JP2021190686A - Audio and video processing system based on big data - Google Patents

Abstract

To improve heat radiation efficiency of an audio and video processing system based on big data, to effectively utilize arrangement space, and to easily move after completion of assembly of the processing system.SOLUTION: An audio and video processing system based on big data comprises a plurality of audio and video processing apparatuses 2 for performing audio and video processing based on the big data, in a box body 1 serving as a support function for assembling and configuration. On a top side of the box body 1, there is disposed an operating table 3 for placing the device or for an operator's workspace. On the operating table 3, there are disposed a stabilizing mechanism 5 for fixing and positions limitation of the device to be placed and an engaging mechanism 6 for enhancing a role of stabilization of the device. In the box body 1, there are disposed a pedestal mechanism 4 capable of adjusting an arrangement space to mount and isolate audio and video processing devices 2 of various types and standards. On both sides of the box body 1, there is disposed a heat radiation mechanism 7 for the audio and video processing devices 2 in the box body 1 to improve heat radiation efficiency. On a bottom side of the box body 1, there is disposed a moving mechanism 8 for moving and placing the box body 1.SELECTED DRAWING: Figure 1

Description

The present invention relates to a field of sound image processing based on big data, and more particularly to a sound image processing system based on big data.

Big data refers to datasets that cannot be captured, managed, or processed by traditional software tools over a period of time. By using a new processing mode, stronger decision-making power,
Has the ability to discover and optimize processes. It has a large capacity, a high growth rate, and a variety of information assets. Today's society is developing rapidly, science and technology are developing, and information is being distributed. People's interactions have become more and more intimate, and their lives have become more convenient. Big data is a product of this high-tech era. The value of big data is that companies that provide products and services to a large number of consumers can use big data for accurate marketing, and small but beautiful models of small and medium-sized companies use big data to provide services. You can make a model change.

However, in order to perform sound image processing based on big data, it is usually necessary to use different sound image collecting devices and computer devices, and operating devices of different types and standards have a limited placement space when they are centrally placed. It is difficult to make effective use of the above, and at the same time, it is difficult to move a plurality of facilities required for the processing system after the assembly is completed.

In order to solve the above problem, the following big data-based sound image processing system will be adopted.

The sound image processing system based on big data is
The box body 1, the sound image processing device 2, the operation table 3, the pedestal mechanism 4, the stabilizing mechanism 5, the engaging mechanism 6, the heat dissipation mechanism 7, and the moving mechanism 8 are included.
A plurality of sound image processing devices 2 that perform the sound image processing based on big data are provided in the box body 1 that supports the assembly and configuration of the device, and the device is placed on the top side of the box body 1. An operation table 3 to be used or used as a workspace for sound image processing by an operator is provided, and the sound image processing device 2 of various types and standards is placed and isolated in the box body 1. The pedestal mechanism 4 is provided, and the stabilizing mechanism 5 for fixing and limiting the position of the operating device placed in the operating table 3 is provided in the operating table 3, and the stabilizing mechanism 5 is provided with the stabilizing mechanism 5. The engagement mechanism 6 that enhances the role of device stability played by the mechanism 5 is connected, and the heat dissipation mechanism that imparts a heat dissipation effect to the sound image processing device 2 in the box body 1 on both sides of the box body 1. 7 is provided, and the moving mechanism 8 for moving and placing the box 1 is provided on the bottom side of the box 1.

Preferably, the pedestal mechanism 4 includes a mounting frame 41, an adjusting rod 42, a first gear 43, a transmission rod 44, a second gear 45, a screw rod 46, a support gear sleeve 47 and a tumbler.
A plurality of pre-described frames 41 are slidably connected to the inside of the box 1, and the plurality of pre-described frames 41 are arranged in parallel with each other in the box 1. One screw rod 46 is fixedly connected to each side of the screw rod 46, the two screw rods 46 are configured in parallel and in opposite directions, and the two screw rods 46 are respectively configured. Both sides of the plurality of pre-described frames 41 are sequentially penetrated, both ends of the adjusting rod 42 are rotatably connected to both sides of the pre-described mounting frame 41, and the adjusting rod 42 is connected to the screw rod 46. Is vertical, the first gear 43 is fixedly connected to the middle portion of the adjustment rod 42, and the transmission rods 4 are connected to both sides of the adjustment rod 42, respectively.
4 is provided, the transmission rod 44 is rotatably connected to the above-mentioned mounting frame 41, and the second gear 45 is fixedly connected to both ends of the transmission rod 44, respectively, and the transmission is performed. The second gear 45 installed on one side of the rod 44 closer to the adjusting rod 42 and the first gear 43 mesh with each other, and the transmission rod 44 is installed on the opposite side of the adjusting rod 42. The second gear 45 and one side of the support gear sleeve 47 are engaged with each other, the support gear sleeve 47 and the screw rod 46 on the same side are screw-connected, and the other side of the support gear sleeve 47 is the rolling. It is slidably connected to the above-mentioned mounting frame 41 by a mover 48.

Preferably, the heat dissipation mechanism 7 includes a side lid 71, a heat dissipation hole 72, a handle 73, a sealing plate 74, and a partition net 75.
The side lids 71 are provided on both side surfaces of the box body 1 facing each other, and the side lids 71 are provided.
The heat radiating hole 72 is provided in the heat radiating hole 72, and the heat radiating hole 72 has a rich character shape. The sealing plate 74 is slidably connected to the inside of the side lid 71, and the sealing plate 74 Has a rich character shape, the width of the sealing plate 74 is smaller than the width of the side lid 71, and the handle 73 is fixedly connected to the central portion of the sealing plate 74. The partition net 75 is fixedly connected to the bottom side.

Preferably, the stabilizing mechanism 5 includes a fixing groove 51, a mounting block 52, a bandage 53, and a winding cylinder 54.
And the torsion spring 55, two fixing grooves 51 are provided on one side of the operation table 3, and two winding cylinders 54 are provided on the other side of the operation table 3. One torsion spring 55 is provided at both ends of the winding cylinder 54, one end of the torsion spring 55 is fixedly connected to the operation table 3, and the other end of the torsion spring 55 is the winding cylinder. The bandage 53 is fixedly connected to the winding tube 54, the bandage 53 is wound around the side surface of the winding tube 54, one end of the bandage 53 is fixedly connected to the winding tube 54, and the other bandlet 53 is fixedly connected. The front-mounted block 52 is fixedly connected to the end, and the width of one side of the fixed groove 51 opened on one side of the operation table 3 near the front-mounted block 52 is the length of the front-mounted block 52. Smaller.

Preferably, the engaging mechanism 6 has a pressing block 61, a lock block 62, and a first spring 63.
, Includes positioning block 64 and second spring 65,
The pressing block 61 and the operation table 3 are slidably connected, and the two front-mounted blocks 52 and the pressing block 61 are engaged with each other and connected to one side of the front-mounted block 52. The bandage 53 is penetrated through the pressing block 61, the two lock blocks 62 are in contact with the bottom side of the pressing block 61, and the two lock blocks 62 are symmetrically installed. One end of the lock block 62 and the operation table 3 are rotatably connected, the other end of the lock block 62 comes into contact with the side surface of the bandage 53, and the lock block 62 is connected to the pressing block 61 of the lock block 62. The first spring 63 is fixedly connected to the opposite side, the other end of the first spring 63 is fixedly connected to the operation table 3, and the positioning blocks are fixedly connected to both sides of the pressing block 61, respectively. 64 is provided, the positioning block 64 and the operation table 3 are slidably connected, and one end of the positioning block 64 and the side surface of the pressing block 61 are engaged with each other to form the positioning block 64. The second spring 65 is fixedly connected to both sides, and the other end of the second spring 65 is fixedly connected to the operation table 3.

Preferably, the moving mechanism 8 includes a roller 81, a control rod 82, an operating rod 83, a rotating shaft 84, a third gear 85, a brake rod 86 and a third spring 87.
Two rotation shafts 84 are rotatably connected to the bottom side of the box body 1, and the rotation shaft 84 is rotatably connected.
The roller 81 is fixedly connected to both ends of the rotary shaft 84, the third gear 85 is fixedly connected to the middle portion of the rotating shaft 84, and a slightly rectangular tooth configuration is provided on the side surface of the third gear 85. Is provided, and the brake rod 86 is provided on one side of the third gear 85, the brake rod 86 and the box body 1 are slidably connected, and one end of the brake rod 86 is provided. The brake rod 8 is provided with a rectangular tooth configuration.
The third spring 87 is fixedly connected to the other end of the third spring 87, the other end of the third spring 87 is fixedly connected to the box body 1, and the control is connected to the middle portion of the brake rod 86. Rod 82
The control rod 82 and the brake rod 86 are slidably connected to each other, and a triangular protrusion is provided on one side of the control rod 82 near the third spring 87. The control rod 82 and the box body 1 are slidably connected, and both sides of one end of the control rod 82 are slidably connected to both inner sides of the operation rod 83, respectively, and one end of the operation rod 83 is slidably connected. And the box body 1 are rotatably connected to each other.

The advantages of the present invention are as follows, as compared with the prior art.
(1) The sound image processing device of each type can be mounted by the pedestal mechanism, the provided mounting space can be fully utilized, and the sound image processing device is good if it is operating normally together with the heat dissipation mechanism. Can achieve the heat dissipation effect of. By rotating the adjustment rod 42, the transmission rod 44 is driven by the adjustment rod 42 by the first gear 43 and the second gear 45 to which the transmission rod 44 is connected on both sides. In this case, the transmission rods 44 installed on both sides rotate in opposite directions to each other, but the two screw rods 46 located on both sides of the box body 1 are also installed in opposite directions to each other. When the support gear sleeves 47 on both sides are driven by the second gear 45 at the other end of the transmission rod 44, the support gear sleeves 47 installed on both sides can move in the same direction. .. Support gear sleeve 47
Since the other side is slidably connected to the previously described mounting frame 41 by the tumbler, the support gear sleeve 47 can rotate smoothly and can support the previously described mounting frame 41. When configured in this way, the dimensions of the various sound image processing devices have different standards, but the device adjusts the distance between the pre-described frames 41 by rotating the adjustment rod 42 by the user. Can be placed. As a result, the storage space inside the box 1 can be reasonably used. Both side portions of the box body 1 can be protected by the side lids 71 installed on both sides of the box body 1. Further, although a large amount of heat is generated during the operation of the sound image processing device, the heat dissipation hole 722 provided in the side lid 71 can achieve the ventilate effect in the box body 1 and improve the heat dissipation efficiency. Further, according to an actual request, the sealing plate 74 can be slid by the handle 73 to bring the sealing plate 74 and the heat radiating hole 72 into a polymerization or interleaving state. Thereby, it is possible to improve the Ventile toe property of the entire box body 1. Further, since the partition net 75 is provided on the bottom side of each of the front-mounted frames 41 in the box body 1, the heat dissipation effect can be guaranteed and the independence between the device layers can be ensured.
(2) The stabilizing mechanism makes it possible to stabilize the position of the moving device on the operation table, avoid slipping or falling of the device when the entire box body moves, and is accompanied by the engaging mechanism. Furthermore, the stability and localization effect of the bandage on the moving device can be improved. The bandage 53 can be wound from the winding tube 54 by pulling the previously described block 52 fixedly connected to the end of the bandage 53. As a result, the moving device installed on the operation table 3 can be fixed, so that it is possible to prevent the device from moving or falling during movement. The above-mentioned mounting block 52 can be engaged with the fixing groove 512 provided on one side of the operation table 3.
Thereby, the fixing effect of fixing the bandage 53 can be achieved. On the other hand, since the torsion springs 55 are provided at both ends of the winding cylinder 54 to which the other end of the bandage 53 is fixedly connected, if the bandage 53 is put into a tension state, a stabilizing effect on the moving device is obtained. Can be achieved, facilitating the storage of the bandage 53. The pressing block 61 can secure the pre-described block 52 to which the bandage 53 is connected. Then, in order to further improve the stabilizing effect of the bandage 53 on the moving device on the operation table 3, the pressing block 61 on one side may be pressed, and the two pressing blocks 61 on the bottom side may be pressed. Since the lock block 62 can be pressed and the end portion of the lock block 62 and both sides of the bandage 53 can be brought into close contact with each other, it is possible to prevent the bandage 53 from continuously sliding. When the pressing block 61 presses, the positioning blocks 64 on both sides of the pressing block 61 limit the position of the pressing block 61 to prevent the pressing block 61 from popping out due to the pushing of the first spring 63. Can be done. In this case, the bandage 53 can achieve the promising effect of limiting the mobile device. On the other hand, when trying to release the restricted state, the positioning blocks 64 on both sides of the pressing block 61 may be slid, and the sandwiched state with respect to the bandage 53 may be released and the bandage 53 may be wound. can.
(3) The entire box body can be easily moved by the moving mechanism, the rollers can be braked comfortably while meeting the demands of sound image processing in various usage scenes, and the stability in the mounting operation is ensured. The entire device box 1 can be easily moved by the roller 81 located on the bottom side of the device box 1. On the other hand, when trying to stop, the control rod 82 can be slid toward the outside of the device box 1 by rotating the operation rods 83 on both sides. Since the triangular protrusion is provided on the side surface of the control rod 82, when the control rod 82 slides out, the triangular protrusion on the side surface of the control rod 82 is no longer in contact with the brake rod 86, and the first By pushing the three springs 87, the end of the brake rod 82 and the third gear 85 in the middle of the rotating shaft 84 are meshed with each other, and the third gear 85 and the end of the brake rod 82 come into contact with each other. Then, the device box 1 may be subsequently pushed, and the rotating shaft 84 is rotated so as to mesh the third gear 85 with the end of the brake rod 82. When the device box 1 is to be moved, the operation rod 83 may be rotated in the opposite direction, and the brake rod 82 is pushed up by the triangular protrusion on the side surface of the control rod 82. In this case, the roller 81 can rotate freely, and the entire device can be easily moved.

Hereinafter, the present invention will be further described with reference to the drawings and examples.
It is a block diagram of the preferable embodiment of the sound image processing system based on the big data which concerns on this invention. It is an enlarged view of the part A shown in FIG. It is a figure which shows the connection structure of the mounting frame shown in FIG. 1 and a heat dissipation mechanism. It is an enlarged view of part B shown in FIG. It is a figure which shows the connection structure of the operation table and a stable structure shown in FIG. It is a figure which shows the connection structure of the stable structure and the engagement structure shown in FIG. It is a schematic diagram which shows the connection structure of a box body and a moving structure shown in FIG.

[Explanation of code]
Box body 1
Sound image processing device 2
Operation table 3
Pedestal mechanism 4
Stabilization mechanism 5
Engagement mechanism 6
Heat dissipation mechanism 7
Movement mechanism 8
Mounting frame 41
Adjustment rod 42
1st gear 43
Transmission rod 44
2nd gear 45
Screw rod 46
Support gear sleeve 47
Roller 48
Side lid 71
Heat dissipation hole 72
Handle 73
Seal plate 74
Partition net 75
Fixing groove 51
Placement block 52
Bandage 53
Winding cylinder 54
Torsion spring 55
Press block 61
Lock block 62
1st spring 63
Positioning block 64
2nd spring 65
Roller 81
Control rod 82
Operation rod 83
Rotation axis 84
3rd gear 85
Brake rod 86
3rd spring 87

In order to make it easier to understand the technical means, creative features, objectives and effects realized by the present invention, the present invention will be further described below in relation to specific embodiments.

As shown in FIGS. 1 to 7, the big data-based sound image processing system according to the present invention is
It includes a box body 1, a sound image processing device 2, an operation table 3, a pedestal mechanism 4, a stabilizing mechanism 5, an engaging mechanism 6, a heat radiating mechanism 7, and a moving mechanism 8. A plurality of sound image processing devices 2 that perform the sound image processing based on big data are provided in the box body 1 that functions as an assembly and a support for the configuration of the device and the like. On the top side of the box body 1, an operation table 3 is provided, which is used for placing a device or the like or as a workspace for sound image processing by an operator. The pedestal mechanism 4 for mounting and isolating the sound image processing device 2 of various types and standards is provided in the box body 1. The stabilizing mechanism 5 for fixing and limiting the position of the operating device placed in the operating table 3 is provided in the operating table 3. The stabilizing mechanism 5 is connected to the engaging mechanism 6 that further enhances the role of device stability played by the stabilizing mechanism 5. Both sides of the box 1 are provided with the heat dissipation mechanism 7 that gives a heat dissipation effect to the sound image processing device 2 in the box 1.
The moving mechanism 8 for moving and placing the box 1 is provided on the bottom side of the box 1.
Specifically, the pedestal mechanism 4 includes a mounting frame 41, an adjusting rod 42, a first gear 43, a transmission rod 44, a second gear 45, a screw rod 46, and a supported gear sleeve (geared sl).
eve) 47 and tumblers are included. A plurality of previously described frames 41 are slidably connected to the inside of the box 1. The plurality of pre-described frames 41 are arranged in parallel with each other. One screw rod 46 is fixedly connected to both sides of the box 1. The two screw rods 46 are configured in parallel and in opposite directions. 2
Each of the screw rods 46 sequentially penetrates both sides of the plurality of previously described mounting frames 41. Both ends of the adjusting rod 42 are rotatably connected to both sides of the above-mentioned mounting frame 41, and the adjusting rod 42 is perpendicular to the screw rod 46. The first gear 43 is fixedly connected to the central portion of the adjusting rod 42. The transmission rods 44 are provided on both sides of the adjustment rod 42, respectively. The transmission rod 44 is rotatably connected to the above-mentioned mounting frame 41, and the second gear 45 is fixedly connected to both ends of the transmission rod 44, respectively. The adjustment rod 4 in the transmission rod 44
The second gear 45 installed on one side closer to the second gear and the first gear 43 mesh with each other. The second gear 45 installed on one side of the transmission rod 44 opposite to the adjustment rod 42 and one side of the support gear sleeve 47 mesh with each other. The support gear sleeve 47 and the screw rod 46 on the same side thereof are screw-connected. The other side of the support gear sleeve 47 is slidably connected to the above-mentioned mounting frame 41 by the tumbler. By rotating the adjustment rod 42, the transmission rod 44 is driven by the adjustment rod 42 by the first gear 43 and the second gear 45 to which the transmission rod 44 is connected on both sides. In this case, the transmission rods 44 installed on both sides rotate in opposite directions to each other, but the box body 1
Since the two screw rods 46 located on both sides of the above are also installed in opposite directions to each other,
The support gear sleeves 47 on both sides are the second gear 45 at the other end of the transmission rod 44.
When driven by, the support gear sleeves 47 installed on both sides of the support gear sleeve 47 can move in the same direction. Since the other side of the support gear sleeve 47 is slidably connected to the previously described mounting frame 41 by the tumbler, the support gear sleeve 47 can rotate smoothly and can support the previously described mounting frame 41. can. When configured in this way, the dimensions of the various sound image processing devices have different standards, but the device adjusts the distance between the pre-described frames 41 by rotating the adjustment rod 42 by the user. Can be placed. As a result, the storage space inside the box 1 can be reasonably used.

Specifically, the heat dissipation mechanism 7 includes a side lid 71, a heat dissipation hole 72, a handle 73, a sealing plate 74, and the like.
It has a partition net 75 and. The side lids 71 are provided on both side surfaces of the box body 1 facing each other. The heat dissipation hole 72 is provided in the side lid 71. The heat dissipation hole 72 is
It has a rich character. In addition, the Fengzi-shaped "Fengzi" refers to the simplified Chinese character, which is a shape in which one vertical book penetrates three horizontal bars. The sealing plate 74 is slidably connected to the inside of the side lid 71. The sealing plate 74 has a rich character shape, and the width of the sealing plate 74 is smaller than the width of the side lid 71. The handle 73 is fixedly connected to the central portion of the sealing plate 74. The partition net 75 is fixedly connected to the bottom side of the above-mentioned mounting frame 41. Both side portions of the box body 1 can be protected by the side lids 71 installed on both sides of the box body 1. Moreover,
Although a large amount of heat is generated during the operation of the sound image processing device, the heat dissipation hole 7 provided in the side lid 71.
22 Therefore, the Ventilate effect in the box 1 can be achieved, and the heat dissipation efficiency is improved.
Further, according to an actual request, the sealing plate 74 can be slid by the handle 73 to bring the sealing plate 74 and the heat radiating hole 72 into a polymerization or interleaving state. Thereby, it is possible to improve the Ventile toe property of the entire box body 1. Further, since the partition net 75 is provided on the bottom side of each of the front-mounted frames 41 in the box body 1, the heat dissipation effect can be guaranteed and the independence between the device layers can be ensured.

Specifically, the stabilizing mechanism 5 includes a fixing groove 51, a mounting block 52, a bandage 53, a winding cylinder 54, and a torsion spring 55. Two fixing grooves 51 are provided on one side of the operation table 3, and two winding cylinders 54 are provided on the other side of the operation table 3. One torsion spring 55 is provided at both ends of the winding cylinder 54. One end of the torsion spring 55 is fixedly connected to the operation table 3, and the other end of the torsion spring 55 is fixedly connected to the winding cylinder 54. The bandage 53 is wrapped around the side surface of the winding cylinder 54. One end of the bandage 53 is fixedly connected to the winding cylinder 54, and the previously described block 52 is fixedly connected to the other end of the bandage 53. The width of one side of the fixing groove 51 provided on one side of the operation table 3 near the previously described block 52 is smaller than the length of the previously described block 52. The bandage 53 can be wound from the winding tube 54 by pulling the previously described block 52 fixedly connected to the end of the bandage 53. As a result, the moving device installed on the operation table 3 can be fixed, so that it is possible to prevent the device from moving or falling during movement. The above-mentioned mounting block 52 can be engaged with the fixing groove 512 provided on one side of the operation table 3. Thereby, the fixing effect of fixing the bandage 53 can be achieved. On the other hand, since the torsion springs 55 are provided at both ends of the winding cylinder 54 to which the other end of the bandage 53 is fixedly connected, if the bandage 53 is put into a tension state, a stabilizing effect on the moving device is obtained. Can be achieved, facilitating the storage of the bandage 53.

Specifically, the engaging mechanism 6 includes a pressing block 61, a lock block 62, a first spring 63, and the like.
Includes a positioning block 64 and a second spring 65. The pressing block 61 and the operation table 3 are slidably connected, and the two previously described blocks 52 and the pressing block 61 are engaged with each other. The bandage 53 connected to one side of the above-mentioned placement block 52 penetrates the pressing block 61. The two lock blocks 62 are in contact with the bottom side of the pressing block 61. The two lock blocks 62 are symmetrically installed, and one end of the lock block 62 and the operation table 3 are rotatably connected to each other. The other end of the lock block 62 is in contact with the side surface of the bandage 53, and the first spring 63 is fixedly connected to the opposite side of the lock block 62 from the pressing block 61. The other end of the first spring 63 is fixedly connected to the operation table 3. The positioning blocks 64 are provided on both sides of the pressing block 61, respectively. The positioning block 64 and the operation table 3 are slidably connected to each other. One end of the positioning block 64 and the pressing block 61
Engage with the sides of the. The second spring 65 is fixedly connected to both sides of the positioning block 64. The other end of the second spring 65 is fixedly connected to the operation table 3. The pressing block 61 can secure the pre-described block 52 to which the bandage 53 is connected. Then, in order to further improve the stabilizing effect of the bandage 53 on the moving device on the operation table 3, the pressing block 61 on one side may be pressed, and the two pressing blocks 61 on the bottom side may be pressed. Since the lock block 62 can be pressed and the end portion of the lock block 62 and both sides of the bandage 53 can be brought into close contact with each other, it is possible to prevent the bandage 53 from continuously sliding. When the pressing block 61 presses, the pressing block 61 is formed by the positioning blocks 64 on both sides of the pressing block 61.
By limiting the position of, it is possible to prevent the pressing block 61 from popping out due to the pushing of the first spring 63. In this case, the bandage 53 can achieve the promising effect of limiting the mobile device. On the other hand, when trying to release the restricted state, the positioning blocks 64 on both sides of the pressing block 61 may be slid, and the sandwiched state with respect to the bandage 53 may be released and the bandage 53 may be wound. can.

Specifically, the moving mechanism 8 includes a roller 81, a control rod 82, an operation rod 83, and a rotary shaft 84.
, 3rd gear 85, brake rod 86 and 3rd spring 87. Two rotating shafts 84 are rotatably connected to the bottom side of the box 1. The rollers 81 are fixedly connected to both ends of the rotating shaft 84, respectively. The third gear 85 is fixedly connected to the central portion of the rotating shaft 84. A slightly rectangular tooth configuration is provided on the side surface of the third gear 85.
The brake rod 86 is provided on one side of the third gear 85. The brake rod 86 and the box body 1 are slidably connected to each other, and a rectangular tooth configuration is provided at one end of the brake rod 86. The third spring 8 is attached to the other end of the brake rod 86.
7 is fixedly connected. The other end of the third spring 87 is fixedly connected to the box body 1. The control rod 82 penetrates through the middle of the brake rod 86. The control rod 82 and the brake rod 86 are slidably connected to each other, and a triangular protrusion is provided on one side of the control rod 82 near the third spring 87. The control rod 82 and the box 1 are slidably connected to each other. Both sides of one end of the control rod 82 are slidably connected to both insides of the operation rod 83, respectively. The operation rod 8
One end of 3 and the box 1 are rotatably connected. The entire device box 1 can be easily moved by the roller 81 located on the bottom side of the device box 1.
On the other hand, when trying to stop, the control rod 82 can be slid toward the outside of the device box 1 by rotating the operation rods 83 on both sides. Since the triangular protrusion is provided on the side surface of the control rod 82, when the control rod 82 slides out, the triangular protrusion on the side surface of the control rod 82 is no longer in contact with the brake rod 86, and the first 3 By pushing the spring 87, the end of the brake rod 82 and the rotating shaft 8
When the third gear 85 in the middle of 4 is meshed with the third gear 85 and the end of the brake rod 82 comes into contact with the third gear 85, the device box 1 may be subsequently pushed, and the third gear may be pushed. 8
The rotating shaft 84 is rotated so as to engage the 5 and the end portion of the brake rod 82. When the device box 1 is to be moved, the operation rod 83 may be rotated in the opposite direction, and the brake rod 82 is provided by a triangular protrusion on the side surface of the control rod 82.
Push up. In this case, the roller 81 can rotate freely, and the entire device can be easily moved.

Here, the operating principle will be described. First, the sound image processing device 2 is placed. There are various standards for each type of device, but by rotating the adjustment rod 42 by the user,
The transmission rod 44 can be driven by the second gear 45 to which the first gear 43 and the transmission rods 44 on both sides are connected to the adjustment rod 42. In this case, the transmission rods 44 installed on both sides rotate in opposite directions to each other, but the two screw rods 4 located on both sides of the box 1 are installed.
Since 6 is also installed in opposite directions to each other, the support gear sleeves 47 on both sides are provided with the transmission rod 4 on both sides.
Support gear sleeves 4 installed on both sides when driven by a second gear 45 at the other end of 4
7 can move in the same direction. Since the other side of the support gear sleeve 47 is slidably connected to the mounting frame 41 by a tumbler, the support gear sleeve 47 can rotate smoothly and can support the mounting frame 41. Although the sizes of various sound image processing devices have various standards, the user can adjust the distance between the mounting frames 41 by rotating the adjusting rod 42 to mount the device. As a result, the storage space inside the box 1 can be reasonably used. After arranging the device, the sound image processing device 2 installed inside the device box 1 and an external power supply are electrically connected. In this case, the side lids 71 installed on both sides of the box 1 are protected. Thereby, both side portions of the box body 1 can be protected. Further, although a large amount of heat is generated during the operation of the sound image processing device, the heat dissipation hole 72 provided in the side lid 71 can achieve the ventilate effect in the box body 1 and improve the heat dissipation efficiency. Further, if required, the sealing plate 74 can be slid by the handle 73 to polymerize or interleave the space between the sealing plate 74 and the heat radiating hole 72, thereby improving the ventilating property of the entire box 1. .. Further, since the partition net 75 is provided on the bottom side of each mounting frame 41 in the box body 1, the partition net 75 is provided.
The heat dissipation effect can be guaranteed and the independence between each device layer can be ensured. Further, when the moving device is used by the operation table 3, the stability of the device may be lowered when the box body 1 is moved, but the mounting block 52 fixedly connected to the end of the bandage 53 is provided. By pulling, the bandage 53 can be wound up from the winding cylinder 54, whereby the moving device installed on the operation table 3 can be fixed, so that the movement or dropping of the device during movement can be prevented. The mounting block 52 can be engaged with the fixing groove 512 provided on one side of the operation table 3.
Thereby, the fixing effect of fixing the bandage 53 can be achieved. On the other hand, since torsion springs 55 are provided at both ends of the winding cylinder 54 to which the other end of the bandage 53 is fixedly connected, if the bandage 53 is in a tension state, a stabilizing effect on the moving device can be achieved, and the bandage 53 can be achieved. Makes it easy to store.
The pressing block 61 can fix the mounting block 52 to which the bandage 53 is connected. Then, in order to further improve the stabilizing effect of the bandage 53 on the moving device on the operation table 3, the pressing block 61 on one side may be pressed, and the pressing block 61 has two lock blocks 62 on the bottom side. Can be pressed, and the end of the lock block 62 and both sides of the bandage 53 can be brought into close contact with each other, so that the bandage 53 can be prevented from continuously sliding. When the pressing block 61 presses, the positioning blocks 64 on both sides of the pressing block 61 limit the position of the pressing block 61, so that the pressing block 61 can be prevented from popping out due to the pushing of the first spring 63. In this case, the bandage 53 can achieve the promising effect of limiting the mobile device. On the other hand, when trying to release the restricted state, if the positioning blocks 64 on both sides of the pressing block 61 are slid, the sandwiched state in the bandage 53 can be released and the bandage 53 can be wound. In addition, by the roller 81 located and installed on the bottom side of the apparatus box body 1,
The entire device box 1 can be easily moved. On the other hand, when trying to stop, the control rod 82 can be slid toward the outside of the device box 1 by rotating the operation rods 83 on both sides. Since the triangular protrusion is provided on the side surface of the control rod 82, the control rod 82
When the brake rod 82 slides out, the triangular protrusion on the side surface of the control rod 82 is no longer in contact with the brake rod 86, and the push of the third spring 87 causes the end of the brake rod 82 and the third gear 85 in the middle of the rotating shaft 84. When the third gear 85 and the end of the brake rod 82 come into contact with each other, the device box 1 may be subsequently pushed so that the third gear 85 and the end of the brake rod 82 mesh with each other. The rotation shaft 84 is rotated. Then, when moving the device box 1, if the operation rod 83 is rotated in the opposite direction, the brake rod 82 is pushed up by the triangular protrusion on the side surface of the control rod 82. In this case, the roller 81 can rotate freely, and the entire device can be easily moved.

As described above, it is only a better specific embodiment of the present invention, and the scope of protection of the present invention is not limited thereto. A technician familiar with the technical field of the invention is within the scope of the invention disclosed by the invention and is within the scope of protection of the invention equally substituted or modified in accordance with the proposed technology of the invention and the concept of improvement thereof. It should be understood that it should be included in.

Claims (6)

It is a sound image processing system based on big data,
The box body 1, the sound image processing device 2, the operation table 3, the pedestal mechanism 4, the stabilizing mechanism 5, the engaging mechanism 6, the heat dissipation mechanism 7, and the moving mechanism 8 are included.
A plurality of sound image processing devices 2 that perform the sound image processing based on big data are provided in the box body 1 that supports the assembly and configuration of the device, and the device is placed on the top side of the box body 1. An operation table 3 to be used or used as a workspace for sound image processing by an operator is provided, and the pedestal for mounting and isolating the sound image processing device 2 of various types and standards in the box body 1. A mechanism 4 is provided, and the stabilizing mechanism 5 for fixing and limiting the position of the operating device installed in the operating table 3 is provided in the operating table 3, and the stabilizing mechanism 5 is provided with the stabilizing mechanism 5. The engagement mechanism 6 for enhancing the stabilizing role of the device played by the mechanism 5 is connected, and the heat dissipation effect is provided to the sound image processing device 2 in the box body 1 on both sides of the box body 1. A sound image processing based on big data, characterized in that a mechanism 7 is provided, and the moving mechanism 8 for moving and placing the box 1 is provided on the bottom side of the box 1. system. The pedestal mechanism 4 includes a mounting frame 41, an adjusting rod 42, a first gear 43, and a transmission rod 44.
, 2nd gear 45, screw rod 46, support gear sleeve 47 and tumbler 48.
A plurality of pre-described frames 41 are slidably connected to the inside of the box 1, and the plurality of pre-described frames 41 are arranged in parallel with each other in the box 1. One screw rod 46 is fixedly connected to each side of the screw rod 46, the two screw rods 46 are configured in parallel and in opposite directions, and the two screw rods 46 are respectively configured. Both sides of the plurality of pre-described frames 41 are sequentially penetrated, and both ends of the adjustment rod 42 are rotatably connected to both sides of the pre-described frame 41, and the adjustment rod 42 and the screw rod 46 are connected to each other. The first gear 4 is vertical and is located in the middle of the adjustment rod 42.
3 is fixedly connected, and the transmission rod 44 is connected to both sides of the adjustment rod 42, respectively.
Is provided, the transmission rod 44 is rotatably connected to the above-mentioned mounting frame 41, and the second gear 45 is fixedly connected to both ends of the transmission rod 44, respectively. The second side installed on one side of the adjustment rod 42 near the adjustment rod 42 in 44.
The gear 45 and the first gear 43 mesh with each other, and the second gear 45 installed on one side of the transmission rod 44 opposite to the adjustment rod 42 and one side of the support gear sleeve 47 mesh with each other. The support gear sleeve 47 and the screw rod 46 on the same side thereof are screw-connected, and the other side of the support gear sleeve 47 is slidably connected to the above-mentioned mounting frame 41 by the tumbler 48. The sound image processing system based on the big data according to claim 1. The heat dissipation mechanism 7 includes a side lid 71, a heat dissipation hole 72, a handle 73, a sealing plate 74, and a partition net 75.
The side lids 71 are provided on both side surfaces of the box body 1 facing each other, and the side lids 71 are provided.
The heat radiating hole 72 is provided in the heat radiating hole 72, and the heat radiating hole 72 has a rich character shape. The sealing plate 74 is slidably connected to the inside of the side lid 71, and the sealing plate 74 Has a rich character shape, the width of the sealing plate 74 is smaller than the width of the side lid 71, and the handle 73 is fixedly connected to the central portion of the sealing plate 74. The big data-based sound image processing system according to claim 2, wherein the partition net 75 is fixedly connected to the bottom side. The stabilizing mechanism 5 includes a fixing groove 51, a mounting block 52, a bandage 53, a winding cylinder 54, and a torsion spring 55.
Two fixing grooves 51 are provided on one side of the operation table 3, and two winding cylinders 54 are provided on the other side of the operation table 3, and both ends of the winding cylinder 54 are provided. Each of the torsion springs 55 is provided, one end of the torsion spring 55 is fixedly connected to the operation table 3, and the other end of the torsion spring 55 is fixedly connected to the winding cylinder 54. The bandage 53 is wound around the side surface of the wrapping cylinder 54, one end of the bandage 53 is fixedly connected to the wrapping cylinder 54, and the above-mentioned placement block 52 is fixedly connected to the other end of the wrapping cylinder 53. Is fixedly connected, and the previously described block 5 in the fixing groove 51 opened on one side of the operation table 3
Claim 1 characterized in that the width on one side closer to 2 is smaller than the length of the previously described block 52.
Sound image processing system based on the big data described in. The engaging mechanism 6 includes a pressing block 61, a lock block 62, a first spring 63, a positioning block 64 and a second spring 65.
The pressing block 61 and the operation table 3 are slidably connected, and the two front-mounted blocks 52 and the pressing block 61 are engaged with each other and connected to one side of the front-mounted block 52. The band 53 is penetrated through the pressing block 61, the two lock blocks 62 are in contact with the bottom side of the pressing block 61, and the two lock blocks 62 are symmetrically installed. One end of the lock block 62 and the operation table 3 are rotatably connected, and the other end of the lock block 62 comes into contact with the side surface of the bandage 53 to contact the pressing block 61 of the lock block 62. The first spring 63 is fixedly connected to the opposite side, the other end of the first spring 63 is fixedly connected to the operation table 3, and the positioning blocks are fixedly connected to both sides of the pressing block 61, respectively. 64 is provided, the positioning block 64 and the operation table 3 are slidably connected, and one end of the positioning block 64 and the side surface of the pressing block 61 are engaged with each other to form the positioning block 64. The big according to claim 4, wherein the second spring 65 is fixedly connected to both sides, and the other end of the second spring 65 is fixedly connected to the operation table 3. Data-based sound image processing system. The moving mechanism 8 includes a roller 81, a control rod 82, an operating rod 83, a rotating shaft 84, a third gear 85, a brake rod 86, and a third spring 87.
Two rotation shafts 84 are rotatably connected to the bottom side of the box body 1, and the rotation shaft 84 is rotatably connected.
The roller 81 is fixedly connected to both ends of the rotary shaft 84, the third gear 85 is fixedly connected to the middle portion of the rotating shaft 84, and a plurality of rectangular teeth are configured on the side surface of the third gear 85. Is provided, and the brake rod 86 is provided on one side of the third gear 85, the brake rod 86 and the box body 1 are slidably connected, and one end of the brake rod 86 is provided. The brake rod 8 is provided with a rectangular tooth configuration.
The third spring 87 is fixedly connected to the other end of the third spring 87, the other end of the third spring 87 is fixedly connected to the box body 1, and the control is connected to the middle portion of the brake rod 86. Rod 82
The control rod 82 and the brake rod 86 are slidably connected to each other, and a triangular protrusion is provided on one side of the control rod 82 near the third spring 87. The control rod 82 and the box body 1 are slidably connected, and both sides of one end of the control rod 82 are slidably connected to both inner sides of the operation rod 83, respectively, and one end of the operation rod 83 is slidably connected. The sound image processing system based on big data according to claim 4, wherein the box body 1 and the box body 1 are rotatably connected to each other.

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