CN205402988U - New air -cooled and direct -cooled cooling system for X -ray machine - Google Patents
New air -cooled and direct -cooled cooling system for X -ray machine Download PDFInfo
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- CN205402988U CN205402988U CN201620188457.4U CN201620188457U CN205402988U CN 205402988 U CN205402988 U CN 205402988U CN 201620188457 U CN201620188457 U CN 201620188457U CN 205402988 U CN205402988 U CN 205402988U
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Abstract
The utility model relates to a new air -cooled and direct -cooled cooling system for X -ray machine, includes: first casing, its inside is equipped with the second casing, is equipped with the X -ray machine in the second casing, and the bottom is equipped with the air exit, and the top is equipped with the supply -air outlet, first casing is equipped with the return air inlet, first pipeline, its one end is connected the supply -air outlet, the other end is the new trend entry, the one side that is close to the new trend entry in first pipeline is equipped with the new trend blast gate, refrigerant cooling system, it includes cold media circulation pipeline, refrigerant valve and cold coil pipe, the second pipeline, the return air inlet is connected to its one end, and the other end is the air exit, the one side that is close to the air exit in the second pipeline is equipped with the blast gate of airing exhaust, the third pipeline, the first pipeline of its one end intercommunication, other end intercommunication second pipeline, be equipped with muddy wind blast gate in the third pipeline. The present case is through the improvement to current cooling system structure, makes the use volume cold naturally that it can furthest, under the prerequisite of costneutrality and complexity, is showing and is reducing the quick -witted energy input of cooling X -ray.
Description
Technical field
This utility model relates to a kind of cooling system, particularly to a kind of new air-cooled and direct-cooled cooling system being applied to X-ray machine.
Background technology
In X-ray tube produce the used energy of X ray close to 100% be all converted to heat.Existing X-ray tube cooling system is generally by liquid cooling medium, such as wet goods, passes between the support housing of X-ray tube and X-ray tube, absorbs these heats.Heated liquid cooling medium is transported in the air cooler outside X-ray tube by cooling medium pump and pipeline, is transmitted back in the support housing of X-ray tube after air cooling again.
X-ray tube cooling system is generally fixed on X-ray machine support together with X-ray tube, and rotates around axis of rotation.The air cooler of X-ray tube cooling system, draw in cold air from the space between X-ray machine shell and X-ray machine support, and hot-air is also entered this space, the hot-air in this space is discharged by the exhaust blower of bottom.These hot-airs, it is possible to be directly discharged into indoor, then pass through return fan and suck return air duct, it is possible to enter return air duct by the pipeline being joined directly together with return air duct.Pass into the cooling air of X-ray machine, because directly to contact various precision equipment, it requires possess higher cleannes.The wind discharged generally also comparatively cleans, and is directly reintroduced back to air supply duct so suitable, feeds X-ray machine again, so recycle after sub-cooling coil cools down, and can avoid pollution and the filtration problem of cooling air.
But when outside air temperature is relatively low, time lower than return air temperature, can directly by after outdoor wind filtration treatment to acceptable clean level, suction draft pipeline.But often due to haze problem, outside air dustiness is high.In order to overcome new wind to have the problem of pollution, wanting again to utilize new wind effectively to cool down return air, reach energy-conservation purpose, this case have employed brand-new design structure to maximally utilise natural cold quantity.
Utility model content
For the deficiency that prior art exists, this case provides a kind of new air-cooled and direct-cooled cooling system being applied to X-ray machine, and it has maximally utilised new air-cooled amount under not increasing the premise of cost and complexity, significantly reduces the energy input of cooling X-ray machine.
For achieving the above object, this case is achieved through the following technical solutions:
A kind of new air-cooled and direct-cooled cooling system being applied to X-ray machine, comprising:
First housing, is internally provided with the second housing, is the first cavity between described first housing and the second housing, it is provided with X-ray machine in described second housing, being the second cavity between second housing and X-ray machine, described second housing bottom is provided with exhaust outlet, and top is provided with air outlet;Described first housing is provided with return air inlet;
First pipeline, its one end connects described air outlet, and the other end is new wind entrance, and it connects with outdoor air;Described first pipeline is provided with at least one Fans;In described first pipeline, the side near described new wind entrance is provided with new wind air-valve;
Coolant cooling system, it includes medium circulation pipeline, coolant valve and cooling coil, and wherein said cooling coil is positioned at described first pipeline;
Second pipeline, its one end connects described return air inlet, and the other end is exhaust outlet;Described second pipeline is provided with at least one Fans;In described second pipeline, the side near described exhaust outlet is provided with air draft air-valve;
3rd pipeline, its one end connects described first pipeline, and the other end connects described second pipeline;Described 3rd pipeline is provided with mixed wind air-valve.
Preferably, the described new air-cooled and direct-cooled cooling system being applied to X-ray machine, wherein, between new wind air-valve and the new wind entrance in described first pipeline, it is provided with the first filter.
Preferably, the described new air-cooled and direct-cooled cooling system being applied to X-ray machine, wherein, between new wind air-valve and the new wind entrance in described first pipeline, it is provided with the first temperature sensor.
Preferably, the described new air-cooled and direct-cooled cooling system being applied to X-ray machine, wherein, in described first pipeline, the side near described air outlet is provided with the second temperature sensor.
Preferably, the described new air-cooled and direct-cooled cooling system being applied to X-ray machine, wherein, in described first pipeline, the side near described air outlet is provided with the second filter.
Preferably, the described new air-cooled and direct-cooled cooling system being applied to X-ray machine, wherein, in described second pipeline, the side near described return air inlet is provided with three-temperature sensor.
The beneficial effects of the utility model are: this case is by the improvement to existing cooling system structure, this new air-cooled and direct-cooled cooling system is made to have possessed the ability that can select multiple-working mode according to indoor and outdoor temperature, such as full return air operational mode and all-fresh air operational mode, it is thus possible to use natural cold quantity to greatest extent, under not increasing the premise of cost and complexity, significantly reduce the energy input of cooling X-ray machine.
Accompanying drawing explanation
Fig. 1 is the structural representation of the new air-cooled and direct-cooled cooling system being applied to X-ray machine.
Detailed description of the invention
Below in conjunction with accompanying drawing, this utility model is described in further detail, to make those skilled in the art can implement according to this with reference to description word.
As it is shown in figure 1, the new air-cooled and direct-cooled cooling system being applied to X-ray machine of an embodiment is listed in this case, comprising:
First housing 1, is internally provided with the second housing 2, is the first cavity 3 between the first housing 1 and the second housing 2, it is provided with X-ray machine 4 in second housing 2, being the second cavity 5 between second housing 2 and X-ray machine 4, be provided with exhaust outlet 6 bottom the second housing 2, top is provided with air outlet 7;First housing 1 is provided with return air inlet 8;
First pipeline 9, its one end connects air outlet 7, and the other end is new wind entrance 10, and it connects with outdoor air;First pipeline 9 is provided with at least one Fans 11;In the first pipeline 9, the side near new wind entrance 10 is provided with new wind air-valve 12;
Coolant cooling system 13, it includes medium circulation pipeline 14, coolant valve 15 and cooling coil 16, and wherein cooling coil 16 is positioned at the first pipeline 9;
Second pipeline 17, its one end connects back to air port 8, and the other end is exhaust outlet 18;Second pipeline 17 is provided with at least one Fans 11;In the second pipeline 17, the side near exhaust outlet 18 is provided with air draft air-valve 19;
3rd pipeline 20, its one end connects the first pipeline 9, and the other end connects the second pipeline 17;3rd pipeline 20 is provided with mixed wind air-valve 21.
As another embodiment of this case, wherein, the new wind air-valve 12 in the first pipeline 9 and be provided with the first filter 22 between new wind entrance 10.
As the another embodiment of this case, wherein, the new wind air-valve 12 in the first pipeline 9 and be provided with the first temperature sensor 23 between new wind entrance 10.
As the another embodiment of this case, wherein, in the first pipeline 9, the side of close air outlet 7 is provided with the second temperature sensor 24.
As the another embodiment of this case, wherein, in the first pipeline 9, the side of close air outlet 7 is provided with the second filter 25.
As the another embodiment of this case, wherein, in the second pipeline 17, the side of close return air inlet 8 is provided with three-temperature sensor 26.
When the new air temperature that the return air temperature that three-temperature sensor 26 records records lower than the first temperature sensor 23, new wind air-valve 12 and air draft air-valve 19 are closed, and mixed wind air-valve 21 is opened.Return air in second pipeline 17 is directly sucked by blower fan 11 and enters in the first pipeline 9 through the 3rd pipeline 20, and is sent in the second cavity 5 by the blower fan 11 in the first pipeline 9;It it is now full return air operational mode.
When the new air temperature that the return air temperature that three-temperature sensor 26 records records higher than the first temperature sensor 23, new wind air-valve 12 and air draft air-valve 19 standard-sized sheet, mixed wind air-valve 21 cuts out.All return air in second pipeline 17 are directly discharged to outdoor, and new wind is then sucked in the first pipeline 9 from new wind entrance 10 by blower fan 11;It it is now all-fresh air operational mode.
In two kinds of operational modes, the coolant valve 15 equal regulable control cold medium flux by cooling coil 16, maintain wind pushing temperature in the wind pushing temperature setting value specified.Additionally, as long as X-ray machine and this cooling system run, the blower fan 11 in the first pipeline 9 and the second pipeline 17 is just constantly in running status.
Although embodiment of the present utility model is disclosed as above, but listed utilization that it is not restricted in description and embodiment, it can be applied to various applicable field of the present utility model completely, for those skilled in the art, it is easily achieved other amendment, therefore, under the general concept limited without departing substantially from claim and equivalency range, this utility model is not limited to specific details and shown here as the legend with description.
Claims (6)
1. the new air-cooled and direct-cooled cooling system being applied to X-ray machine, it is characterised in that including:
First housing, is internally provided with the second housing, is the first cavity between described first housing and the second housing, it is provided with X-ray machine in described second housing, being the second cavity between second housing and X-ray machine, described second housing bottom is provided with exhaust outlet, and top is provided with air outlet;Described first housing is provided with return air inlet;
First pipeline, its one end connects described air outlet, and the other end is new wind entrance, and it connects with outdoor air;Described first pipeline is provided with at least one Fans;In described first pipeline, the side near described new wind entrance is provided with new wind air-valve;
Coolant cooling system, it includes medium circulation pipeline, coolant valve and cooling coil, and wherein said cooling coil is positioned at described first pipeline;
Second pipeline, its one end connects described return air inlet, and the other end is exhaust outlet;Described second pipeline is provided with at least one Fans;In described second pipeline, the side near described exhaust outlet is provided with air draft air-valve;
3rd pipeline, its one end connects described first pipeline, and the other end connects described second pipeline;Described 3rd pipeline is provided with mixed wind air-valve.
2. it is applied to the new air-cooled and direct-cooled cooling system of X-ray machine as claimed in claim 1, it is characterised in that between new wind air-valve and the new wind entrance in described first pipeline, be provided with the first filter.
3. it is applied to the new air-cooled and direct-cooled cooling system of X-ray machine as claimed in claim 1, it is characterised in that between new wind air-valve and the new wind entrance in described first pipeline, be provided with the first temperature sensor.
4. it is applied to the new air-cooled and direct-cooled cooling system of X-ray machine as claimed in claim 1, it is characterised in that the side near described air outlet is provided with the second temperature sensor in described first pipeline.
5. it is applied to the new air-cooled and direct-cooled cooling system of X-ray machine as claimed in claim 1, it is characterised in that the side near described air outlet is provided with the second filter in described first pipeline.
6. it is applied to the new air-cooled and direct-cooled cooling system of X-ray machine as claimed in claim 1, it is characterised in that the side near described return air inlet is provided with three-temperature sensor in described second pipeline.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620188457.4U CN205402988U (en) | 2016-03-11 | 2016-03-11 | New air -cooled and direct -cooled cooling system for X -ray machine |
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CN201620188457.4U CN205402988U (en) | 2016-03-11 | 2016-03-11 | New air -cooled and direct -cooled cooling system for X -ray machine |
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CN201620188457.4U Expired - Fee Related CN205402988U (en) | 2016-03-11 | 2016-03-11 | New air -cooled and direct -cooled cooling system for X -ray machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105757833A (en) * | 2016-03-11 | 2016-07-13 | 苏州明威医疗科技有限公司 | Fresh air direct-cooling air conditioning system of X ray machine |
-
2016
- 2016-03-11 CN CN201620188457.4U patent/CN205402988U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105757833A (en) * | 2016-03-11 | 2016-07-13 | 苏州明威医疗科技有限公司 | Fresh air direct-cooling air conditioning system of X ray machine |
CN105757833B (en) * | 2016-03-11 | 2019-04-09 | 苏州明威医疗科技有限公司 | X-ray machine fresh air direct-cooling air conditioning system |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160727 |