CN103533801B - A kind of square erecting device for the treatment of device - Google Patents

Abstract

Translated fromChinese

本发明提供了一种用于处理器的方形安装装置，包括容纳模块和安装模块，所述安装模块包括连接头和安装件；所述容纳模块包括主体部和抽气部，其中，所述主体部包括上半方部和下半方部；所述上半方部和下半方部分别在其右端设置有上半圆形堵块和下半圆形堵块，并且当所述上半方部和下半方部扣合形成方柱体后，所述上半圆形堵块和下半圆形堵块扣合形成中间带有圆形盲孔的圆形堵块，所述盲孔用于限位圆柱状支撑部（21），所述圆形堵块远离方柱体的一端为封闭的；在所述上抽气部分的左侧端面上具有第一抽气口，在所述下抽气部分的左侧端面上具有第二抽气口。

The invention provides a square installation device for a processor, which includes an accommodation module and an installation module, the installation module includes a connector and an installation piece; the accommodation module includes a main body and an air suction part, wherein the main body The part includes an upper half square part and a lower half square part; the upper half square part and the lower half square part are respectively provided with an upper semicircular blocking block and a lower semicircular blocking block at their right ends, and when the upper half square part After the upper part and the lower half of the square part are fastened to form a square cylinder, the upper semicircular block and the lower semicircular block are fastened to form a circular block with a circular blind hole in the middle, and the blind hole is used In the position-limiting cylindrical support part (21), the end of the circular block away from the square cylinder is closed; there is a first suction port on the left side of the upper suction part, and the bottom suction There is a second air suction port on the left end face of the air part.

Description

Translated fromChinese

一种用于处理器的方形安装装置A square mounting device for a processor

技术领域technical field

本申请涉及一种安装设备，具体为一种用于处理器的方形安装装置。The present application relates to a mounting device, in particular to a square mounting device for a processor.

背景技术Background technique

处理器（例如CPU、PLC）部件在控制柜中经常使用。控制柜中由于存在一个或多个处理器以及其他电气部件，因此通常会发生热量积聚。而处理器本身既会受到自身散热的热量影响，又会受到控制柜中环境热量的影响。Processor (eg CPU, PLC) components are frequently used in control cabinets. Heat buildup typically occurs in a control cabinet due to the presence of one or more processors and other electrical components. The processor itself is affected not only by the heat dissipated by itself, but also by the ambient heat in the control cabinet.

如果不将这些热量及时散发出去，轻则导致死机，重则可能将CPU烧毁。散热器对CPU的稳定运行起着决定性的作用。CPU散热器根据其散热方式可分为风冷、热管和水冷三种。风冷散热器是现在最常见的散热器类型，其原理是将CPU产生的热量传递到散热片上，然后再通过风扇将热量带走，然而风冷散热器的缺点是降温不稳定、噪声较大、而且风扇容易在使用过程中磨损。热管散热器是一种具有极高导热性能的传热元件，它通过在全封闭真空管内的液体的蒸发与凝结来传递热量。水冷散热器是使用液体在泵的带动下强制循环带走散热器的热量，与风冷相比具有安静、降温稳定、对环境依赖小等等优点。但是其仅对特定部件进行冷却降温，对于周围环境的冷却效果差；而且在热量大量聚集的情况下，这种冷却方式的效果也难以满足要求。而且现有的散热器结构设计比较复杂，成本较高。If the heat is not dissipated in time, it will cause a crash in the slightest, and may burn the CPU in the severest case. The radiator plays a decisive role in the stable operation of the CPU. CPU radiators can be divided into three types according to their heat dissipation methods: air cooling, heat pipe cooling and water cooling. Air-cooled radiators are the most common type of radiators today. The principle is to transfer the heat generated by the CPU to the heat sink, and then take the heat away through the fan. However, the disadvantages of air-cooled radiators are unstable cooling and high noise. , And the fan is easy to wear and tear during use. Heat pipe radiator is a heat transfer element with extremely high thermal conductivity, which transfers heat through the evaporation and condensation of liquid in a fully enclosed vacuum tube. The water-cooled radiator is driven by the pump to force the circulation of the liquid to take away the heat of the radiator. Compared with the air-cooled radiator, it has the advantages of quietness, stable cooling, and less dependence on the environment. However, it only cools specific components, and the cooling effect on the surrounding environment is poor; and in the case of a large amount of heat accumulation, the effect of this cooling method is also difficult to meet the requirements. Moreover, the structural design of the existing radiator is relatively complicated and the cost is relatively high.

发明内容Contents of the invention

本发明提供一种用于处理器的方形安装装置，其结构简单，成本较低，能够针对具体的处理器部件进行针对性降温，而且同时能够对其周围的电气部件以及其本身所产生的热量进行吸附排出，能起到既对发热处理器进行针对性降温，又能够将发热处理器周边的热量有效带走的技术效果。The invention provides a square installation device for a processor, which has a simple structure and low cost, and can perform targeted cooling for specific processor components, and at the same time can reduce the heat generated by the surrounding electrical components and itself Adsorption and discharge can achieve the technical effect of not only targetedly cooling the heat-generating processor, but also effectively taking away the heat around the heat-generating processor.

一种用于处理器的方形安装装置，包括容纳模块和安装模块，所述安装模块包括连接头和安装件，所述连接头用于将安装件与控制柜中需要安装处理器的部件进行电连接，其包括连接头外部插件和连接头内部插件，所述连接头外部插件用于与控制柜中的处理器插口电连接；所述安装件包括安装件插件、圆柱状固定部、安装座和圆柱状支撑部，所述安装件插件为圆柱形，其能够对安装件进行固定，并且能够与所述连接头内部插件电连接，所述安装座用于安装处理器，从而使得处理器与控制柜中需要安装处理器的部件实现电连接，所述圆柱状支撑部为圆柱形，用于将安装件进行固定。A square installation device for a processor, including a receiving module and an installation module, the installation module includes a connector and a mounting piece, and the connector is used to electrically connect the mounting piece with the parts in the control cabinet that need to be installed with the processor connection, which includes an external plug-in connector and an internal plug-in connector, and the external plug-in connector is used for electrical connection with the processor socket in the control cabinet; Cylindrical support part, the mounting part insert is cylindrical, it can fix the mounting part, and can be electrically connected with the internal insert of the connector, the mounting seat is used to install the processor, so that the processor and the control The parts in the cabinet that need to be installed with the processor are electrically connected, and the cylindrical support part is cylindrical and used to fix the installation parts.

所述容纳模块包括主体部和抽气部，所述主体部包括上半方部和下半方部，上半方部和下半方部扣合形成方柱体，在上半方部和下半方部的界面处设置有密封条；在所述方柱体的外表面上设置有方柱形的冷却液屏障层，所述方柱体的内部具有用于容纳安装座和处理器的空腔，所述方柱形的冷却液屏障层围绕所述空腔，并且在所述方柱形的冷却液屏障层的右端上部流体连通有进液口，左端下部流体连通有出液口；在所述方柱形的冷却液屏障层还设置有圆形气孔，所述圆形气孔的内圆周侧壁能够将所述圆形气孔与所述冷却液屏障层的内腔密封隔绝，从而使得所述圆形气孔能够将所述空腔和空腔的外部环境连通。The accommodating module includes a main body and an air extraction part, the main body includes an upper half square part and a lower half square part, the upper half square part and the lower half square part are fastened to form a square cylinder, and the upper half square part and the lower half A sealing strip is provided at the interface of the half-square part; a square column-shaped coolant barrier layer is provided on the outer surface of the square column, and the inside of the square column has a cavity for accommodating the mounting seat and the processor. A cavity, the square column-shaped coolant barrier layer surrounds the cavity, and a liquid inlet is fluidly connected to the upper part of the right end of the square column-shaped coolant barrier layer, and a liquid outlet is fluidly connected to the lower part of the left end of the square column-shaped coolant barrier layer; The square column-shaped cooling liquid barrier layer is also provided with a circular air hole, and the inner peripheral sidewall of the circular air hole can seal and isolate the circular air hole from the inner cavity of the cooling liquid barrier layer, so that the The circular air hole can communicate the cavity with the external environment of the cavity.

所述圆形气孔沿着所述方柱体的轴向方向排成轴向列，在所述方柱形的冷却液屏障层的周向方向上具有多个所述轴向列，并且相邻的所述轴向列中的所述圆形气孔相互错开；每个所述轴向列中的所述圆形气孔的孔径以从左端向右端的方向逐渐增大，从而在每个轴向列中右侧圆形气孔的孔径最大，左侧圆形气孔的孔径最小；冷却液能够通过所述进液口流入所述冷却液屏障层，并且流经各个圆形气孔的圆周侧壁，通过所述出液口流出。The circular air holes are arranged in axial rows along the axial direction of the square cylinder, and there are a plurality of axial rows in the circumferential direction of the square cylinder-shaped coolant barrier layer, and adjacent The circular air holes in the axial rows are staggered from each other; the diameter of the circular air holes in each axial row gradually increases from the left end to the right end, so that in each axial row The diameter of the circular air hole on the right side is the largest, and the diameter of the circular air hole on the left is the smallest; the cooling liquid can flow into the cooling liquid barrier layer through the liquid inlet, and flow through the circumferential side walls of each circular air hole, and pass through the The liquid outlet flows out.

所述上半方部和下半方部均在其左端设置有承载半圆环，当所述上半方部和下半方部扣合形成方柱体后，所述承载半圆环形成承载圆环，并位于所述空腔的左端，用于承载圆柱状固定部，在所述承载半圆环所形成的承载圆环内设置有圆形密封环；所述承载半圆环的外圆周面通过周向均匀间隔设置的径向延伸隔板分别与所述上半方部和下半方部固定连接，所述径向延伸隔板之间形成与所述空腔连通的隔板气路。Both the upper half square part and the lower half square part are provided with a bearing half ring at their left ends, and when the upper half square part and the lower half square part are fastened to form a square cylinder, the bearing half ring forms a bearing A circular ring, which is located at the left end of the cavity, is used to carry a cylindrical fixed part, and a circular sealing ring is arranged in the carrying ring formed by the carrying semi-circular ring; the outer circumference of the carrying semi-circular ring The surface is fixedly connected to the upper half square part and the lower half square part through radially extending partitions arranged at uniform intervals in the circumferential direction, and a partition air path communicating with the cavity is formed between the radially extending partitions .

所述上半方部和下半方部分别在其右端设置有上半圆形堵块和下半圆形堵块，并且当所述上半方部和下半方部扣合形成方柱体后，所述上半圆形堵块和下半圆形堵块扣合形成带有盲孔的堵块，所述盲孔用于限位圆柱状支撑部，所述堵块远离方柱体的一端为封闭的。The upper half square part and the lower half square part are respectively provided with an upper semicircular blocking block and a lower semicircular blocking block at their right ends, and when the upper half square part and the lower half square part are fastened to form a square cylinder Finally, the upper semicircular block and the lower semicircular block are fastened together to form a block with a blind hole, the blind hole is used to limit the cylindrical support part, and the block is far away from the One end is closed.

所述抽气部分为上抽气部分和下抽气部分，上抽气部分和下抽气部分通过紧固件密封扣合形成抽气腔室，在所述上抽气部分的左侧端面上具有第一抽气口，在所述下抽气部分的左侧端面上具有第二抽气口，所述第一抽气口与所述第二抽气口的轴向方向均平行于方柱体的纵长方向，在所述抽气部的右侧设置有方形连接孔，所述方形连接孔在所述方柱体与所述隔板气路的径向外侧相对应的位置处与所述方柱体形成密封连接，所述抽气部的左侧设置有供所述圆柱状固定部穿过的密封孔。The air extraction part is an upper air extraction part and a lower air extraction part. The upper air extraction part and the lower air extraction part are sealed and buckled by fasteners to form an air extraction chamber. On the left end surface of the upper air extraction part There is a first air suction port, and a second air suction port is provided on the left end surface of the lower air suction part, and the axial directions of the first air suction port and the second air suction port are parallel to the longitudinal direction of the square cylinder Direction, a square connection hole is provided on the right side of the pumping part, and the square connection hole is connected to the square cylinder at the position corresponding to the radially outer side of the partition plate gas path. To form a sealed connection, a sealing hole is provided on the left side of the pumping part for the cylindrical fixing part to pass through.

工作时，处理器安装在安装座上，安装座和处理器容纳在上半方部和下半方部扣合形成的方柱体的空腔中，圆柱状固定部按从左到右的顺序依次承载在密封孔和承载圆环中，圆柱状支撑部设置在堵块的盲孔中，安装件插件伸出密封孔之外，安装件通过安装件插件和连接头内部插件与连接头连接，连接头外部插件与控制柜中的处理器插口电连接，所述第一抽气口和第二抽气口与吸气装置连接；所述进液口与冷却液供给装置的供给口连通，所述出液口与冷却液供给装置的回收口连通；在所述吸气装置的作用下，所述空腔的外部环境的气体能够通过所述圆形气孔进入所述空腔，并且通过所述隔板气路而被吸气装置吸走，从而起到有效带走处理器周围热量的作用。When working, the processor is installed on the mounting base, and the mounting base and the processor are accommodated in the cavity of the square cylinder formed by the fastening of the upper half square part and the lower half square part, and the cylindrical fixed part is in order from left to right Carried in the sealing hole and the bearing ring in turn, the cylindrical support part is set in the blind hole of the block, the mounting part insert protrudes out of the sealing hole, and the mounting part is connected to the connecting head through the mounting part insert and the internal plug of the connecting head. The external plug-in of the connector is electrically connected to the processor socket in the control cabinet, the first air suction port and the second air suction port are connected to the suction device; the liquid inlet is connected to the supply port of the cooling liquid supply device, and the outlet The liquid port communicates with the recovery port of the cooling liquid supply device; under the action of the suction device, the gas of the external environment of the cavity can enter the cavity through the circular air hole, and pass through the partition The air path is sucked away by the suction device, thereby effectively taking away the heat around the processor.

附图说明Description of drawings

图1为本发明的用于处理器的方形安装装置的示意性主视剖面图；Fig. 1 is a schematic front sectional view of a square mounting device for a processor of the present invention;

图2为本发明的用于处理器的方形安装装置的示意性侧视图；2 is a schematic side view of a square mounting device for a processor of the present invention;

图3为本发明的用于处理器的方形安装装置的示意性装配图；Fig. 3 is a schematic assembly diagram of a square mounting device for a processor of the present invention;

图4为本发明的抽气部的示意性右视图；Fig. 4 is a schematic right side view of the air extraction part of the present invention;

图5为本发明的抽气部的示意性左视图；Fig. 5 is a schematic left view of the suction part of the present invention;

图6为本发明的连接头的示意图；Fig. 6 is the schematic diagram of the connector of the present invention;

图7为本发明的安装件的示意图。Fig. 7 is a schematic diagram of the mounting part of the present invention.

具体实施方式detailed description

一种用于处理器的方形安装装置，包括容纳模块和安装模块，所述安装模块包括连接头和安装件，所述连接头用于将安装件与控制柜中需要安装处理器的部件进行电连接，其包括连接头外部插件25和连接头内部插件24，所述连接头外部插件25用于与控制柜中的处理器插口电连接；所述安装件包括安装件插件26、圆柱状固定部23、安装座22和圆柱状支撑部21，所述安装件插件26为圆柱形，其能够对安装件进行固定，并且能够与所述连接头内部插件24电连接，所述安装座22用于安装处理器，从而使得处理器与控制柜中需要安装处理器的部件实现电连接，所述圆柱状支撑部21为圆柱形，用于将安装件进行固定。A square installation device for a processor, including a receiving module and an installation module, the installation module includes a connector and a mounting piece, and the connector is used to electrically connect the mounting piece with the parts in the control cabinet that need to be installed with the processor Connection, it comprises connector external plug-in 25 and connector internal plug-in 24, and described connector external plug-in 25 is used for being electrically connected with the processor socket in the control cabinet; 23. The mounting seat 22 and the cylindrical support part 21. The mounting part insert 26 is cylindrical, which can fix the mounting part and be electrically connected with the internal insert 24 of the connector. The mounting seat 22 is used for The processor is installed so that the processor is electrically connected to the components in the control cabinet that need to be installed with the processor. The cylindrical support part 21 is cylindrical and used to fix the installation part.

所述容纳模块包括主体部和抽气部10，所述主体部包括上半方部1和下半方部2，上半方部1和下半方部2扣合形成方柱体，在上半方部1和下半方部2的界面处设置有密封条；在所述方柱体的外表面上设置有方柱形的冷却液屏障层，所述方柱体的内部具有用于容纳安装座22和处理器的空腔，所述方柱形的冷却液屏障层围绕所述空腔，并且在所述方柱形的冷却液屏障层的右端上部流体连通有进液口3，左端下部流体连通有出液口4；在所述方柱形的冷却液屏障层还设置有圆形气孔27，所述圆形气孔27的内圆周侧壁能够将所述圆形气孔27与所述冷却液屏障层的内腔密封隔绝，从而使得所述圆形气孔27能够将所述空腔和空腔的外部环境连通。The containing module includes a main body and an air extraction part 10, the main body includes an upper half square part 1 and a lower half square part 2, and the upper half square part 1 and the lower half square part 2 are fastened to form a square cylinder. A sealing strip is provided at the interface between the half-square part 1 and the lower half-square part 2; a square-column-shaped coolant barrier layer is provided on the outer surface of the square-column body, and the inside of the square-column body has a The cavity of the mounting seat 22 and the processor, the square column-shaped coolant barrier layer surrounds the cavity, and the upper right end of the square column-shaped coolant barrier layer is fluidly connected with a liquid inlet 3, and the left end The lower part of the fluid is connected with a liquid outlet 4; a circular air hole 27 is also arranged on the cooling liquid barrier layer of the square column, and the inner circumference side wall of the circular air hole 27 can connect the circular air hole 27 with the described circular air hole 27. The inner cavity of the cooling liquid barrier layer is sealed and isolated, so that the circular air hole 27 can communicate the cavity with the external environment of the cavity.

所述圆形气孔27沿着所述方柱体的轴向方向排成轴向列，在所述方柱形的冷却液屏障层的周向方向上具有多个所述轴向列，并且相邻的所述轴向列中的所述圆形气孔27相互错开；每个所述轴向列中的所述圆形气孔27的孔径以从左端向右端的方向逐渐增大，从而在每个轴向列中右侧圆形气孔27的孔径最大，左侧圆形气孔27的孔径最小；冷却液能够通过所述进液口3流入所述冷却液屏障层，并且流经各个圆形气孔27的圆周侧壁，通过所述出液口4流出。The circular air holes 27 are arranged in axial rows along the axial direction of the square cylinder, and there are a plurality of axial rows in the circumferential direction of the square cylinder-shaped coolant barrier layer, and The circular air holes 27 in the adjacent axial rows are staggered from each other; the diameter of the circular air holes 27 in each axial row gradually increases from the left end to the right end, so that each In the axial row, the diameter of the circular air hole 27 on the right side is the largest, and the diameter of the circular air hole 27 on the left side is the smallest; the cooling liquid can flow into the cooling liquid barrier layer through the liquid inlet 3, and flow through each circular air hole 27 The circumferential side wall flows out through the liquid outlet 4.

所述上半方部1和下半方部2均在其左端设置有承载半圆环5，当所述上半方部1和下半方部2扣合形成方柱体后，所述承载半圆环5形成承载圆环，并位于所述空腔的左端，用于承载圆柱状固定部23，在所述承载半圆环5所形成的承载圆环内设置有圆形密封环；所述承载半圆环5的外圆周面通过周向均匀间隔设置的径向延伸隔板6分别与所述上半方部1和下半方部2固定连接，所述径向延伸隔板6之间形成与所述空腔连通的隔板气路7。The upper half square part 1 and the lower half square part 2 are all provided with a bearing semicircular ring 5 at its left end, and when the upper half square part 1 and the lower half square part 2 are buckled to form a square cylinder, the bearing The semi-circular ring 5 forms a bearing ring, and is positioned at the left end of the cavity, and is used to carry the cylindrical fixing part 23, and a circular sealing ring is arranged in the bearing ring formed by the bearing semi-circular ring 5; The outer peripheral surface of the bearing semi-circular ring 5 is fixedly connected with the upper half square part 1 and the lower half square part 2 respectively through the radially extending partitions 6 arranged at uniform intervals in the circumferential direction, and the radially extending partitions 6 A partition air passage 7 communicating with the cavity is formed between them.

所述上半方部1和下半方部2分别在其右端设置有上半圆形堵块和下半圆形堵块，并且当所述上半方部1和下半方部2扣合形成方柱体后，所述上半圆形堵块和下半圆形堵块扣合形成带有盲孔的堵块，所述盲孔用于限位圆柱状支撑部21，所述堵块远离方柱体的一端为封闭的。The upper half square part 1 and the lower half square part 2 are respectively provided with an upper semicircular blocking block and a lower semicircular blocking block at their right ends, and when the upper half square part 1 and the lower half square part 2 are snapped together After the square cylinder is formed, the upper semicircular block and the lower semicircular block are snapped together to form a block with a blind hole, the blind hole is used to limit the cylindrical support part 21, and the block The end away from the square cylinder is closed.

所述抽气部10分为上抽气部分和下抽气部分，上抽气部分和下抽气部分通过紧固件12密封扣合形成抽气腔室，在所述上抽气部分的左侧端面上具有第一抽气口11，在所述下抽气部分的左侧端面上具有第二抽气口13，所述第一抽气口11与所述第二抽气口13的轴向方向均平行于方柱体的纵长方向，在所述抽气部10的右侧设置有方形连接孔92，所述方形连接孔92在所述方柱体与所述隔板气路7的径向外侧相对应的位置处与所述方柱体形成密封连接，所述抽气部10的左侧设置有供所述圆柱状固定部23穿过的密封孔91。The air extraction part 10 is divided into an upper air extraction part and a lower air extraction part, and the upper air extraction part and the lower air extraction part are sealed and buckled by fasteners 12 to form an air extraction chamber. There is a first air suction port 11 on the side end face, and a second air suction port 13 is arranged on the left end face of the lower air suction part, and the axial directions of the first air suction port 11 and the second air suction port 13 are all parallel In the longitudinal direction of the square cylinder, a square connection hole 92 is provided on the right side of the air pumping part 10, and the square connection hole 92 is radially outside the square cylinder and the partition air passage 7 The corresponding position forms a sealed connection with the square cylinder, and a sealing hole 91 is provided on the left side of the pumping part 10 for the cylindrical fixing part 23 to pass through.

工作时，处理器安装在安装座22上，安装座22和处理器容纳在上半方部1和下半方部2扣合形成的方柱体的空腔中，圆柱状固定部23按从左到右的顺序依次承载在密封孔91和承载圆环中，圆柱状支撑部21设置在堵块的盲孔中，安装件插件26伸出密封孔91之外，安装件通过安装件插件26和连接头内部插件24与连接头连接，连接头外部插件25与控制柜中的处理器插口电连接，所述第一抽气口11和第二抽气口13与吸气装置连接；所述进液口3与冷却液供给装置的供给口连通，所述出液口4与冷却液供给装置的回收口连通；在所述吸气装置的作用下，所述空腔的外部环境的气体能够通过所述圆形气孔27进入所述空腔，并且通过所述隔板气路7而被吸气装置吸走，从而起到有效带走处理器周围热量的作用。During work, the processor is installed on the mounting seat 22, and the mounting seat 22 and the processor are accommodated in the cavity of the square cylinder formed by the fastening of the upper half square part 1 and the lower half square part 2, and the cylindrical fixing part 23 is pressed from The sequence from left to right is carried in the sealing hole 91 and the bearing ring in turn, the cylindrical support part 21 is arranged in the blind hole of the block, the mounting piece insert 26 extends out of the sealing hole 91, and the mounting piece passes through the mounting piece insert 26 And the connector internal plug-in 24 is connected with the connector, and the connector external plug-in 25 is electrically connected with the processor socket in the control cabinet, and the first air suction port 11 and the second air suction port 13 are connected with the suction device; the liquid inlet Port 3 communicates with the supply port of the cooling liquid supply device, and the liquid outlet 4 communicates with the recovery port of the cooling liquid supply device; under the action of the suction device, the gas in the external environment of the cavity can pass through the The circular air hole 27 enters the cavity, and is sucked by the suction device through the partition air passage 7, so as to effectively take away the heat around the processor.

Claims (1)

1., for the treatment of a square erecting device for device, comprise holding module and installation module,

Described installation module comprises connector and installed part, described connector is used for installed part to be electrically connected with needing the parts of installation process device in control cubicle, it comprises connector external plug-in (25) and connector internal plug (24), and described connector external plug-in (25) is for being electrically connected with the processor socket in control cubicle; Described installed part comprises installed part plug-in unit (26), cylindric fixed part (23), mount pad (22) and cylindric support portion (21), described installed part plug-in unit (26) is for cylindrical, it can be fixed installed part, and can be electrically connected with described connector internal plug (24), described mount pad (22) is for installation process device, thus make processor realize being electrically connected with needing the parts of installation process device in control cubicle, described cylindric support portion (21) for cylindrical, for installed part is fixed;

Described holding module comprises main part and exhaust part (10), described main part comprises first quadrate part (1) and second quadrate part (2), first quadrate part (1) and second quadrate part (2) fasten and form square body, and the interface of first quadrate part (1) and second quadrate part (2) is provided with sealing strip; The outer surface of described square body is provided with the cooling fluid barrier layer of square column type, the inside of described square body has the cavity for holding mount pad (22) and processor, the cooling fluid barrier layer of described square column type is around described cavity, and be communicated with inlet (3) in the right-hand member upper flow of the cooling fluid barrier layer of described square column type, left end lower flow is communicated with liquid outlet (4); Circular pore (27) is also provided with at the cooling fluid barrier layer of described square column type, the inner circumferential side wall energy of described circular pore (27) is enough to be completely cut off the bore seal of described circular pore (27) with described cooling fluid barrier layer, thus described cavity can be communicated with the external environment condition of cavity by described circular pore (27);

Described circular pore (27) lines up axial row along the axial direction of described square body, the circumferential direction of the cooling fluid barrier layer of described square column type has multiple described axial row, and the described circular pore (27) in adjacent described axial row staggers mutually; The aperture of the described circular pore (27) in each described axial row is to increase gradually from left end to the direction of right-hand member, thus the aperture on the circular pore in right side (27) is maximum in each axial row, and the aperture of the circular pore (27) in left side is minimum; Cooling fluid can flow into described cooling fluid barrier layer by described inlet (3), and flows through the circumferential side wall of each circular pore (27), is flowed out by described liquid outlet (4);

Described first quadrate part (1) and second quadrate part (2) are all provided with carrying semicircular ring (5) at its left end, after described first quadrate part (1) and second quadrate part (2) fasten formation square body, described carrying semicircular ring (5) forms carrying annulus, and be positioned at the left end of described cavity, for carrying cylindric fixed part (23), in the carrying annulus that described carrying semicircular ring (5) is formed, be provided with O-Sealing Rings; The outer circumference surface of described carrying semicircular ring (5) extends dividing plate (6) by the radial direction that circumferential uniform intervals is arranged and is fixedly connected with second quadrate part (2) with described first quadrate part (1) respectively, and described radial direction extends between dividing plate (6) and forms the dividing plate gas circuit (7) with described cavity connects;

Described first quadrate part (1) and second quadrate part (2) are provided with first circular sprue and lower semi-circular sprue at its right-hand member respectively, and after described first quadrate part (1) and second quadrate part (2) fasten formation square body, first circular sprue described and lower semi-circular sprue fasten the sprue formed with blind hole, described blind hole is used for spacing cylindric support portion (21), and described sprue is closed away from one end of square body;

Described exhaust part (10) is divided into exhaust portion and lower pumping part, upper exhaust portion and lower pumping part fasten formation by securing member (12) sealing and to bleed chamber, on described exhaust portion left end face on there is the first bleeding point (11), the left end face of described lower pumping part has the second bleeding point (13), described first bleeding point (11) is all parallel to the longitudinally of square body with the axial direction of described second bleeding point (13), the right side of described exhaust part (10) is provided with square attaching apertures (92), described square attaching apertures (92) is formed in the described square body position corresponding with the radial outside of described dividing plate gas circuit (7) and described square body and is tightly connected, the left side of described exhaust part (10) is provided with the closed hole (91) passed for described cylindric fixed part (23),

During work, processor is arranged on mount pad (22), mount pad (22) and processor are contained in first quadrate part (1) and second quadrate part (2) fastens in the cavity of the square body formed, cylindric fixed part (23) is carried in closed hole (91) and carrying annulus by order from left to right successively, cylindric support portion (21) is arranged in the blind hole of sprue, installed part plug-in unit (26) stretches out outside closed hole (91), installed part is connected with connector with connector internal plug (24) by installed part plug-in unit (26), connector external plug-in (25) is electrically connected with the processor socket in control cubicle, described first bleeding point (11) is connected with getter device with the second bleeding point (13), described inlet (3) is communicated with the supply port of coolant supply apparatus, and described liquid outlet (4) is communicated with the recovery port of coolant supply apparatus, under the effect of described getter device, the gas of the external environment condition of described cavity can enter described cavity by described circular pore (27), and siphoned away by getter device by described dividing plate gas circuit (7), thus play the effect effectively taking away processor ambient heat.