CN204712857U - Cooling liquid container - Google Patents

Abstract

The utility model provides a kind of cooling liquid container, comprises upper and lower casing and container cover, and upper shell and lower house are fixed, and the inner space of the two is connected; Upper shell is formed with fluid injection portion and the inlet portion of hollow, and all from the outside projection of upper shell out, and be communicated with the inner space of upper shell, container cover is removably fixed on fluid injection portion, and is closed at least in part on the top in fluid injection portion; Lower house comprises the export department of spacer body and hollow, spacer body comprises dividing plate, the subregion of the part edge of dividing plate and the inwall of lower house seamlessly links into an integrated entity or is originally structure as a whole, and the inner space of lower house is separated into the chamber of multiple direct or indirect connection by dividing plate; From the outside projection of lower house out, one in multiple chamber by export department and ft connection in export department.This structure contributes to the slow down flow velocity of refrigerant fluid and the pressure of reduction refrigerant fluid, contributes to discharging the gas in refrigerant fluid fully, improve coolant circulation system work efficiency during use.

Description

Cooling liquid container

Technical field

The utility model relates to automotive field, particularly relates to a kind of cooling liquid container.

Background technology

Usually cooling liquid container is provided with in the coolant circulation system of automobile, generally be commonly called as expansion tank (it should be noted that, although be called as kettle, but the refrigerant fluid wherein held is not limited to water, also can be various mixed solution, such as ethylene glycol solution etc., it has antifreeze function simultaneously, can not freeze in below zero).This cooling liquid container can be used for adding inject cooling liquid to automobile; and certain protective effect can also be provided when coolant circulation system works; when cooling fluid pressure such as in the pipeline of circulating system is excessive; part refrigerant fluid can be imported in this container and store; or discharge from this container further, to reduce the flow of refrigerant fluid in the pipeline of circulating system.

Existing cooling liquid container also exists following problem mostly: the internal diameter of cooling liquid container is much bigger relative to other parts of the pipeline of coolant circulation system, often can accumulate a large amount of refrigerant fluids; In vehicle traveling process, in container, the refrigerant fluid of accumulation may produce bubble because of jolting, if these bubbles enter the pipeline of coolant circulation system, cooling effectiveness will be reduced, negative effect is caused to driving engine, but also the cavitation phenomenon of the water pump in coolant circulation system can be caused, reduce the service life of water pump.In addition, existing cooling liquid container is generally be connected in parallel in the pipeline of coolant circulation system when mounted, connection structure more complicated, therefore container needs to offer a fairly large number of communication port, cause its external structure comparatively complicated, even reduce its overall construction intensity, increase its manufacturing cost.

Therefore, be necessary to improve existing technology, to solve above technical matters.

Utility model content

The purpose of this utility model is to provide a kind of bubble that can effectively prevent to enter the pipeline of coolant circulation system, and structural strength is higher, the cooling liquid container that manufacturing cost is lower.

For achieving the above object, the utility model adopts following technical scheme:

A kind of cooling liquid container, described cooling liquid container comprises upper shell, lower house and container cover, and described upper shell and lower house are fixed together, and the inner space of the inner space of described upper shell and described lower house is interconnected; Described upper shell is formed with the fluid injection portion of hollow and the inlet portion of hollow, described fluid injection portion and described inlet portion are all from the outside projection of described upper shell out, and be all communicated with the inner space of described upper shell, described container cover is removably fixed in described fluid injection portion, and is closed at least in part on the top in described fluid injection portion; Described lower house comprises the export department of spacer body and hollow, described spacer body comprises dividing plate, the subregion of the part edge of described dividing plate and the inwall of described lower house seamlessly links into an integrated entity or is originally structure as a whole, and makes described dividing plate the inner space of described lower house is separated into multiple chamber be directly or indirectly communicated with each other; From the outside projection of described lower house out, one in described multiple chamber by described export department and ft connection in described export department.

Described upper shell also comprises baffle plate, and described baffle plate is formed on the inwall of described upper shell, and its shape is semi-cylindrical shape, and its one end is axially connected with the internal partial wall of described upper shell or is connected; The opening that the recessed one side of described baffle plate is just being formed on the inwall of described upper shell described inlet portion, two sides of described baffle plate are all connected with the internal partial wall of described upper shell or are connected, and lay respectively at the both sides of described opening; All parts of described opening all aim at the recessed one side of described baffle plate; The other end axially of described baffle plate extends towards described lower house, and aims at another in described multiple chamber.

Described spacer body comprises the first dividing plate and second partition, described first dividing plate and second partition arranged in a crossed manner, the inner space of described lower house is separated into the first chamber, the second chamber, the 3rd chamber and the 4th chamber; Described first chamber is directly communicated with described second chamber, and described second chamber is directly communicated with described 3rd chamber, and described 3rd chamber is directly communicated with described 4th chamber; Described baffle plate axially aim at described first chamber towards one end that described lower house extends, described 4th chamber is by described export department and ft connection.

Described upper shell also comprises four extension boards, described extension board sets out from the inwall epirelief of described upper shell, in described four extension boards, the edge of two extension boards is connected with described first dividing plate by hot plate welding mode, and forms the gap that flow area is 15-30 sq cm between described two extension boards be connected with described first dividing plate; The edge of two other extension board is connected with described second partition by hot plate welding mode, and forms the gap that flow area is 15-30 sq cm between described two extension boards be connected with described second partition.

Described cooling liquid container communicates with the external world by means of only described inlet portion, described export department and described fluid injection portion; The internal diameter of described inlet portion is 8-20 millimeter, and the internal diameter of described inlet portion is 1-1.5 times of the internal diameter of described export department.

Described cooling liquid container communicates with the external world by means of only described inlet portion, described export department and described fluid injection portion; The internal diameter of described inlet portion is 8-20 millimeter, and the internal diameter of described inlet portion is 1-1.5 times of the internal diameter of described export department; Described spacer body offers the through hole be directly communicated with described 4th chamber with described 3rd chamber and described 3rd chamber with described second chamber, described second chamber by described first chamber, the flow area of described through hole is 0.8-5 sq cm.

The outer surface of described lower house is formed with location division and the fixed block of protrusion, described location division offering the through knock hole described cooling liquid container positioned for matching with other fluid injection parts, described fixed block offering the positioning groove to the depression that described cooling liquid container positions for matching with other fluid injection parts.

Described container cover comprises lid and diversion division, described lid to be removably mounted in described fluid injection portion and to be closed at least in part on the top in described fluid injection portion, and described lid offers multiple exhaust duct be in communication with the outside the inner space in described fluid injection portion; Described diversion division is roughly cylindrical, its one end is connected on described lid, described diversion division offers flow-guiding channel, and described flow-guiding channel one end open is in the other end of described diversion division, and the other end of described flow-guiding channel is opened on the side of described diversion division.

Described upper shell and lower house are that plastic material is formed through injection molding, both are fixed together by welding, described upper shell is the structure of lower open, described lower house is the structure of opened upper end, mutually aim between described upper shell and the opened portion of lower house, the inner space of the inner space of described upper shell and lower house is made mutually to aim at and be interconnected, the chamber at the export department place of described lower house is not directly communicated with between the inlet portion of described upper shell, but is interconnected by other chambers of described lower house; Or be not in the structural relation of aiming at up and down between the inlet portion of described upper shell and the chamber at the export department place of described lower house, but with the export department of lower house beyond other chamber rough alignment and can directly circulate.

The inner structure of cooling liquid container that the utility model discloses contributes to improving refrigerant fluid flow condition wherein and reduces refrigerant fluid to the pressure of container, contribute in use discharging the gas in refrigerant fluid, be conducive to the work efficiency improving coolant circulation system, extend the service life of system.Simultaneously, this container only needs to arrange an entrance and is connected with the pipeline of coolant circulation system with an outlet, and existing most of cooling liquid container needs to arrange three even more openings and is connected with the pipeline of coolant circulation system, therefore the structural rate prior art of this container is more simple, is conducive to saving manufacturing cost and man-hour.

Accompanying drawing explanation

Fig. 1 is the outside schematic diagram of the cooling liquid container that an embodiment of the present utility model provides.

Fig. 2 is the decomposing schematic representation of the cooling liquid container shown in Fig. 1.

Fig. 3 is the decomposing schematic representation under another visual angle of the cooling liquid container shown in Fig. 1.

Fig. 4 is the cross-sectional schematic of the cooling liquid container shown in Fig. 1.

Fig. 5 is the cross-sectional schematic under another visual angle of the cooling liquid container shown in Fig. 1.

Detailed description of the invention

Refer to Fig. 1 to Fig. 5, an embodiment of the present utility model provides a kind of cooling liquid container 100, it is applicable in the coolant circulation system of automobile such as electronlmobil, for adding inject cooling liquid and regulating the flow of refrigerant fluid in its circulation line, wherein said refrigerant fluid may be used for cooling to parts such as the driving engines of automobile, or the medium for carrying out cooling or heating as the motor of electronlmobil and battery.This cooling liquid container 100 comprises upper shell 10, lower house 20 and container cover 30, this upper shell 10, lower house 20 and container cover 30 all can adopt plastic material to make, upper shell 10 and lower house 20 are welded together to form the main body of container 100 by hot plate welding mode, container cover 30 is removably mounted on upper shell 10 top.

Upper shell 10 comprises a roof (non-label) and four sidewalls (non-label), these roofs and sidewall are all roughly rectangular plate-like, four sidewalls are connected mutual vertically with the bottom surface of roof or are connected, thus surround with roof and be roughly oblong and the housing of bottom-open.The roof of upper shell 10 is convexly equipped with columnar fluid injection portion 19, the inner space of upper shell 10 is in communication with the outside by this fluid injection portion 19, and at least part of outside face in fluid injection portion 19 is provided with screw thread (non-label).A sidewall of upper shell 10 is convexly equipped with columnar inlet portion 11, and this inlet portion 11 is communicated with the inner space of upper shell 10, thus forms opening 110 in the inside of upper shell 10.The internal diameter of inlet portion 11 is preferably 8-20mm.Baffle plate 12 is provided with, position this opening 110 contiguous of this baffle plate 12 in upper shell 10 inside; Particularly, the shape of this baffle plate 12 is semi-cylindrical shape, and it is axially vertical with the roof of upper shell 10, parallel with four sidewalls of upper shell 10; This baffle plate 12 one end is axially connected with the lower surface of the roof of upper shell 10 or is connected, its protrude one facing to the inside of upper shell 10, its recessed one side is just to opening 110; Two sides of this baffle plate 12 are all connected with the inwall being convexly equipped with the sidewall of inlet portion 11 of upper shell 10 or are connected, and lay respectively at the both sides of opening 110.Any one sidewall that the axial length of this baffle plate 12 is not more than upper shell 10 is perpendicular to the length on the direction of roof, but the axial length of baffle plate 12 should make the end of baffle plate 12 fully pass over opening 110, that is, make the end of baffle plate 12 more farther than the roof of nadir (i.e. the most away from the point of the roof of upper shell 10 on the edge of opening 110) the distance upper shell 10 at the edge of opening 110.All parts of opening 110 are so just made all to aim at the recessed one side of baffle plate 12.

Also be provided with four extension boards 131 (respectively illustrating three in Fig. 3 and Fig. 4) in the inside of upper shell 10, these four extension boards 131 are connected with the inwall of upper shell 10 or are connected.Particularly, an extension board 131 vertically or is generally perpendicularly convexly equipped with in the middle part of the inwall of each sidewall of upper shell 10, and two in described four extension boards 131 to be parallel to each other with two in described four sidewalls or almost parallel, two other in two other and described four sidewalls in described four extension boards 131 is parallel to each other or almost parallel.For any two relative (be namely parallel to each other or almost parallel) sidewalls, on these two sidewalls, the edge of the extension board 131 of projection mutually aims at or rough alignment, that is, on these two sidewalls, the extension board 131 of projection is positioned at or is generally positioned at same plane; In addition, on these two sidewalls the extension board 131 of projection side margins (" side margins " here refers to the edge of extension board 131 towards upper shell 10 center of inside position) between separated by a distance, make in described four extension boards 131, gap 132a is formed between the side margins of the extension board 131 that two side margins are aimed at mutually, gap 132b is formed, specifically as shown in Figure 4 between the side margins of the extension board 131 that two other side margins is aimed at mutually.In the use of this container 100, refrigerant fluid can flow through from 132a and 132b of this gap.Preferably, in the present embodiment, the flow area of this gap 132a and 132b is all set to 15-30 sq cm.

Lower house 20 comprises a diapire (non-label) and four sidewalls (non-label), and wherein the size of the size of diapire and the roof of upper shell 10 is generally mutually corresponding.Diapire and the sidewall of lower house 20 are all roughly rectangular plate-like, and four sidewalls are connected mutual vertically with the bottom surface of diapire or are connected, thus with diapire surround be roughly oblong and top open wide housing.The top opened wide of lower house 20 is aimed at mutually with the bottom opened wide of upper shell 10, makes the inner space of the inner space of upper shell 10 and lower house 20 mutually aim at and be interconnected.This lower house 20 also comprises spacer body, this spacer body comprises the first dividing plate 221 and second partition 222 that arrange in square crossing, the sidewall that this first dividing plate 221 is relative with two of lower house 20 is parallel and spacing is roughly equal, and this second partition 222 is parallel with two other relative sidewall of lower house 20 and spacing is roughly equal.In addition, this first dividing plate 221 and second partition 222 are except their top (namely towards the open-topped edge of lower house 20), the edge of other parts is all seamlessly connected with the subregion of the inwall of lower house 20, or be connected, or be always integrative-structure.Like this, the inner space of lower house is just separated into the roughly equal chamber of four volumes by spacer body, and the bottom of each chamber is a part for described diapire respectively.For convenience of description, below these four chambers are called the first chamber 201, second chamber 202, the 3rd chamber 203, the 4th chamber 204.As shown in Figure 4, the part between the second chamber 202 and the 3rd chamber 203 of the first dividing plate 221 offers through hole 224, the second chamber 202 is directly communicated with mutually with the 3rd chamber 203; The part of second partition 222 between the first chamber 201 and the second chamber 202 offers through hole 225, the first chamber 201 is directly communicated with mutually with the second chamber 202; The part between the 3rd chamber 203 and the 4th chamber 204 of second partition 222 offers through hole 226, the 3rd chamber 203 is directly communicated with mutually with the 4th chamber 204.Preferably, the flow area of through hole 224,225 and 226 is in the scope of 0.8-5 sq cm.Obviously, in this first to fourth chamber, any two chambers are directly be communicated with or indirect communication each other.The bottom of described baffle plate 12 (namely the other end) axially extends towards the direction at described lower house 20 place, and aims at described first chamber 201.

The position male that the bottom wall outer of lower house 20 corresponds to above-mentioned 4th chamber 204 is provided with columnar export department 21, and the 4th chamber 204 is in communication with the outside by this export department 21.Preferably, the internal diameter of inlet portion 11 should be the 1-1.5 of the internal diameter of export department 21 doubly.In addition, lower house 20 can also comprise at least one (present embodiment shown in the drawings of two) location division 29, these two location divisions 29 are separately positioned on the outside face of the relative sidewall of two of lower house 20, protrude from the outside face of these two opposing sidewalls.Through knock hole 291 can be offered in each location division 29, and this knock hole 291 can be used for matching with other fixed partss (such as inserting for bolt or rivet) and positioning container 100.Lower house 20 can also comprise at least one fixed block 28, and this fixed block 28 is convexly equipped in the bottom of the diapire of lower house 20.The surface of this fixed block 28 can be offered the positioning groove 281 of depression, this positioning groove 281 can match with other fixed partss (such as inserting for the sheet metal component in automobile) and position container 100.Like this, container 100 can by above-mentioned location division 29 and the mounted preposition in the car of fixed block 28.These location divisions 29 and fixed block 28 are all arranged on lower house 20, can support container 100 from below, depart under preventing the Action of Gravity Field of lower house 20 refrigerant fluid wherein with upper shell 10.

Container cover 30 comprises lid 31 and diversion division 32.Lid 31 is roughly the cylindrical of one end open, and comprise and be roughly columnar assembled portion 312 and be roughly circular top cover 311, top cover 311 is formed in assembled portion 312 one end, is closed one end of assembled portion 312.The internal diameter of assembled portion 312 is corresponding with the external diameter in fluid injection portion 19, and it is inner that this assembled portion 312 can be inserted in fluid injection portion 19.The inwall of assembled portion 312 is provided with negative thread, and the screw thread on this assembled portion 312 inwall is corresponding with the outside thread of fluid injection portion 19 outer wall of upper shell 10.In addition, as shown in Figure 5, the inwall of this assembled portion 312 is also arranged with multiple exhaust duct 33, the length direction of this exhaust duct 33 is parallel with the axis of assembled portion 312, the upper end of each exhaust duct 33 extends to the bottom surface (i.e. top cover 311 be connected with assembled portion 312 one side) of top cover 311, and lower end then forms opening in the bottom of assembled portion 312 (namely assembled portion 312 is away from one end of top cover 311).Diversion division 32 is roughly the cylindrical of hollow, and its one end is connected to the bottom surface central authorities of top cover 311, and this diversion division 32 is arranged coaxially with assembled portion 312.Diversion division 32 offers multiple flow-guiding channel (not shown), these flow-guiding channel one end open are in the bottom (namely diversion division 32 is away from one end of top cover 311) of diversion division 32, and the other end is opened on position close with the bottom surface of top cover 311 on diversion division 32 side.

This upper shell 10 all can adopt plastic material to make with lower house 20, in order to save Fabrication procedure, the means such as upper shell 10 (comprising its inlet portion 11, baffle plate 12, extension board 131 and fluid injection portion 19) and lower house 20 (comprising its spacer body, export department 21 and location division 29) all available such as injection moulding are one-body molded.After making upper shell 10 and lower house 20, the open side (i.e. the bottom of upper shell 10) of upper shell 10 is relative with the open side (i.e. the top of lower house 20) of lower house 20, the inner space of described upper shell 10 and the inner space of described lower house 20 are interconnected, then such as hot plate welding is used, the means such as ultrasonic welding are by upper shell 10 and lower house 20 weld together, concrete welding manner can be that the top of the sidewall of the bottom margin of the sidewall of upper shell 10 and lower house 10 is linked together, the bottom margin of extension board 131 that two side margins are aimed at mutually and the top of the first dividing plate 221 link together, the bottom margin of the extension board 131 that two other side margins is aimed at mutually and the top of second partition 222 link together.In other embodiments, other fixed forms also can be adopted upper shell 10 and lower house 20 to be connected and fixed, and to seal with seal ring between.Afterwards, again fluid injection portion 19 is inserted in assembled portion 312 inner, rotary container lid 30, utilize on assembled portion 312 inwall and container cover 30 is removably fixed on the top, fluid injection portion 19 of upper shell 10 with the screw thread on fluid injection portion 19 outer wall, utilize container cover 30 to be closed at least in part on the top in fluid injection portion 19, namely complete the assembling of this cooling liquid container 100.After the assembling of this container 100, its inner space only can be communicated by inlet portion 11, export department 12 and fluid injection portion 19 and the external world, can not arrange the opening that any of other communicates with the external world again.

In use, this cooling liquid container 100 is accessed in the coolant circulation system of automobile by its inlet portion 11 and export department 21, and is configured such that refrigerant fluid is from inlet portion 11 input pod 100.The above-mentioned inside diameter ranges of inlet portion 11 contributes to making the flow of refrigerant fluid to be in suitable scope, and refrigerant fluid can be made with predetermined speed normal circulation, forms uniform liquid stream, can not produce excessive impulsive force when refrigerant fluid also can be made to enter container 100.When refrigerant fluid flows out the opening that upper shell 10 inside is formed from inlet portion 11, liquid stream front end can be subject to the stop of baffle plate 12, makes the flow direction of liquid stream turn to below, injects the first chamber 201, such refrigerant fluid can not splash in container 100, can not evoke too much foam.Along with the increase of refrigerant fluid total amount in container 100, refrigerant fluid in turn can enter the second chamber 202, the 3rd chamber 203, the 4th chamber 204 by the through hole 225,224,226 of separator, finally pass through export department 21 flow container 100 from the 4th chamber 204, reenter circulation.Because refrigerant fluid one by one enters each chamber, therefore only can to section chambers inside mineralization pressure before whole four chambers of inflow, and can not soon to whole inwall mineralization pressures of container 100, can prevent the pressure of whole container 100 inside from raising too quickly, be conducive to the service life extending container 100.The above-mentioned flow area scope of through hole 224,225 and 226 and gap 132a and 132b contributes to the flow velocity of refrigerant fluid in four chambers is in suitable scope.When needs supplement refrigerant fluid to automobile, container cover 30 is screwed off from fluid injection portion 19, in container 100, add inject cooling liquid.When cooling fluid pressure in coolant circulation system is larger, part refrigerant fluid can be imported in this container 100 and store, or discharge from this container 100 further, to reduce the flow of refrigerant fluid in the pipeline of circulating system.

In addition, because refrigerant fluid one by one enters each chamber, compared with existing most of cooling liquid container, refrigerant fluid flow path when entering in container 100 is relatively long and more tortuous, the bubble comprised in liquid has floating upper liquid level of more time and breaks, and can realize gas-liquid layering more thoroughly.The above-mentioned ratio range of the internal diameter of inlet portion 11 and the internal diameter of export department 21 also contributes to the flow velocity of refrigerant fluid by container 100 to limit in the preferred range, refrigerant fluid can be made to have enough flowing times in container 100 inside, to make bubble wherein float from liquid fully and break, can guarantee that again refrigerant fluid has enough fast rate of circulation.Because export department 20 is arranged on below lower house 20, therefore the refrigerant fluid being discharged to other parts of circulating system from export department 20 have passed through the gas-liquid layered shaping of enough time, the bubble in refrigerant fluid can be reduced as much as possible, be conducive to the work efficiency improving coolant circulation system, extend the service life of system.When the gaseous tension in container 100 is larger, the flow-guiding channel that gas can be offered by diversion division 32 is under pressure transferred near the bottom surface of top cover 31, then by outside exhaust duct 33 amount discharge container 100, thus alleviates the pressure in container 100.

Be appreciated that, except thread connecting mode, described container cover 30 also can be assembled in fluid injection portion 19 by other means, as long as container cover 30 can at least in part by fluid injection portion 19 top closure, prevent the refrigerant fluid in container 100 from spilling and outside foreign material fall into container 100, and can pull down and be re-assembled to fluid injection portion 19 from fluid injection portion 19.Spacer body also can be other shapes, as long as the inner space of lower house 20 can be separated into multiple being in direct communication with one another or the chamber of indirect communication, and refrigerant fluid can through all chambers when flowing through from container 100.The number of chamber is also not necessarily limited to four.Accordingly, the quantity of extension board 131 and arrangement also can be changed according to the shape of spacer body.

In sum, the inner structure of the cooling liquid container (cooling liquid container 100 of such as above-mentioned embodiment) that the utility model provides contributes to improving refrigerant fluid flow condition wherein and reduces refrigerant fluid to the pressure of container, contribute in use discharging the gas in refrigerant fluid, be conducive to the work efficiency improving coolant circulation system, extend the service life of system.Simultaneously, this container only needs to arrange an entrance and is connected with the pipeline of coolant circulation system with an outlet (inlet portion of such as above-mentioned embodiment and export department), and existing most of cooling liquid container needs to arrange three even more openings and is connected with the pipeline of coolant circulation system, therefore the structural rate prior art of this container is more simple, is conducive to saving manufacturing cost and man-hour.

It should be noted that: the technical scheme of above embodiment only for illustration of the utility model and described by unrestricted the utility model, above about " on ", the description in the orientation such as D score, "left", "right" just for the ease of understanding content of the present utility model, not to restriction of the present utility model.Although this specification sheets has been described in detail the utility model with reference to the above embodiments, but, those of ordinary skill in the art is to be understood that, person of ordinary skill in the field still can modify to the utility model or equivalent replacement, and all do not depart from technical scheme and the improvement thereof of spirit and scope of the present utility model, all should be encompassed in right of the present utility model.

Claims (15)

1. a cooling liquid container, is characterized in that: described cooling liquid container comprises upper shell, lower house and container cover, and described upper shell and lower house are fixed together, and the inner space of the inner space of described upper shell and described lower house is interconnected; Described upper shell is formed with the fluid injection portion of hollow and the inlet portion of hollow, described fluid injection portion and described inlet portion are all from the outside projection of described upper shell out, and be all communicated with the inner space of described upper shell, described container cover is removably fixed in described fluid injection portion, and is closed at least in part on the top in described fluid injection portion; Described lower house comprises the export department of spacer body and hollow, described spacer body comprises dividing plate, the subregion of the part edge of described dividing plate and the inwall of described lower house seamlessly links into an integrated entity or is originally structure as a whole, and makes described dividing plate the inner space of described lower house is separated into multiple chamber be directly or indirectly communicated with each other; From the outside projection of described lower house out, one in described multiple chamber by described export department and ft connection in described export department.

2. cooling liquid container as claimed in claim 1, it is characterized in that: described upper shell also comprises baffle plate, described baffle plate is formed on the inwall of described upper shell, and its shape is semi-cylindrical shape, and its one end is axially connected with the internal partial wall of described upper shell or is connected; The opening that the recessed one side of described baffle plate is just being formed on the inwall of described upper shell described inlet portion, two sides of described baffle plate are all connected with the internal partial wall of described upper shell or are connected, and lay respectively at the both sides of described opening; All parts of described opening all aim at the recessed one side of described baffle plate; The other end axially of described baffle plate extends towards described lower house, and aims at another in described multiple chamber.

3. cooling liquid container as claimed in claim 2, it is characterized in that: described spacer body comprises the first dividing plate and second partition, described first dividing plate and second partition arranged in a crossed manner, the inner space of described lower house is separated into the first chamber, the second chamber, the 3rd chamber and the 4th chamber; Described first chamber is directly communicated with described second chamber, and described second chamber is directly communicated with described 3rd chamber, and described 3rd chamber is directly communicated with described 4th chamber; Described baffle plate axially aim at described first chamber towards one end that described lower house extends, described 4th chamber is by described export department and ft connection.

4. cooling liquid container as claimed in claim 3, it is characterized in that: described upper shell also comprises four extension boards, described extension board sets out from the inwall epirelief of described upper shell, in described four extension boards, the edge of two extension boards is connected with described first dividing plate by hot plate welding mode, and forms the gap that flow area is 15-30 sq cm between described two extension boards be connected with described first dividing plate; The edge of two other extension board is connected with described second partition by hot plate welding mode, and forms the gap that flow area is 15-30 sq cm between described two extension boards be connected with described second partition.

5. cooling liquid container as claimed in claim 4, is characterized in that: described cooling liquid container communicates with the external world by means of only described inlet portion, described export department and described fluid injection portion; The internal diameter of described inlet portion is 8-20 millimeter, and the internal diameter of described inlet portion is 1-1.5 times of the internal diameter of described export department; Described spacer body offers the through hole be directly communicated with described 4th chamber with described 3rd chamber and described 3rd chamber with described second chamber, described second chamber by described first chamber, the flow area of described through hole is 0.8-5 sq cm.

6. as the cooling liquid container in claim 1-4 as described in any one, it is characterized in that: described cooling liquid container communicates with the external world by means of only described inlet portion, described export department and described fluid injection portion; The internal diameter of described inlet portion is 8-20 millimeter, and the internal diameter of described inlet portion is 1-1.5 times of the internal diameter of described export department.

7. cooling liquid container as claimed in claim 6, it is characterized in that: the location division and the fixed block that the outer surface of described lower house are formed with protrusion, described location division offering the through knock hole described cooling liquid container positioned for matching with other fluid injection parts, described fixed block offering the positioning groove to the depression that described cooling liquid container positions for matching with other fluid injection parts.

8. as the cooling liquid container in claim 1-5 as described in any one, it is characterized in that: the location division and the fixed block that the outer surface of described lower house are formed with protrusion, described location division offering the through knock hole described cooling liquid container positioned for matching with other fluid injection parts, described fixed block offering the positioning groove to the depression that described cooling liquid container positions for matching with other fluid injection parts.

9. as the cooling liquid container in claim 1-5 as described in any one, it is characterized in that: described container cover comprises lid and diversion division, described lid to be removably mounted in described fluid injection portion and to be closed at least in part on the top in described fluid injection portion, and described lid offers multiple exhaust duct be in communication with the outside the inner space in described fluid injection portion; Described diversion division is roughly cylindrical, its one end is connected on described lid, described diversion division offers flow-guiding channel, and described flow-guiding channel one end open is in the other end of described diversion division, and the other end of described flow-guiding channel is opened on the side of described diversion division.

10. cooling liquid container as claimed in claim 9, is characterized in that: described cooling liquid container communicates with the external world by means of only described inlet portion, described export department and described fluid injection portion; The internal diameter of described inlet portion is 8-20 millimeter, and the internal diameter of described inlet portion is 1-1.5 times of the internal diameter of described export department.

11. cooling liquid containers as claimed in claim 9, it is characterized in that: the location division and the fixed block that the outer surface of described lower house are formed with protrusion, described location division offering the through knock hole described cooling liquid container positioned for matching with other fluid injection parts, described fixed block offering the positioning groove to the depression that described cooling liquid container positions for matching with other fluid injection parts.

12. as the cooling liquid container in claim 1-5 as described in any one, it is characterized in that: described upper shell and lower house are that plastic material is formed through injection molding, both are fixed together by welding, described upper shell is the structure of lower open, described lower house is the structure of opened upper end, mutually aim between described upper shell and the opened portion of lower house, the inner space of the inner space of described upper shell and lower house is made mutually to aim at and be interconnected, the chamber at the export department place of described lower house is not directly communicated with between the inlet portion of described upper shell, but be interconnected by other chambers of described lower house, or be not in the structural relation of aiming at up and down between the inlet portion of described upper shell and the chamber at the export department place of described lower house, but with the export department of lower house beyond other chamber rough alignment and can directly circulate.

13. cooling liquid containers as claimed in claim 12, is characterized in that: described cooling liquid container communicates with the external world by means of only described inlet portion, described export department and described fluid injection portion; The internal diameter of described inlet portion is 8-20 millimeter, and the internal diameter of described inlet portion is 1-1.5 times of the internal diameter of described export department.

14. cooling liquid containers as claimed in claim 12, it is characterized in that: the location division and the fixed block that the outer surface of described lower house are formed with protrusion, described location division offering the through knock hole described cooling liquid container positioned for matching with other fluid injection parts, described fixed block offering the positioning groove to the depression that described cooling liquid container positions for matching with other fluid injection parts.

15. cooling liquid containers as claimed in claim 12, it is characterized in that: described container cover comprises lid and diversion division, described lid to be removably mounted in described fluid injection portion and to be closed at least in part on the top in described fluid injection portion, and described lid offers multiple exhaust duct be in communication with the outside the inner space in described fluid injection portion; Described diversion division is roughly cylindrical, its one end is connected on described lid, described diversion division offers flow-guiding channel, and described flow-guiding channel one end open is in the other end of described diversion division, and the other end of described flow-guiding channel is opened on the side of described diversion division.