CN204480163U - A kind of automatic temperature-controlled cooling system of CPCI or VPX framework blade server - Google Patents

Abstract

An automatic temperature-controlled cooling system for CPCI or VPX framework blade server, comprises axial flow heat radiation and centrifugal heat radiation two kinds of radiator structures; Axial flow radiator structure comprises: 1 is connected to pluggable fan disk in communication backplane, at least 1 is connected to pluggable temperature sensor in communication backplane, 1 cabinet upper plate opening air port and 1 open air holes chassis backplane; Fan disk comprises: at least 1 tubeaxial fan, 1 fan control board; Tubeaxial fan is connected with fan control board, and fan control board is connected with communication backplane by fan disk connector; By chassis backplane air vent air intake by the bottom-up exhausting of the aerofoil fan on fan disk, by the air-out of cabinet top board.

Description

A kind of automatic temperature-controlled cooling system of CPCI or VPX framework blade server

Technical field

The utility model relates to server radiating system, is specifically related to the automatic temperature-controlled cooling system of a kind of CPCI or VPX framework blade server.

Background technology

The blade server of CPCI or VPX framework is because its feature such as high density and high stability is widely used in the fields such as Industry Control, military project and traffic.Traditional CPCI or VPX framework blade server cooling system is divided into fan-free structure and has fan structure, wherein have fan structure generally arrange in enclosure top or bottom or side a fan disk that multiple fan is housed in cabinet in the mode of blowing to the heat radiation of cabinet inside, this kind of scheme can due to the stop of cabinet inside assembly, what fan was blown into is distinguished and admirable at cabinet inside formation circulation, be not easy timely discharge, cause case radiation ability to decline.Wherein blade erect the horizontal radiator structure scheme of inserting vertical blowing of slotting fan disk can because in rack in vertical direction the stop of other server apparatus cause the hot blast in cabinet can not discharge according to vertical direction, radiating effect can become very poor.Separately there is the fan on some cooling system fan disks not support temperature regulate speed, there is the shortcoming of the short and power wastage of fan life.

Utility model content

Utility model object: in order to overcome the deficiencies in the prior art, the utility model provides a kind of CPCI or VPX framework blade server automatic temperature-controlled cooling system, realize good fan thermal effect, and adapt to plurality of application scenes, support that temperature control adjusts rotation speed of the fan function automatically simultaneously, extend fan life, reduce power consumption of heat dissipation system.

Technical scheme: a kind of automatic temperature-controlled cooling system of CPCI or VPX framework blade server, is characterized in that, comprises axial flow heat radiation and centrifugal heat radiation two kinds of radiator structures;

Axial flow radiator structure comprises: 1 is connected to pluggable fan disk in communication backplane, at least 1 is connected to pluggable temperature sensor in communication backplane, 1 cabinet upper plate opening air port and 1 open air holes chassis backplane; Fan disk comprises: at least 1 tubeaxial fan, 1 fan control board; Tubeaxial fan is connected with fan control board, and fan control board is connected with communication backplane by fan disk connector; By chassis backplane air vent air intake by the bottom-up exhausting of the aerofoil fan on fan disk, by the air-out of cabinet top board;

Centrifugal radiation structure comprises: 1 be connected to pluggable fan disk in communication backplane, at least 1 be connected to the case front panel that pluggable temperature sensor in communication backplane and 1 are provided with lower airway hole; Fan disk comprises: at least 1 centrifugal fan, each centrifugal fan are furnished with 1 lower guide air channel, top rectangle wind guide channel, 1 fan control board; Centrifugal fan is connected with fan control board, and fan control board is connected with communication backplane by fan disk connector; By the air vent air intake of case front panel bottom, by the bottom-up exhausting of the centrifugal fan on fan disk, change wind direction via top rectangle wind guide channel, eventually through the air-out of case front panel upper guide air holes from lower guide air channel.

Described above-mentioned two kinds of radiator structures are in operation, temperature in communication backplane in temperature sensor kinetic measurement cabinet, fan control board, the aerofoil fan on fan control board dynamic conditioning fan disk and the rotating speed of centrifugal fan on fan disk is passed in real time by the signal wire in communication backplane.The information such as the rotation speed of the fan on fan disk, housing temperature are obtained by each server blade by communication backplane signal wire, server blade also by the signal wire in communication backplane and the fan control board communications on fan disk, can realize Non-follow control fan and temperature threshold setting.

The fan disk of axial flow radiator structure and centrifugal radiation structure is the top at machine box for server, supports hot plug.

In axial flow radiator structure and centrifugal radiation structure, the temperature sensor in communication backplane is made up of the connector of a 2.54mm spacing, wire and a thermistor.

Fan on axial flow radiator structure and centrifugal cooling mechanism fan dish is 4 line temperature-controlled fans of standard.

Axial flow radiator structure is communicated with server blade via communication backplane by RS-485 serial port protocol with the fan control board on centrifugal cooling mechanism fan dish, and server blade output terminal controls the fan on fan disk.

Beneficial effect:

(1) axial flow radiator structure of the present utility model and centrifugal radiation structure realize exhausting heat radiation process by one at the hot swappable fan disk of enclosure top, form the problem that air ring conductance causes radiating effect reduction under solving traditional blowing pattern in cabinet.

(2) centrifugal radiation structure of the present utility model passes through case front panel underlying vent holes air intake by one group of centrifugal fan on the hot swappable fan disk of enclosure top, vertical air-flow in cabinet is changed wind direction blown out by front panel top portion ventilation hole, solve when server disposition has in the frame of other equipment in top and the bottom, the radiating effect that same acquisition is good.

(3) axial flow radiator structure of the present utility model and centrifugal radiation structure obtain real-time cabinet inside temperature by the pluggable temperature sensor in communication backplane, and pass to the fan control board on fan disk, realize dynamic temperature control fan speed-regulating function.

(4) axial flow radiator structure of the present utility model and centrifugal radiation structure are by the fan control board communications of the blade server in communication backplane directly and on fan disk, realize the Dynamic Acquisition of rotation speed of the fan and housing temperature data and the manual setting to rotation speed of the fan and temperature threshold.

Accompanying drawing explanation

Fig. 1 is general structure block diagram of the present utility model, and Fig. 1 a is corresponding axial flow fan structure; Fig. 1 b is corresponding centrifugal fan structure;

Fig. 2 is fan disk structural drawing of the present utility model; Fig. 2 a is corresponding axial flow fan structure; Fig. 2 b is corresponding centrifugal fan structure;

Fig. 3 is core bus figure of the present utility model.

Embodiment

Below in conjunction with accompanying drawing the utility model done and further explain.

As shown in the figure, perforate lower shoe 1, communication backplane 2, temperature sensor 3, fan disk 4, fan disk connector 5, perforate upper plate 6, wind direction 7, aerofoil fan 8, blade server 9, centrifugal fan 10, front panel 11, fan disk control panel 12, wind guide channel 13; Communication backplane 14, fan disk connector body 15, temperature sensor socket 16, temperature sensor signal line 17, RS-485 bus 18, insert pocket 19.

As shown in the left figure in Fig. 1, axial flow radiator structure comprises: 1 is connected to pluggable fan disk in communication backplane, at least 1 is connected to pluggable temperature sensor in communication backplane, 1 cabinet top board opening air port and 1 open air holes chassis backplane; Fan disk comprises: at least 1 tubeaxial fan, 1 fan control board; Tubeaxial fan is connected with fan control board, and fan control board is connected with communication backplane by fan disk connector.During the work of axial flow radiator structure, by chassis backplane air vent air intake by the bottom-up exhausting of the aerofoil fan on fan disk, by the air-out of cabinet top board.As shown in the right figure in Fig. 1, centrifugal radiation structure comprises: 1 be connected to pluggable fan disk in communication backplane, at least 1 be connected to the case front panel that pluggable temperature sensor in communication backplane and 1 open air holes; Fan disk comprises: at least 1 centrifugal fan, each centrifugal fan have 1 wind guide channel, 1 unified rectangle wind guide channel, 1 fan control board; Centrifugal fan is connected with fan control board, and fan control board is connected with communication backplane by fan disk connector.During centrifugal radiation structure work, by the air vent air intake of case front panel bottom, by the bottom-up exhausting of the centrifugal fan on fan disk, and change wind direction via the wind guide channel on fan disk, eventually through the air-out of case front panel upper guide air holes.

As shown in Fig. 2 left side, there is at least 14 line temperature control aerofoil fan the fan disk front portion of axial flow radiator structure, there is a fan control dish at fan disk rear portion, and aerofoil fan to be manipulated stock quotations with fan by 4 line interfaces of 2.54mm spacing and is connected, and fan control dish is connected with communication backplane by connector.As shown in Fig. 2 right side, there is at least 14 line temperature control centrifugal fan the fan disk front portion of centrifugal radiation structure, and there is the wind guide channel of and fan outlet consistent size the front portion of centrifugal fan, and multiple wind guide channel finally converges to a rectangle wind guide channel.There is a fan control dish at fan disk rear portion, and aerofoil fan to be manipulated stock quotations with fan by 4 line interfaces of 2.54mm spacing and is connected, and fan control dish is connected with communication backplane by connector.

As shown in Figure 3, communication backplane has two needle sockets of 1 2.54mm spacing between every two server blade slots for using to temperature sensor, each socket is connected with fan disk connector by backplane signal line.The RS-485 rs 232 serial interface signal line that the socket of each server blade and fan disk connector are drawn all is connected in the RS-485 bus of backboard.

The above is only preferred implementation of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (5)

1. an automatic temperature-controlled cooling system for CPCI or VPX framework blade server, comprises axial flow heat radiation and centrifugal heat radiation two kinds of radiator structures; It is characterized in that,

Axial flow radiator structure comprises: 1 is connected to pluggable fan disk in communication backplane, at least 1 is connected to pluggable temperature sensor in communication backplane, 1 cabinet upper plate opening air port and 1 open air holes chassis backplane; Fan disk comprises: at least 1 tubeaxial fan, 1 fan control board; Tubeaxial fan is connected with fan control board, and fan control board is connected with communication backplane by fan disk connector; By chassis backplane air vent air intake by the bottom-up exhausting of the aerofoil fan on fan disk, by the air-out of cabinet top board;

Centrifugal radiation structure comprises: 1 be connected to pluggable fan disk in communication backplane, at least 1 be connected to the case front panel that pluggable temperature sensor in communication backplane and 1 are provided with lower airway hole; Fan disk comprises: at least 1 centrifugal fan, each centrifugal fan are furnished with 1 lower guide air channel, top rectangle wind guide channel, 1 fan control board; Centrifugal fan is connected with fan control board, and fan control board is connected with communication backplane by fan disk connector; By the air vent air intake of case front panel bottom, by the bottom-up exhausting of the centrifugal fan on fan disk, change wind direction via top rectangle wind guide channel, eventually through the air-out of case front panel upper guide air holes from lower guide air channel.

2. the automatic temperature-controlled cooling system of a kind of CPCI or VPX framework blade server as claimed in claim 1, it is characterized in that, the fan disk of axial flow radiator structure and centrifugal radiation structure is the top at machine box for server, supports hot plug.

3. the automatic temperature-controlled cooling system of a kind of CPCI or VPX framework blade server as claimed in claim 1, it is characterized in that, in axial flow radiator structure and centrifugal radiation structure, the temperature sensor in communication backplane is made up of the connector of a 2.54mm spacing, wire and a thermistor.

4. the automatic temperature-controlled cooling system of a kind of CPCI or VPX framework blade server as claimed in claim 1, is characterized in that, the fan on axial flow radiator structure and centrifugal cooling mechanism fan dish is 4 line temperature-controlled fans of standard.

5. the automatic temperature-controlled cooling system of a kind of CPCI or VPX framework blade server as claimed in claim 1, it is characterized in that, axial flow radiator structure is communicated with server blade via communication backplane by RS-485 serial port protocol with the fan control board on centrifugal cooling mechanism fan dish, and server blade output terminal controls the fan on fan disk.