamping groove 23 and retracts into the inner cavity of the accommodating groove 18, and then the whole dust screen 17 can be disassembled, and is convenient to replace or clean.

Claims (7)

1. Remote monitoring and automatic on-off temperature rise detection system, which is characterized by comprising a workbench (1) and a buffer mechanism (6), wherein a drawer (2) is installed at the bottom of the workbench (1), the bottom of the drawer (2) is connected with a storage cabinet (3), a support frame (4) is installed at the top of the workbench (1), a placing plate (5) is connected to the outer surface of the support frame (4), the buffer mechanism (6) for improving the pressure resistance of a plate is connected to the inner side of the placing plate (5), the buffer mechanism (6) comprises a sliding block (601), a guide rod (602) and a buffer spring (603), the inner side of the sliding block (601) is connected with a guide rod (602), the outer surface of the guide rod (602) is connected with the buffer spring (603), sliding grooves (7) are distributed at the outer side of the buffer spring (603), and a grid plate (8) is distributed above the placing plate (5), the wireless grid plate is characterized in that a power supply (9) is distributed below the placing plate (5), a wireless control switch (10) is installed at the top of the placing plate (5), and an installing frame (11) is installed at the top of the grid plate (8).

2. The remote monitoring and automatic on-off temperature rise detection system according to claim 1, wherein a motor (12) is arranged in an inner cavity of the mounting frame (11), a rotating shaft (13) is connected to the top of the motor (12), a bearing (14) is connected to the outer surface of the rotating shaft (13), a wireless infrared camera (15) is connected to the top of the rotating shaft (13), heat dissipation holes (16) are formed in the left side of the mounting frame (11), a dust screen (17) is installed in the inner cavity of the heat dissipation holes (16), a containing groove (18) is formed in the top of the dust screen (17), a return spring (19) is connected to the inner cavity of the containing groove (18), a clamping block (20) is connected to the top of the return spring (19), a shifting rod (21) is installed on the left side of the clamping block (20), a sliding groove (22) is formed in the outer side of the shifting rod (21), and a clamping groove (23) is formed in the top of the clamping block (20), the right side of support frame (4) distributes and has display screen (24), and the right side of display screen (24) distributes and has host computer (25).

3. The system for remote monitoring and automatic on-off temperature rise detection according to claim 1, wherein the inside diameter of the sliding block (601) is matched with the outside diameter of the guide rod (602), and the guide rod (602) and the sliding block (601) are vertically distributed.

4. The remote monitoring and automatic on-off temperature rise detection system as claimed in claim 1, wherein the grid plate (8) and the placement plate (5) are distributed in parallel, and the outside diameter of the placement plate (5) is the same as the outside diameter of the grid plate (8).

5. The system for remote monitoring and automatic on-off temperature rise detection according to claim 2, wherein the wireless infrared camera (15) is rotatably connected with the motor (12) through a rotating shaft (13), and the rotating shaft (13) and the wireless infrared camera (15) are vertically distributed.

6. The remote monitoring and automatic on-off temperature rise detection system as claimed in claim 2, wherein the dust screens (17) are symmetrically distributed along a vertical central line of the mounting frame (11), and the dust screens (17) are distributed in parallel.

7. The system for remote monitoring and automatic on-off temperature rise detection according to claim 2, wherein the fixture block (20) is slidably connected with the dust screen (17) through a shift lever (21), and the return springs (19) are symmetrically distributed along a vertical center line of the fixture block (20).

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