CN207783393U - A kind of distributed remote calling RPC halfpaces - Google Patents

Abstract

The utility model belongs to computer fittings technical field, more particularly to a kind of distributed remote calls RPC halfpaces.The utility model provides a kind of distributed remote calling RPC halfpaces with new construction, the distributed remote calls RPC halfpaces to radiate to shell by dedusting radiator, and flow into air clean after filtering in shell, prevent dust from being accumulated in shell；When use, first blast pipe is pumped indoor air into dedusting chamber by the first wind turbine, after the indoor filter device filtering of dedusting chamber, clean air is flowed into through the first discharge pipe in shell, second wind turbine pumps the air in shell into the indoor cooling fin of heat dissipation cavity through the second blast pipe, after the cold water pipe cooling in cooling fin, it is flowed by the second discharge pipe indoor, so move in circles, play the effect of cooling, it prevents dust to enter in shell, ensure that the fluency that halfpace uses.

Description

A kind of distributed remote calling RPC halfpaces

Technical field

The utility model belongs to computer fittings technical field, more particularly to a kind of distributed remote calls RPC halfpaces.

Background technology

RPC (Remote Procedure Call) --- remote procedure call, it be it is a kind of by network from remote computation Service is asked in machine program, the agreement without understanding underlying network technology.RPC uses Client/Server pattern, request Program is exactly a client computer, and service providing program is exactly a server, flat by centre between client computer and server Platform is asked to handle.

It can be all equipped in existing halfpace and be used for cooling fan, fan running inevitably results in air flowing, empty Dust in gas can be flowed into air in cabinet, since existing cabinet does not have dedusting function, be used for a long time Cabinet inside can all generate a large amount of dust stratifications, halfpace interim card is resulted even in when serious, needs artificial periodically to open cabinet Deashing is carried out, and since cabinet inside board stands in great numbers, artificial deashing intricate operation, and clear up also extremely difficult.

Utility model content

In order to solve the problems in the existing technology, the utility model provides a kind of new distributed remote calling RPC Halfpace, the distributed remote call RPC halfpaces to radiate to shell by dedusting radiator, and will be after filtering Clean air flows into shell, prevents dust from being accumulated in shell.

The utility model specific technical solution is as follows：

The utility model provides a kind of distributed remote calling RPC halfpaces, including including shell, the interior peace of the shell Equipped with circuit board and dedusting radiator；The dedusting radiator includes babinet, by partition board by the case in the babinet Body is divided into dedusting chamber and heat dissipation chamber, and the dedusting cavity bottom is equipped with the first blast pipe, and first blast pipe lower end is worn It crosses the housing bottom to extend outwardly, the first wind turbine is installed at first blast pipe, the dedusting chamber roof is equipped with the One discharge pipe, the dedusting chamber is interior to be equipped with filter device；The heat dissipation chamber roof be equipped with the second blast pipe, described second into Second wind turbine is installed, the heat dissipation cavity bottom is equipped with the second discharge pipe, and second discharge pipe lower end passes through institute at air hose It states housing bottom to extend outwardly, cold water pipe and the cooling fin outside the cold water pipe is equipped in the heat dissipation cavity room.

Further to improve, the cooling fin is made of more heat-dissipating pipes, passes through bend pipe between adjacent two heat-dissipating pipe Connection form helical structure, the air inlet of the cooling fin is connected to second blast pipe, the gas outlet of the cooling fin and The second discharge pipe connection.

Further to improve, the filter device includes being set to the indoor filter mesh layer of the dedusting chamber and quick lime layer.

It is further to improve, it is additionally provided with the first air quality at first discharge pipe in the dedusting chamber and passes Sensor and backwind tube set on the dedusting chamber roof, are equipped with the first solenoid valve on first discharge pipe, described time Air hose sequentially passes through the quick lime layer and the filter mesh layer is set to below the filter mesh layer and on first blast pipe Side, and second solenoid valve is installed on the backwind tube；First air quality sensor, first solenoid valve and described Second solenoid valve is electrically connected with the controller.

Further to improve, the partition board is equipped with the communicating pipe for being connected to the heat dissipation chamber and the dedusting chamber, institute It states and third wind turbine and third solenoid valve is installed on communicating pipe.

It is further to improve, the second air quality sensor, and the heat dissipation are installed at the gas outlet of the cooling fin The first branch pipe and the second branch pipe are connected with by pipe fitting at the gas outlet of piece, first branch pipe connects with second discharge pipe Logical, second branch pipe is connected to the communicating pipe, and the 4th solenoid valve, second air quality are equipped on the second discharge pipe Sensor, the third wind turbine, the third solenoid valve and the 4th solenoid valve are electrically connected with the controller.

It is further to improve, temperature sensor is installed in the shell, the temperature sensor, first wind turbine and Second wind turbine is electrically connected with the controller, and the controller is mounted on the circuit board.

The beneficial effects of the utility model are as follows：

The utility model provides a kind of distributed remote calling RPC halfpaces with new construction, the distributed remote It calls RPC halfpaces to radiate to shell by dedusting radiator, and air clean after filtering is flowed into shell, Prevent dust from being accumulated in shell；In use, the first blast pipe is pumped indoor air into dedusting chamber by the first wind turbine, After the indoor filter device filtering of dedusting chamber, clean air is flowed into through the first discharge pipe in shell, and the second wind turbine is by shell Interior air is pumped through the second blast pipe into the indoor cooling fin of heat dissipation cavity, after the cold water pipe cooling in cooling fin, by the Two discharge pipes flow into interior, so move in circles, play the effect of cooling, it is therefore prevented that dust enters in shell, in ensure that Between the fluency that uses of platform.

Description of the drawings

Fig. 1 is the sectional view that 1 distributed remote of embodiment calls RPC halfpaces；

Fig. 2 is the sectional view of 1 dedusting radiator of embodiment；

Fig. 3 is the sectional view of 2 dedusting radiator of embodiment；

Fig. 4 is the sectional view of 3 dedusting radiator of embodiment；

Fig. 5 is the sectional view of 4 dedusting radiator of embodiment；

Fig. 6 is the sectional view that 5 distributed remote of embodiment calls RPC halfpaces；

Fig. 7 is the structure diagram that the utility model distributed remote calls RPC halfpaces.

Specific implementation mode

The utility model is described in further detail with following embodiment below in conjunction with the accompanying drawings.

Embodiment 1

Shown in Fig. 1, Fig. 2, a kind of distributed remote calling RPC halfpaces provided by the utility model, including shell Body 1 is equipped with circuit board 2 and dedusting radiator 3 in the shell 1；The dedusting radiator 3 includes babinet 31, described The babinet 31 is divided for dedusting chamber 33 and heat dissipation chamber 34 by partition board 32 in babinet 31,33 bottom of dedusting chamber is set There are the first blast pipe 331,331 lower end of the first blast pipe to extend outwardly across 1 bottom of the shell, first blast pipe First wind turbine 332 is installed, 33 top of the dedusting chamber is equipped with the first discharge pipe 333, is set in the dedusting chamber 33 at 331 There is filter device 334；The top of the heat dissipation chamber 34 is equipped with the second blast pipe 341, and the is equipped at second blast pipe 341 Two wind turbines 342,34 bottom of heat dissipation chamber are equipped with the second discharge pipe 343, and 343 lower end of the second discharge pipe passes through the shell 1 bottom of body extends outwardly, and cold water pipe 344 and the cooling fin outside the cold water pipe 344 are equipped in the heat dissipation chamber 34 345.Size in the utility model attached drawing has carried out appropriate scaling.

The utility model provides a kind of distributed remote calling RPC halfpaces with new construction, the distributed remote It calls RPC halfpaces to radiate to shell by dedusting radiator, and air clean after filtering is flowed into shell, Prevent dust from being accumulated in shell；In use, the first blast pipe is pumped indoor air into dedusting chamber by the first wind turbine, After the indoor filter device filtering of dedusting chamber, clean air is flowed into through the first discharge pipe in shell, and the second wind turbine is by shell Interior air is pumped through the second blast pipe into the indoor cooling fin of heat dissipation cavity, after the cold water pipe cooling in cooling fin, by the Two discharge pipes flow into interior, so move in circles, play the effect of cooling, it is therefore prevented that dust enters in shell, in ensure that Between the fluency that uses of platform.

Embodiment 2

The distributed remote that the utility model embodiment 2 provides calls RPC halfpaces substantially the same manner as Example 1, no With, as shown in figure 3, cooling fin 345 described in the present embodiment is made of more heat-dissipating pipes 3451, adjacent two heat-dissipating pipe Helical structure is formed by the connection of bend pipe 3452 between 3451, the air inlet 3453 of the cooling fin 345 is entered the wind with described second Pipe 341 is connected to, and the gas outlet 3454 of the cooling fin 345 is connected to second discharge pipe 343.

Hot-air in the utility model middle casing enters through the second blast pipe in the cooling fin of helical structure, through cooling fin Interior cold water pipe cooling, can effectively cool down hot-air.

Embodiment 3

The distributed remote that the utility model embodiment 3 provides calls RPC halfpaces substantially the same manner as Example 1, no With as shown in Fig. 4, Fig. 7, filter device 334 described in the present embodiment includes the strainer being set in the dedusting chamber 33 Layer 3341 and quick lime layer 3342.

The first air quality being additionally provided in dedusting chamber described in the present embodiment 33 at first discharge pipe 333 Sensor 3343 and backwind tube 3344 set on the top of the dedusting chamber 33 are equipped with the on first discharge pipe 333 One solenoid valve 3345, the backwind tube 3344 sequentially passes through the quick lime layer 3342 and the filter mesh layer 3341 is set to the filter Below stratum reticulare 3341 and set on first blast pipe, 331 top, and second solenoid valve is installed on the backwind tube 3344 3346；First air quality sensor 3343, first solenoid valve 3345 and the second solenoid valve 3346 with control Device 5 processed is electrically connected.The first solenoid valve and second solenoid valve are all made of SY300500 series three-way magnetic valves in the utility model； First air quality sensor uses TGS2600 air quality sensors.

Outside air is after the first blast pipe enters dedusting chamber in the utility model, and the is entered after filter device filters One discharge pipe, when the first air quality sensor at the first discharge pipe detects that threshold value is not achieved in air quality, by signal Via controller passes to the first solenoid valve and second solenoid valve, and the first solenoid valve is closed, and second solenoid valve is opened, and air is through return air Below pipe to filter mesh layer, enter the first discharge pipe after filtering again, until when air quality reaches threshold value, the first air quality passes Signal via controller is reached the first solenoid valve and second solenoid valve by sensor, and the first solenoid valve is opened, and second solenoid valve is closed, mistake Clean air is flowed into through the first discharge pipe in shell after filter, it is therefore prevented that dust enters in cabinet.

Embodiment 4

The distributed remote that the utility model embodiment 4 provides calls RPC halfpaces substantially the same manner as Example 1, no With as shown in Figure 5, Figure 7, partition board 32 described in the present embodiment, which is equipped with, is connected to the heat dissipation chamber 34 and the dedusting chamber The communicating pipe 321 of room 33 third wind turbine 322 and third solenoid valve 323 are installed on the communicating pipe 321.

Second air quality sensor 3457 is installed at the gas outlet 3454 of cooling fin 345 described in the present embodiment, and First branch pipe 3455 and the second branch pipe 3456, institute are connected with by pipe fitting 3458 at the gas outlet 3454 of the cooling fin 345 The first branch pipe 3455 to be stated to be connected to second discharge pipe 343, second branch pipe 3456 is connected to the communicating pipe 321, the 4th solenoid valve 346 is installed on two discharge pipes 343, second air quality sensor 3457, the third wind turbine 322, The third solenoid valve 323 and the 4th solenoid valve 346 are electrically connected with the controller 5.Third wind in the utility model Machine uses STF5015 small sized turbine wind turbines；Third solenoid valve and the 4th solenoid valve are all made of SY300500 series threeway electromagnetism Valve；Second air quality sensor uses TGS2600 air quality sensors.

Hot-air gas outlet outflow through cooling fin after the cold water pipe cooling in cooling fin in the utility model shell, When the second air quality sensor detects that threshold value is not achieved in the air quality at gas outlet, signal via controller is transmitted to Three solenoid valves, the 4th solenoid valve and third wind turbine, the 4th solenoid valve are closed, and third solenoid valve is opened, while third wind turbine starts Work, the air at gas outlet is pumped into dedusting chamber, is entered in shell after filter device filters, is avoided with impurity Air enter interior, and the air circulation in shell can be made to use.

Embodiment 5

The distributed remote that the utility model embodiment 5 provides calls RPC halfpaces substantially the same manner as Example 1, no With, as shown in Figure 6, Figure 7, temperature sensor 4 is installed in shell 1 described in the present embodiment, the temperature sensor 4, First wind turbine 332 and second wind turbine 342 are electrically connected with the controller 5, and the controller 5 is mounted on the electricity On road plate 2.Controller is conventional controller in the utility model, can select model siemens PLC series CPU224XP controllers；Temperature sensor uses LM-PT100 temperature sensors；First wind turbine and the second wind turbine are all made of STF5015 small sized turbine wind turbines.

In the utility model when temperature sensor detects that the temperature in shell reaches max-thresholds, by signal through control Device passes to the first wind turbine and the second wind turbine, and the first wind turbine and the second wind turbine start, to starting to cool down in shell, until temperature passes When sensor detects that the temperature in shell reaches minimum threshold, the first wind turbine and the second wind turbine are stopped.

The utility model is not limited to above-mentioned preferred forms, anyone can obtain under the enlightenment of the utility model Other various forms of products, however, make any variation in its shape or structure, it is every that there is same as the present application or phase Approximate technical solution, all falls within the scope of protection of the utility model.

Claims (7)

1. a kind of distributed remote calls RPC halfpaces, which is characterized in that including shell (1), installation in the shell (1) There are circuit board (2) and dedusting radiator (3)；The dedusting radiator (3) includes babinet (31), is led in the babinet (31) It crosses partition board (32) and the babinet (31) is divided into dedusting chamber (33) and heat dissipation chamber (34), dedusting chamber (33) bottom is set There are the first blast pipe (331), the first blast pipe (331) lower end to extend outwardly across the shell (1) bottom, described first First wind turbine (332) is installed at blast pipe (331), the first discharge pipe (333) is equipped at the top of the dedusting chamber (33), it is described Filter device (334) is equipped in dedusting chamber (33)；The second blast pipe (341) is equipped at the top of the heat dissipation chamber (34), it is described Second wind turbine (342) is installed at the second blast pipe (341), heat dissipation chamber (34) bottom is equipped with the second discharge pipe (343), Second discharge pipe (343) lower end extends outwardly across the shell (1) bottom, and cold water is equipped in the heat dissipation chamber (34) It manages (344) and is set to the cooling fin (345) of the cold water pipe (344) outside.

2. distributed remote as described in claim 1 calls RPC halfpaces, which is characterized in that the cooling fin (345) by More heat-dissipating pipes (3451) form, and spiral knot is formed by bend pipe (3452) connection between adjacent two heat-dissipating pipe (3451) Structure, the air inlet (3453) of the cooling fin (345) are connected to second blast pipe (341), and cooling fin (345) go out Gas port (3454) is connected to second discharge pipe (343).

3. distributed remote as claimed in claim 2 calls RPC halfpaces, which is characterized in that the filter device (334) Including the filter mesh layer (3341) being set in the dedusting chamber (33) and quick lime layer (3342).

4. distributed remote as claimed in claim 3 calls RPC halfpaces, which is characterized in that the dedusting chamber (33) The first air quality sensor (3343) for being inside additionally provided at first discharge pipe (333) and it is set to the dedusting chamber Backwind tube (3344) at the top of room (33) is equipped with the first solenoid valve (3345), the return air on first discharge pipe (333) Pipe (3344) sequentially passes through the quick lime layer (3342) and the filter mesh layer (3341) is set to below the filter mesh layer (3341) And above first blast pipe (331), and second solenoid valve (3346) is installed on the backwind tube (3344)；It is described First air quality sensor (3343), first solenoid valve (3345) and the second solenoid valve (3346) are and controller (5) it is electrically connected.

5. distributed remote as claimed in claim 4 calls RPC halfpaces, which is characterized in that set on the partition board (32) There is the communicating pipe (321) for being connected to heat dissipation chamber (34) and the dedusting chamber (33), is equipped on the communicating pipe (321) Third wind turbine (322) and third solenoid valve (323).

6. distributed remote as claimed in claim 5 calls RPC halfpaces, which is characterized in that the cooling fin (345) Second air quality sensor (3457), and the gas outlet (3454) of the cooling fin (345) are installed at gas outlet (3454) Place is connected with the first branch pipe (3455) and the second branch pipe (3456), first branch pipe (3455) and institute by pipe fitting (3458) The second discharge pipe (343) connection is stated, second branch pipe (3456) is connected to the communicating pipe (321), the second discharge pipe (343) On the 4th solenoid valve (346), second air quality sensor (3457), the third wind turbine (322), described are installed Three solenoid valves (323) and the 4th solenoid valve (346) are electrically connected with the controller (5).

7. distributed remote as claimed in claim 4 calls RPC halfpaces, which is characterized in that installation in the shell (1) There is a temperature sensor (4), the temperature sensor (4), first wind turbine (332) and second wind turbine (342) are and institute Controller (5) electrical connection is stated, the controller (5) is mounted on the circuit board (2).