CN103547126A - Installer for processor - Google Patents

Abstract

The invention provides an installer for a processor. The installer for the processor comprises a containing module and an installing module. The installing module comprises a connector and an installing piece, the containing module comprises a body part and an air pumping part, and the body part comprises an upper semicircle part and a lower semicircle part. A circular vent hole is further formed in a cylindrical cooling liquid barrier layer. Bearing semicircle rings are arranged at the left end of the upper semicircle part and at the left end of the lower semicircle part respectively. An upper semicircle block and a lower semicircle block are arranged at the right end of the upper semicircle part and at the right end of the lower semicircle part respectively, after the upper semicircle part and the lower semicircle part are fastened to form a cylinder, the upper semicircle block and the lower semicircle block are fastened to form a circular block with a circular blind hole in the middle, and one end, far away from the cylinder, of the circular block is closed.

Description

A kind of erector for the treatment of device

Technical field

The application relates to a kind of erection unit, especially a kind of erector for the treatment of device.

Background technology

Processor (for example CPU, PLC) parts are often used in control cubicle.In control cubicle, owing to having one or more processors and other electric components, therefore conventionally can there is heat accumulation.And processor itself both can be subject to the heat effects of self-radiating, can be controlled again the impact of amount of heat in cabinet.

If these heats are not distributed in time, gently cause crashing, heavy CPU may be burnt.Radiator plays conclusive effect to the stable operation of CPU.Cpu heat can be divided into three kinds of air-cooled, heat pipe and water-cooleds according to its radiating mode.Air-cooled radiator is present modal fansink-type, its principle is that the heat that CPU is produced is delivered on fin, and then by fan, heat is taken away, yet the shortcoming of air-cooled radiator is that cooling is unstable, noise is large and easily in use wearing and tearing of fan.Heat-pipe radiator is a kind of heat transfer element with high heat conductivility, and it carrys out transferring heat by the evaporation and condensation of the liquid in Totally enclosed vacuum pipe.Water-filled radiator is to use liquid forced circulation under the drive of pump to take away the heat of radiator, with air-cooled compare there are peace and quiet, cooling is stable, environment is relied on to little etc. advantage.But it only cools to specific features, poor for the cooling effect of surrounding environment; And the in the situation that of a large amount of gathering of heat, the effect of this type of cooling is also difficult to meet the demands.

Summary of the invention

The invention provides a kind of erector for the treatment of device, it can carry out specific aim cooling for concrete processor parts, and can adsorb discharge to the electric component around it and the heat itself producing simultaneously, both can play heating processor was carried out to specific aim cooling, the technique effect that the heat of heating processor periphery effectively can be taken away again.

A kind of erector for the treatment of device, comprise holding module and installation module, described installation module comprises connector and installed part, described connector is for needing the parts of installation process device to be electrically connected to installed part and control cubicle, it comprises connector external plug-in and connector internal plug, and described connector external plug-in is for being electrically connected to the processor socket of control cubicle; Described installed part comprises installed part plug-in unit, cylindric fixed part, mount pad and cylindric support portion, described installed part plug-in unit is cylindrical, it can be fixed installed part, and can be electrically connected to described connector internal plug, described mount pad is for installation process device, thereby make processor realize and being electrically connected to the parts that need installation process device in control cubicle, described cylindric support portion is cylindrical, for installed part is fixed.

Described holding module comprises main part and the portion of bleeding, and described main part comprises upper semi-circle portion and lower half circle portion, and upper semi-circle portion and lower half circle portion fasten and form cylinder, in the interface of upper semi-circle portion and lower half circle portion, are provided with sealing strip; On described cylindrical external peripheral surface, be provided with columniform cooling fluid barrier layer, described cylindrical inside has for holding the cavity of mount pad and processor, described columniform cooling fluid barrier layer is around described cavity, and the right-hand member upper flow at described columniform cooling fluid barrier layer is communicated with inlet, and left end lower flow is communicated with liquid outlet; At described columniform cooling fluid barrier layer, be also provided with circular pore, the inner circumferential side wall energy of described circular pore is enough isolated by the bore seal of described circular pore and described cooling fluid barrier layer, thereby described circular pore can be communicated with the external environment condition of described cavity and cavity.

Described circular pore is lined up axial row along described cylindrical axial direction, has a plurality of described axial row on the circumferencial direction of described columniform cooling fluid barrier layer, and the described circular pore in adjacent described axial row staggers mutually; The aperture of the described circular pore described in each in axial row increases gradually with the direction from left end to right-hand member, thereby the aperture of the circular pore in right side is maximum in each axial row, and the aperture of the circular pore in left side is minimum; Cooling fluid can flow into described cooling fluid barrier layer by described inlet, and the circumferential side wall of each circular pore of flowing through, and by described liquid outlet, flows out.

Described upper semi-circle portion and lower half circle portion are all provided with carrying semicircular ring at its left end, after described upper semi-circle portion and lower half circle portion fastening formation cylinder, described carrying semicircular ring forms carrying annulus, and be positioned at the left end of described cavity, be used for carrying cylindric fixed part, in the formed carrying annulus of described carrying semicircular ring, be provided with O-Sealing Rings; The outer circumference surface of described carrying semicircular ring is fixedly connected with lower half circle portion with described upper semi-circle portion respectively by the circumferential evenly spaced dividing plate that radially extends, and describedly radially extends the dividing plate gas circuit that between dividing plate, formation is communicated with described cavity.

Described upper semi-circle portion and lower half circle portion are provided with first circular sprue and lower semi-circular sprue at its right-hand member respectively, and after described upper semi-circle portion and lower half circle portion fastening formation cylinder, described first circular sprue and lower semi-circular sprue fasten and form the middle sprue with circular blind hole, described blind hole is for spacing cylindric support portion, and described circular sprue is sealing away from cylindrical one end.

Described bleed part on bleed partly and lower pumping part, on bleed part and lower pumping part by securing member, seal the fastening formation chamber of bleeding, in the left end face of the part of bleeding on described, there is the first bleeding point, in the left end face of described lower pumping part, there is the second bleeding point, on the right side of the described portion of bleeding, be provided with circular connecting hole, described circular connecting hole is tightly connected in the described cylinder position corresponding with the radial outside of described dividing plate gas circuit and the formation of described cylinder, the left side of the described portion of bleeding is provided with the closed hole passing for described cylindric fixed part.

During work, processor is arranged on mount pad, mount pad and processor are contained in upper semi-circle portion and lower half circle portion fastens in the cylindrical cavity forming, cylindric fixed part is carried in closed hole and carrying annulus successively by order from left to right, cylindric support portion is arranged in the blind hole of sprue, installed part plug-in unit stretches out outside closed hole, installed part is connected with connector with connector internal plug by installed part plug-in unit, connector external plug-in is electrically connected to the processor socket in control cubicle, and described the first bleeding point is connected with getter device with the second bleeding point; Described inlet and liquid outlet are communicated with supply port and the recovery mouthful of coolant supply apparatus respectively; 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, and is siphoned away by getter device by described dividing plate gas circuit, thereby plays the effect of effectively taking away described processor ambient heat.

Accompanying drawing explanation

Fig. 1 is the schematic main pseudosection of the erector for the treatment of device of the present invention;

Fig. 2 is the schematic side elevation of the erector for the treatment of device of the present invention;

Fig. 3 is the schematic installation diagram of the erector for the treatment of device of the present invention;

Fig. 4 is the right view of the portion of bleeding of the present invention;

Fig. 5 is the left view of the portion of bleeding of the present invention;

Fig. 6 is the schematic diagram of connector of the present invention;

Fig. 7 is the schematic diagram of installed part of the present invention.

Embodiment

A kind of erector for the treatment of device, comprise holding module and installation module, described installation module comprises connector and installed part, described connector is for needing the parts of installation process device to be electrically connected to installed part and control cubicle, it comprises connector external plug-in 25 and connectorinternal plug 24, and described connector external plug-in 25 is electrically connected to for the processor socket with control cubicle; Described installed part comprises installed part plug-inunit 26, cylindricfixed part 23,mount pad 22 andcylindric support portion 21, described installed part plug-inunit 26 is cylindrical, it can be fixed installed part, and can be electrically connected to described connectorinternal plug 24, describedmount pad 22 is for installation process device, thereby make processor realize and being electrically connected to the parts that need installation process device in control cubicle, describedcylindric support portion 21 is cylindrical, for installed part is fixed.

Described holding module comprises main part and theportion 10 of bleeding, and described main part comprisesupper semi-circle portion 1 and lowerhalf circle portion 2, andupper semi-circle portion 1 and lowerhalf circle portion 2 fasten and form cylinder, in the interface ofupper semi-circle portion 1 and lowerhalf circle portion 2, are provided with sealing strip; On described cylindrical external peripheral surface, be provided with columniform cooling fluid barrier layer, described cylindrical inside has for holding the cavity ofmount pad 22 and processor, described columniform cooling fluid barrier layer is around described cavity, and the right-hand member upper flow at described columniform cooling fluid barrier layer is communicated with inlet 3, and left end lower flow is communicated withliquid outlet 4; At described columniform cooling fluid barrier layer, be also provided withcircular pore 27, the inner circumferential side wall energy of describedcircular pore 27 is enough isolated with the bore seal of described cooling fluid barrier layer by describedcircular pore 27, thereby describedcircular pore 27 can be communicated with the external environment condition of described cavity and cavity.

Describedcircular pore 27 is lined up axial row along described cylindrical axial direction, has a plurality of described axial row on the circumferencial direction of described columniform cooling fluid barrier layer, and the describedcircular pore 27 in adjacent described axial row staggers mutually; The aperture of the describedcircular pore 27 described in each in axial row increases gradually with the direction from left end to right-hand member, thereby the aperture of thecircular pore 27 in right side is maximum in each axial row, and the aperture of thecircular pore 27 in left side is minimum; Cooling fluid can flow into described cooling fluid barrier layer by described inlet 3, and the circumferential side wall of eachcircular pore 27 of flowing through, and by describedliquid outlet 4, flows out.

Describedupper semi-circle portion 1 and lowerhalf circle portion 2 are all provided with carryingsemicircular ring 5 at its left end, after describedupper semi-circle portion 1 and lowerhalf circle portion 2 fastening formation cylinders, described carryingsemicircular ring 5 forms carrying annulus, and be positioned at the left end of described cavity, be used for carrying cylindric fixedpart 23, in the formed carrying annulus of described carryingsemicircular ring 5, be provided with O-Sealing Rings; The outer circumference surface of described carryingsemicircular ring 5 is fixedly connected with lowerhalf circle portion 2 with described uppersemi-circle portion 1 respectively by the circumferential evenly spaced dividing plate 6 that radially extends, and describedly radially extends the dividing plate gas circuit 7 that between dividing plate 6, formation is communicated with described cavity.

Describedupper semi-circle portion 1 and lowerhalf circle portion 2 are provided with first circular sprue and lower semi-circular sprue at its right-hand member respectively, and after describedupper semi-circle portion 1 and lowerhalf circle portion 2 fastening formation cylinders, described first circular sprue and lower semi-circular sprue fasten the circular sprue forming with blind hole, described blind hole is for spacingcylindric support portion 21, and described circular sprue is sealing away from cylindrical one end.

The describedportion 10 of bleeding is divided into bleed part and lower pumping part, on bleed part and lower pumping part by securingmember 12 sealings, fasten the formation chamber of bleeding, in the left end face of the part of bleeding on described, there is thefirst bleeding point 11, in the left end face of described lower pumping part, there is thesecond bleeding point 13, on described right side ofbleeding portion 10, be provided with circular connecting hole 92, described circular connecting hole 92 is tightly connected in the described cylinder position corresponding with the radial outside of described dividing plate gas circuit 7 and the formation of described cylinder, described left side ofbleeding portion 10 is provided with the closedhole 91 passing for described cylindric fixedpart 23.

During work, processor is arranged onmount pad 22,mount pad 22 and processor are contained inupper semi-circle portion 1 and lowerhalf circle portion 2 fastens in the cylindrical cavity forming, cylindricfixed part 23 is carried in closedhole 91 and carrying annulus successively by order from left to right,cylindric support portion 21 is arranged in the blind hole of circular sprue, installed part plug-inunit 26 reaches outside closedhole 91, installed part is connected with connector with connectorinternal plug 24 by installed part plug-inunit 26, connector external plug-in 25 is electrically connected to the processor socket in control cubicle, described thefirst bleeding point 11 is connected with getter device with thesecond bleeding point 13, described inlet 3 andliquid outlet 4 are communicated with supply port and the recovery mouthful of coolant supply apparatus respectively, under the effect of described getter device, the gas of the external environment condition of described cavity can enter described cavity by describedcircular pore 27, and by described dividing plate gas circuit 7, by getter device, siphoned away, thereby play the effect of effectively taking away described processor ambient heat.

Claims (1)

1. for the treatment of an erector for device, comprise holding module and installation module,

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

Described holding module comprises main part and the portion (10) of bleeding, described main part comprises upper semi-circle portion (1) and lower half circle portion (2), upper semi-circle portion (1) and lower half circle portion (2) fasten and form cylinder, in the interface of upper semi-circle portion (1) and lower half circle portion (2), are provided with sealing strip; On described cylindrical external peripheral surface, be provided with columniform cooling fluid barrier layer, described cylindrical inside has for holding the cavity of mount pad (22) and processor, described columniform cooling fluid barrier layer is around described cavity, and the right-hand member upper flow at described columniform cooling fluid barrier layer is communicated with inlet (3), and left end lower flow is communicated with liquid outlet (4); At described columniform cooling fluid barrier layer, be also provided with circular pore (27), the inner circumferential side wall energy of described circular pore (27) is enough isolated with the bore seal of described cooling fluid barrier layer by described circular pore (27), thereby described circular pore (27) can be communicated with the external environment condition of described cavity and cavity;

Described circular pore (27) is lined up axial row along described cylindrical axial direction, on the circumferencial direction of described columniform cooling fluid barrier layer, there are a plurality of described axial row, and the described circular pore (27) in adjacent described axial row staggers mutually; The aperture of the described circular pore (27) described in each in axial row increases gradually with the direction from left end to right-hand member, thereby the aperture of the circular pore in right side (27) is maximum in each axial row, and the aperture of the circular pore in left side (27) is minimum; Cooling fluid can flow into described cooling fluid barrier layer by described inlet (3), and the circumferential side wall of each circular pore (27) of flowing through, and by described liquid outlet (4), flows out;

Described upper semi-circle portion (1) and lower half circle portion (2) are all provided with carrying semicircular ring (5) at its left end, after described upper semi-circle portion (1) and lower half circle portion (2) fastening formation cylinder, described carrying semicircular ring (5) forms carrying annulus, and be positioned at the left end of described cavity, be used for carrying cylindric fixed part (23), in the formed carrying annulus of described carrying semicircular ring (5), be provided with O-Sealing Rings; The outer circumference surface of described carrying semicircular ring (5) is fixedly connected with lower half circle portion (2) with described upper semi-circle portion (1) respectively by the circumferential evenly spaced dividing plate (6) that radially extends, and describedly radially extends the dividing plate gas circuit (7) that between dividing plate (6), formation is communicated with described cavity;

Described upper semi-circle portion (1) and lower half circle portion (2) are provided with first circular sprue and lower semi-circular sprue at its right-hand member respectively, and after described upper semi-circle portion (1) and lower half circle portion (2) fastening formation cylinder, described first circular sprue and lower semi-circular sprue fasten and form the middle sprue with circular blind hole, described blind hole is for spacing cylindric support portion (21), and described sprue is sealing away from cylindrical one end;

The described portion of bleeding (10) is divided into bleed part and lower pumping part, on bleed part and lower pumping partly by securing member (12) the sealing fastening formation chamber of bleeding, in the left end face of the part of bleeding on described, there is the first bleeding point (11), in the left end face of described lower pumping part, there is the second bleeding point (13), on the right side of the described portion of bleeding (10), be provided with circular connecting hole (92), described circular connecting hole (92) is tightly connected in the described cylinder position corresponding with the radial outside of described dividing plate gas circuit (7) and the formation of described cylinder, the left side of the described portion of bleeding (10) is provided with the closed hole (91) passing for described cylindric fixed part (23),

During work, processor is arranged on mount pad (22), mount pad (22) and processor are contained in upper semi-circle portion (1) and lower half circle portion (2) fastens in the cylindrical cavity forming, cylindric fixed part (23) is carried in closed hole (91) and carrying annulus successively by order from left to right, cylindric support portion (21) is arranged in the blind hole of described sprue, installed part plug-in unit (26) reaches 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 to the processor socket in control cubicle, described the first bleeding point (11) is connected with getter device with the second bleeding point (13), described inlet (3) and liquid outlet (4) are communicated with supply port and the recovery mouthful of coolant supply apparatus respectively, 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 by described dividing plate gas circuit (7), by getter device, siphoned away, thereby play the effect of effectively taking away processor ambient heat.

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