CN116367501A

CN116367501A - Portable safe mobile working platform

Info

Publication number: CN116367501A
Application number: CN202310299765.9A
Authority: CN
Inventors: 罗斌; 马超; 宋博; 钱程; 陈从江; 张超
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-03-25
Filing date: 2023-03-25
Publication date: 2023-06-30

Abstract

The invention discloses a portable safe mobile working platform, which comprises: the server group is used for carrying out private protocol transmission data with the client group; the monitoring mechanism comprises a load monitoring unit and a temperature monitoring unit, the data processing unit is used for receiving the monitoring data of the load monitoring unit and the temperature monitoring unit and performing data processing, and the execution end of the data processing unit is connected with the control unit of the heat dissipation mechanism; and the movable working platform frame is provided with heat dissipation components at one end of the server group, so that dynamic heat dissipation of the server group is realized. The arrangement of the electronic control three-way diverter valve can enable the cooling liquid in the adjacent radiating assemblies to enter the cooling medium box to circulate sequentially through the distributing pipe, the distributing radiating box, the circulating cavity and the heat transfer box, so that the series connection of the adjacent radiating assemblies is convenient to use, the server group on the movable working platform frame is dynamically monitored and dispersed, and meanwhile, the distributing amount of the radiating mechanism can be adjusted according to the load condition of each server.

Description

Portable safe mobile working platform

Technical Field

The invention belongs to the technical field of working platforms for client service systems, and particularly relates to a portable safe mobile working platform.

Background

In the scene that many people of unsteady place concentrated office, notebook computer, hard disk etc. all are data carrier in job site, especially in the secret-related environment all are secret-related carrier, but scatter everywhere, it is difficult to manage intensively, transfer file each other between a plurality of equipment, the efficiency is extremely low, facing above problem, current solution on the market includes Pad mode, cloud desktop mode etc. current cloud desktop mode adopts the thin client mode of no storage to replace traditional computer, move to the service terminal after storing and calculating, a plurality of servers and supporting thin client are placed on mobile work platform and have portable function, make things convenient for the removal use of operational environment, because data storage is all at the service terminal, consequently, realize the function of data security, when a single server handles a large amount of data of a plurality of thin clients simultaneously, the overload problem appears easily to the server.

Chinese patent publication No. CN101346696a discloses a load-distributing client server system comprising: a server; and a plurality of clients to which a connection for processing is requested, each client including: a communication unit that transmits status information indicating the status of the client to the server together with the connection request; and a processing section that selectively performs processing of the server, the server including: a load monitoring unit for monitoring a load condition of the load monitoring unit; and a transfer processing unit configured to determine, based on the status information, a transfer level at which the processing of the server is transferred to the request source client in response to the connection request received by the communication unit of the server, and to permit the connection request of the request source client if the transferred server load does not exceed the maximum permitted capacity load, thereby notifying the request source client of the transfer level, the processing unit of the request source client executing the processing corresponding to the notified transfer level; in the case where the load of the server does not exceed the maximum allowable capacity load, the processing of the server is selectively transferred to the request source client according to the state of the request source client, and therefore, dynamic load distribution can be performed more efficiently than in the past.

The existing defects are that: according to the patent document, through load sharing setting of the request source client and the server, dynamic dispersion of load is achieved, when a plurality of expansion servers and databases are used in parallel on a mobile working platform, a large amount of working heat is often generated, heat accumulation of the servers can affect the internal memory and the running performance of a CPU (Central processing Unit), further the running efficiency of the servers is affected, a heat dissipation mechanism is arranged on the mobile working platform and used for independently carrying out auxiliary heat dissipation on corresponding server shells, the simple dynamic dispersion of load on the servers can balance heat generation, but the dynamic adjustment of the heat dissipation mechanism on the mobile working platform is not achieved, and the distribution amount of the heat dissipation mechanism can be adjusted according to the load condition of each server when the dynamic monitoring dispersion of the load on the mobile working platform is carried out, so that the dynamic heat dissipation on the servers is a problem to be solved.

Disclosure of Invention

The invention aims to provide a portable safe mobile working platform so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a portable secure mobile work platform comprising:

the server group is used for carrying out private protocol transmission data with the client group;

the data unit group is used for providing a database for data query and storage for the server group;

the monitoring mechanism comprises a load monitoring unit and a temperature monitoring unit, and the load monitoring unit and the temperature monitoring unit respectively monitor the running load of the server group and the temperature of the shell of the server in real time;

the data processing unit is used for receiving the monitoring data of the load monitoring unit and the temperature monitoring unit and performing data processing, and the execution end of the data processing unit is connected with the heat dissipation mechanism control unit; and

the server group is arranged on the movable working platform frame, one end of the movable working platform frame, which is positioned at the server group, is provided with a heat radiation component, and the heat radiation mechanism control unit is used for parallelly connecting or serially connecting a plurality of the heat radiation components, so that the distribution amount of the heat radiation component can be adjusted when the running load and the shell temperature of the server group are abnormal, and the dynamic heat radiation of the server group is realized.

Preferably, the client unit is composed of a plurality of thin clients, the server unit comprises a first server, a second server and a third server, the data unit group comprises a first data unit, a second data unit and a third data unit, the load between the server unit and the client unit is dynamically adjusted through a load balancer, the server unit is further connected with a cache unit, and the cache unit is used for realizing quick execution of operation response of the client unit;

the mobile working platform frame is provided with a plurality of baffle boxes in parallel, an integrated terminal box body can be detachably arranged above the baffle boxes, a client unit is stored on the integrated terminal box body, a first server, a second server and a third server are sequentially arranged on the integrated terminal box body at corresponding positions, the client unit only receives desktop picture data and audio data issued by the server unit, and the client unit uploads control information and encryption type usb equipment to the server unit, so that safe storage of the data and convenience in use are realized.

Preferably, the load monitoring unit is used for monitoring the CPU usage, the IO consumption and the memory usage of the server group in real time, and setting a load threshold a, the monitored temperature threshold of the temperature monitoring unit is set to B, and the data processing unit is used for processing the threshold a and the threshold B, and adjusting the allocation amount of the heat dissipation component through the heat dissipation mechanism control unit.

Preferably, the heat dissipation assembly comprises a distribution heat dissipation box which is embedded and arranged and penetrates through the bottom end face of the partition box, and a cooling medium box which is arranged at the side part of the movable working platform frame, wherein the medium outlet side of the cooling medium box is connected with a plurality of total ducts through a medium pump pipe, the total ducts penetrate through the partition box at corresponding positions, a plurality of longitudinal ducts are arranged at the inner side part of the total ducts, and heat dissipation fin plate groups are arranged at the upper end and the lower end of the longitudinal ducts in a sealing mode.

Preferably, the heat dissipation fin plate group is internally provided with a cavity for accommodating inflow of a medium, the lower part of the longitudinal guide pipe is communicated with the upper cavity of the heat dissipation fin plate group and the distribution heat dissipation box, the upper end and the lower end of the inner part of the distribution heat dissipation box are alternately provided with heat dissipation plates, the inner cavity of the heat dissipation fin plate group on the upper part of the longitudinal guide pipe is communicated with the heat transfer box, and the upper end surface of the heat transfer box is in contact connection with the heat dissipation part of the server group through a heat conduction layer.

Preferably, the outer side of the main conduit is provided with an electric control three-way diverter valve, the control end of the electric control three-way diverter valve is connected with the control unit of the heat dissipation mechanism, a third interface of the electric control three-way diverter valve is connected with a distributing pipe, the liquid discharging side of the distributing pipe is communicated with a distributing heat dissipation box on an adjacent baffle box, and the medium outlet side of the heat transfer box is provided with a medium return pipe and is connected with a medium return part of the cooling medium box.

Preferably, the two side walls inside the longitudinal duct are respectively provided with a circulation cavity, and the circulation cavities are communicated with the internal cavities of the radiating fin plate groups at the upper part and the lower part of the longitudinal duct.

Compared with the prior art, the invention has the beneficial effects that: if the load monitoring unit and the temperature monitoring unit monitor data abnormal, the arrangement of the electric control three-way diverter valve can enable the cooling liquid in the adjacent radiating assemblies to enter the cooling medium box to circulate sequentially through the distributing pipe, the distributing radiating box, the circulating cavity and the heat transfer box, so that the cooling liquid contact area of the radiating fin plate group is increased, the series connection of the adjacent radiating assemblies is convenient, the load of the server group on the movable working platform frame is dynamically monitored and dispersed, and meanwhile, the distribution amount of the radiating mechanism can be adjusted according to the load condition of each server, and the dynamic heat dissipation of the server group is realized.

Drawings

FIG. 1 is a schematic view of an overall frame of the present invention;

FIG. 2 is a schematic diagram of the overall cross-sectional structure of the mobile work platform frame of the present invention;

FIG. 3 is a partial schematic view of the baffle box region of FIG. 2;

FIG. 4 is a schematic diagram of a semi-sectional structure of the baffle box of FIG. 3;

FIG. 5 is an enlarged partial schematic view of the longitudinal duct area inside the baffle box of FIG. 4;

fig. 6 is a schematic view of the upper cross-sectional structure of the longitudinal catheter of fig. 5.

In the figure: 1. a server group; 2. a client group; 3. a data unit group; 4. a load monitoring unit; 5. a temperature monitoring unit; 6. a moving work platform frame; 7. a partition plate box; 8. distributing a heat dissipation box; 9. a cooling medium tank; 10. a general catheter; 11. a longitudinal catheter; 12. a heat radiation fin plate group; 13. a heat dissipation plate; 14. a heat transfer box; 15. a heat conducting layer; 16. an electric control three-way diverter valve; 17. a dispensing tube; 18. a medium return pipe; 19. a flow-through chamber; 101. and integrating the terminal box body.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution:

embodiment one:

a portable secure mobile work platform comprising:

the server group 1 is used for carrying out private protocol transmission data with the client group 2;

the data unit group 3, the data unit group 3 is used for providing a database for inquiring and storing data for the server group 1;

the monitoring mechanism comprises a load monitoring unit 4 and a temperature monitoring unit 5, and the load monitoring unit 4 and the temperature monitoring unit 5 respectively monitor the running load of the server group 1 and the temperature of the server shell in real time;

the data processing unit is used for receiving the monitoring data of the load monitoring unit 4 and the temperature monitoring unit 5 and performing data processing, and the execution end of the data processing unit is connected with the heat dissipation mechanism control unit; and

the server group 1 is arranged on the mobile working platform frame 6, the mobile working platform frame 6 is also provided with an exchanger, a display and a keyboard and mouse suit in a matched mode for use, the equipment mobile working platform frame 6 is provided with radiating components at one end of the server group 1, the radiating mechanism control units are used for being connected in parallel or in series between a plurality of radiating components, and then the distributing amount of the radiating components can be adjusted when the running load and the shell temperature of the server group 1 are abnormal, so that dynamic heat dissipation of the server group 1 is realized.

Embodiment two:

on the basis of the first embodiment, further explaining that the client set 2 is formed by a plurality of thin clients, the server set 1 comprises a first server, a second server and a third server, the data unit set 3 comprises a first data unit, a second data unit and a third data unit, the load between the server set 1 and the client set 2 is dynamically adjusted through a load balancer, the server set 1 is also connected with a cache unit, the cache unit is used for realizing the quick execution of the operation response of the client set 2, all calculation and storage generated when the thin clients are used are moved back to the server set 1, the thin clients do not calculate and store any user data, a user can walk to where, the user can carry about, the client can be quickly assembled after opening the box, and a plurality of working seats based on computer desktops can be easily built;

the movable working platform frame 6 is provided with a plurality of baffle boxes 7 in parallel, an integrated terminal box 101 can be detachably arranged above the baffle boxes 7, sliding connection and installation are carried out on two sides of the inside of the movable working platform frame 6 through preset sliding blocks, the integrated terminal box 101 is convenient to install and detach rapidly, the client unit 2 is stored on the integrated terminal box 101, the first server, the second server and the third server are sequentially arranged on the integrated terminal box 101 at corresponding positions, the client unit 2 only receives desktop picture data and audio data issued by the server unit 1, the client unit 2 uploads control information and encryption usb equipment to the server unit 1, further safety storage and convenience in use of the data are realized, an original scattered secret carrier is reduced to one on the server unit 1, all data are stored in the server unit 1, the purpose of effectively reducing the secret carrier is achieved, and the data safety is further ensured;

the load monitoring unit 4 is used for monitoring CPU usage, IO consumption and memory usage of the server group 1 in real time, the load monitoring unit 4 builds a server monitoring system based on Zabbix+Grafana, a load threshold A is set, a monitoring temperature threshold of the temperature monitoring unit 5 is set to be B, the temperature monitoring unit 5 comprises temperature monitoring sensors arranged on the server group 1 to realize monitoring, the data processing unit is used for processing the threshold A and the threshold B, and the distribution amount of the heat dissipation components is adjusted through the heat dissipation mechanism control unit.

The heat radiation assembly comprises a distributed heat radiation box 8 which is embedded and arranged and penetrates through the bottom end face of the baffle box 7, the distributed heat radiation box 8 is made of heat-conducting aluminum with good heat radiation performance, and a cooling medium box 9 which is arranged on the side part of the movable working platform frame 6, cooling liquid is stored in the cooling medium box 9 in a flowing mode, the medium outlet side of the cooling medium box 9 is connected with a plurality of total ducts 10 through a medium pump pipe, the medium pump pipe consists of a liquid pump and a pump pipe, the liquid pump discharges cooling liquid on the liquid discharge side of the liquid pump to the side of the plurality of total ducts 10, the number of the total ducts 10 and the number of the baffle boxes 7 are correspondingly arranged in the same, the total ducts 10 penetrate through the baffle box 7 at corresponding positions, a plurality of longitudinal ducts 11 are arranged on the inner side part of the total ducts 10, heat radiation fin plate groups 12 are arranged at the upper end and the lower end of the longitudinal ducts 11 in a sealing mode, and the heat radiation fin plate groups 12 consist of three aluminum fin plates which are parallel side by side;

the inside of the radiating fin plate group 12 is provided with a cavity for accommodating medium inflow, two sealing cavities are formed among the three aluminum fin plates, the upper cavity of the radiating fin plate group 12 at the lower part of the longitudinal duct 11 is communicated with the distributing radiating box 8, radiating plates 13 are arranged at the upper and lower ends of the inside of the distributing radiating box 8 in a staggered manner, the radiating effect of the inside of the distributing radiating box 8 is improved by the radiating plates 13, the inner cavity of the radiating fin plate group 12 at the upper part of the longitudinal duct 11 is communicated with the heat transfer box 14, the upper end surface of the heat transfer box 14 is in contact connection with the radiating part of the server group 1 through a heat conducting layer 15, the heat conducting layer 15 can select any one of heat conducting glue, heat conducting grease and heat conducting foam, and the radiating part of the server group 1 is a shell radiating part and a CPU external radiating part;

the outside of the main conduit 10 is provided with an electric control three-way flow dividing valve 16, the electric control three-way flow dividing valve 16 can select an electric three-way ball valve to realize the cooling liquid flow division on the main conduit 10, the control end of the electric control three-way flow dividing valve 16 is connected with a heat dissipation mechanism control unit, a third interface of the electric control three-way flow dividing valve 16 is connected with a distributing pipe 17, the liquid discharging side of the distributing pipe 17 is communicated with a distributing heat dissipation box 8 on an adjacent baffle box 7, the medium outlet side of a heat transfer box 14 is provided with a medium return pipe 18 and is connected with a medium return part of a cooling medium box 9, and the distributing pipe 17 is used for realizing the parallel or serial use of cooling liquid of adjacent heat dissipation components, so that the heat dissipation performance of a single heat dissipation component can be adaptively adjusted;

the two side walls inside the longitudinal guide pipe 11 are respectively provided with a circulation cavity 19, the circulation cavities 19 are arranged in a plurality, the upper end and the lower end of the inner wall of the circulation cavity 19 are both of an opening design, and the opening parts of the two ends of the circulation cavity 19 are communicated with the inner cavities of the radiating fin plate groups 12 on the upper part and the lower part of the longitudinal guide pipe 11, so that cooling liquid inside the distributed radiating box 8 can flow into the heat transfer box 14 through the circulation cavities 19.

The working principle is as follows: in the using process of the server group 1, the server I, the server II and the server III are used in a function classification mode under the distribution of a load balancer, the server I and the server II with larger load bearing capacity are arranged in the upper area of the mobile working platform frame 6, the power ends of the server group 1, the client group 2, the data unit group 3, the load monitoring unit 4, the temperature monitoring unit 5 and the electric control three-way diverter valve 16 are connected to an external power socket, the load monitoring unit 4 and the temperature monitoring unit 5 monitor the load and the temperature of the server group 1 in sequence, the load balancer dynamically distributes the load only when the threshold A of the load monitoring unit 4 exceeds a set value, the load of each server is ensured to be uniformly spread, and if the threshold A of the load monitoring unit 4 and the threshold B of the temperature monitoring unit 5 are abnormal, or when the threshold B of the temperature monitoring unit 5 is abnormal, the data processing unit processes the load value and the temperature value, adjusts the parallel connection or series connection between the radiating components through the radiating mechanism control unit, adjusts the opening and closing quantity of the third interface of the electronic control three-way diverter valve 16 at the normal position of the server, so that the cooling liquid on the corresponding main conduit 10 flows into the server end with abnormal load and temperature through the distributing pipe 17, the distributing pipe 17 discharges the cooling liquid into the distributing radiating box 8 corresponding to the abnormal server end for preliminary cooling, the cooling liquid flowing into the distributing radiating box 8 is discharged into the heat transfer box 14 through the inner cavity of the radiating fin plate group 12 and the circulating cavity 19, the heat transfer box 14 absorbs the extra heat generated by the radiating part of the abnormal server end through the heat conducting layer 15, after the cooling liquid flowing into the heat transfer box 14 absorbs the additional heat, the cooling liquid enters the cooling medium box 9 through the medium return pipe 18 to perform cooling circulation, so that the additional heat on the abnormal server side can be subjected to preliminary heat dissipation by the heat dissipation fin plate group 12 on the corresponding longitudinal guide pipe 11, and simultaneously, the serial heat dissipation of the cooling liquid can be realized under the assistance of the adjacent electric control three-way diverter valve 16, the contact area between the heat dissipation fin plate group 12 and the cooling liquid is further increased, the heat dissipation performance of the heat dissipation assembly can be dynamically adjusted, the load of the server group 1 on the movable working platform frame 6 can be dynamically monitored and dispersed, and meanwhile, the distribution amount of the heat dissipation mechanism can be adjusted according to the load condition of each server, so that the dynamic heat dissipation of the server group 1 can be realized.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims

1. A portable secure mobile work platform comprising:

the server group (1) is used for carrying out private protocol transmission data with the client group (2);

a data unit group (3), wherein the data unit group (3) is used for providing a database for data query and storage for the server group (1);

the monitoring mechanism comprises a load monitoring unit (4) and a temperature monitoring unit (5), and the load monitoring unit (4) and the temperature monitoring unit (5) respectively monitor the running load of the server group (1) and the temperature of the shell of the server in real time;

the data processing unit is used for receiving the monitoring data of the load monitoring unit (4) and the temperature monitoring unit (5) and performing data processing, and the execution end of the data processing unit is in communication connection with the heat dissipation mechanism control unit; and

the server group (1) is arranged on the mobile working platform frame (6), radiating components are arranged at one end of the mobile working platform frame (6) and positioned at the server group (1), and the radiating mechanism control units are used for being connected in parallel or in series between the radiating components, so that the distributing amount of the radiating components can be adjusted when the running load and the shell temperature of the server group (1) are abnormal, and dynamic radiating of the server group (1) is realized.

2. A portable secure mobile work platform according to claim 1, wherein: the client unit (2) is formed by a plurality of thin clients, the server unit (1) comprises a first server, a second server and a third server, the data unit group (3) comprises a first data unit, a second data unit and a third data unit, the load between the server unit (1) and the client unit (2) is dynamically adjusted through a load balancer, the server unit (1) is further connected with a cache unit, and the cache unit is used for realizing the rapid execution of the operation response of the client unit (2);

parallel arrangement has a plurality of baffle box (7) on mobile working platform frame (6), and baffle box (7) top can be dismantled and be provided with integrated terminal box (101), and client group (2) are deposited on integrated terminal box (101), server one, server two and server three set gradually in corresponding position on integrated terminal box (101), client group (2) only accept desktop picture data and audio data that server group (1) issued, and client group (2) are to server group (1) uploading control information and encryption type usb equipment, and then realize the convenience to the safe storage and the use of data.

3. A portable secure mobile work platform according to claim 1, wherein: the load monitoring unit (4) is used for monitoring CPU usage, IO consumption and memory usage of the server group (1) in real time and setting a load threshold A, the monitoring temperature threshold of the temperature monitoring unit (5) is set as B, and the data processing unit is used for processing the threshold A and the threshold B and adjusting the distribution amount of the heat dissipation assembly through the heat dissipation mechanism control unit.

4. A portable secure mobile work platform according to claim 2, wherein: the heat dissipation assembly comprises a distribution heat dissipation box (8) which is embedded and arranged and penetrates through the bottom end face of the partition box (7), and a cooling medium box (9) which is arranged on the side portion of the movable working platform frame (6), wherein the medium outlet side of the cooling medium box (9) is connected with a plurality of total ducts (10) through a medium pump pipe, the total ducts (10) penetrate through the partition box (7) at corresponding positions, a plurality of longitudinal ducts (11) are arranged on the inner side portion of the total ducts (10), and heat dissipation fin plate groups (12) are arranged at the upper end and the lower end of the longitudinal ducts (11) in a sealing mode.

5. The portable secure mobile work platform of claim 4, wherein: the heat dissipation fin plate group (12) is internally provided with a cavity for accommodating inflow of a medium, the lower part of the longitudinal guide pipe (11) is communicated with the upper cavity of the heat dissipation fin plate group (12) and the distribution heat dissipation box (8), the upper end and the lower end of the inside of the distribution heat dissipation box (8) are alternately provided with heat dissipation plates (13), the inner cavity of the heat dissipation fin plate group (12) at the upper part of the longitudinal guide pipe (11) is communicated with the heat transfer box (14), and the upper end face of the heat transfer box (14) is in contact connection with the heat dissipation part of the server group (1) through a heat conduction layer (15).

6. A portable secure mobile work platform according to claim 5, wherein: the utility model discloses a cooling medium box, including baffle box (7), heat transfer box (14), main pipe (7) and cooling medium box, main pipe (10) outside is provided with automatically controlled tee bend shunt valve (16), and automatically controlled tee bend shunt valve (16) control end with cooling mechanism control unit connects, automatically controlled tee bend shunt valve (16) third interface is connected with distributing pipe (17), distributing pipe (17 flowing back side and adjacent distribute cooling box (8) intercommunication setting on baffle box (7), just heat transfer box (14) play medium side be provided with back medium pipe (18) and with cooling medium box (9) are returned the medium portion and are connected.

7. A portable secure mobile work platform according to claim 5, wherein: the two side walls inside the longitudinal guide pipe (11) are respectively provided with a circulation cavity (19), and the circulation cavities (19) are communicated with the inner cavities of the radiating fin plate groups (12) at the upper part and the lower part of the longitudinal guide pipe (11).