CN215832554U

CN215832554U - Radiator water tank

Info

Publication number: CN215832554U
Application number: CN202122383624.4U
Authority: CN
Inventors: 王登峰; 李大钧; 郑超
Original assignee: Qingdao Haixing Thermal Control Industrial Development Co ltd
Current assignee: Qingdao Haixing Thermal Control Industrial Development Co ltd
Priority date: 2021-09-29
Filing date: 2021-09-29
Publication date: 2022-02-15
Anticipated expiration: 2031-09-29

Abstract

The utility model discloses a radiator water tank, which comprises an expansion tank, wherein two side walls of the expansion tank are oppositely provided with a first mounting opening and a second mounting opening; the upper water chamber is arranged below the expansion tank and is connected with a first radiator body; the separator is arranged between the expansion tank and the water chamber, and a water filling port is formed in the separator; the water injection assembly comprises a water inlet end, a first water outlet end and a second water outlet end which are communicated with each other and is arranged at the first mounting opening; the first water outlet end is arranged in the expansion tank and communicated with the water filling port; the second water outlet end penetrates out of the second mounting port and is connected with a second radiator body. The technical problem that a radiator water tank cannot be connected with two radiators in the prior art is solved.

Description

Radiator water tank

Technical Field

The utility model belongs to the technical field of radiators, and particularly relates to a radiator water tank.

Background

The radiator water tank in the prior art comprises an upper water chamber and an expansion tank, wherein the expansion tank is positioned above the upper water chamber, the upper water chamber is communicated with the expansion tank through a vertical water pipe, a water inlet pipe is connected to the upper water chamber, and water is added into the upper water chamber through the water inlet pipe.

However, the radiator tank in the prior art can only be connected with one radiator, and for the equipment needing to install two radiators simultaneously, only two independent radiators can be installed, so that the radiator occupies a larger space.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a radiator water tank to solve the technical problem that the radiator water tank in the prior art cannot be connected with two radiators.

In order to realize the purpose, the utility model adopts the following technical scheme:

a radiator tank comprising:

the expansion tank is provided with a first mounting opening and a second mounting opening on two side walls of the expansion tank oppositely;

the upper water chamber is arranged below the expansion tank and is connected with a first radiator body;

the separator is arranged between the expansion tank and the water chamber, and a water filling port is formed in the separator;

a water injection assembly, which comprises a water injection pipe and a water injection pipe,

the water inlet end is arranged at the first mounting opening;

the first water outlet end is arranged in the expansion tank and communicated with the water filling port;

and the second water outlet end penetrates out of the second mounting port and is connected with a second radiator body.

The utility model discloses a radiator water tank, wherein a first mounting opening and a second mounting opening are formed in two side walls of an expansion tank, and a water feeding chamber is arranged below the expansion tank and connected with a first radiator body. Meanwhile, a water injection component is arranged and comprises a water inlet end, a first water outlet end and a second water outlet end which are communicated; the water inlet end is arranged at the first mounting port, the first water outlet end is arranged in the expansion tank and communicated with the water filling port, and the second water outlet end penetrates out of the second mounting port and is connected with the second radiator body. The water flows into the water injection assembly from the water inlet end and then is divided into two paths, namely a first path of cooling water and a second path of cooling water, wherein the first path of cooling water sequentially flows to the upper water chamber from the first water outlet end and the water injection port; the second path of cooling water flows out through the second water outlet end, and the second water outlet end is connected with the second radiator body, so that the second path of cooling water is used for the second radiator body. Meanwhile, when the first path of cooling water is heated and expanded, the first path of cooling water flows into the expansion tank; when the second path of cooling water is heated and expanded, the second path of cooling water firstly flows into the water feeding chamber and then flows into the expansion tank from the water feeding chamber, and therefore by adopting the structure, the radiator tank can realize the connection of the two radiator bodies. The technical problem that a radiator water tank cannot be connected with two radiators in the prior art is solved.

In some of these embodiments, the water injection assembly includes a plurality of water injection ports in communication with one another,

the first branch pipe is arranged at the first mounting opening, and the first branch pipe is provided with the water inlet end;

the second branch pipe is arranged in the expansion tank, and the first water outlet end is arranged at the second branch pipe;

and the third branch pipe penetrates out of the second mounting port, and a second water outlet end is arranged at the third branch pipe.

In some of these embodiments, the water injection assembly comprises,

one end of the water injection connecting piece is arranged at the first mounting opening, and the other end of the water injection connecting piece extends into the expansion tank; a first opening and a third opening are oppositely arranged on two side walls of the water injection connecting piece, a second opening is arranged at the bottom of the water injection connecting piece, and the second opening is communicated with the water injection port;

the water injection pipe is horizontally arranged and sequentially penetrates through the first opening, the third opening and the second mounting port; the water injection pipe is provided with the water inlet end, a first water outlet end and a second water outlet end;

the water inlet end is arranged at the first opening, and the first water outlet end is opposite to and communicated with the second opening; the second water outlet end is arranged at the third opening.

In some of these embodiments, the water injection connection comprises,

the connecting plate is arranged at the first mounting opening, and the connecting plate is provided with the first opening;

and the communicating cavity is arranged in the expansion tank, the front end of the communicating cavity is fixedly connected with the connecting plate, the rear end of the communicating cavity is provided with the third opening, and the bottom end of the communicating cavity is provided with the second opening.

In some embodiments, a third installation opening is formed in the side wall of the upper water chamber, the third installation opening is arranged right below the first installation opening, and the third installation opening is communicated with the first installation opening;

the top of the connecting plate is connected with the top of the first mounting opening, and the bottom of the connecting plate is connected with the bottom of the third mounting opening.

In some embodiments, the top end and the bottom end of the first mounting opening are both arc structures, and the top end and the bottom end of the connecting plate are both arc structures, so that the connecting plate is closely connected with the first mounting opening.

In some of the embodiments, the separator is a plate-shaped structure, and a water pipe is arranged on the separator; when the water in the upper water chamber expands due to heating, the water in the upper water chamber flows into the expansion tank through the water pipe.

In some embodiments, the connecting plate comprises a first branch plate and a second branch plate which are fixedly connected, the first branch plate is arranged at the first mounting opening, and the second branch plate is arranged at the third mounting opening; the first board is arranged above the second board;

the first minute board with the intercommunication cavity is fixed to be met, the second minute board with form the joint mouth between the intercommunication cavity, the one end card of separator in the joint mouth.

In some of these embodiments, the communicating cavities comprise communicating,

the top of the first sub-cavity is of an arc structure;

and the second sub-cavity is positioned below the first sub-cavity, and the bottom of the second sub-cavity is provided with the second opening.

In some embodiments, the expansion tank and the upper water chamber are of an integrally formed structure.

Drawings

Fig. 1 is a schematic view of the overall structure of a radiator tank provided in embodiment 1;

FIG. 2 is a schematic cross-sectional view of FIG. 1;

fig. 3 is a schematic view 1 of the overall structure of a radiator tank provided in embodiment 2;

FIG. 4 is a schematic view 2 showing the overall structure of the water injection pipe provided in example 2;

fig. 5 is a partial structural schematic view 1 of a radiator tank provided in embodiment 2;

fig. 6 is a partial structural schematic view 2 of a radiator tank provided in embodiment 2;

FIG. 7 is a schematic view showing the structure of a water injection connector provided in embodiment 2;

in the above figures:

1. a water feeding chamber; 11. a third mounting port;

2. an expansion tank; 21. a first mounting port; 22. a second mounting opening;

3. a water injection assembly; 31. a first branch pipe; 32. a second branch pipe; 33. a third branch pipe; 34. a water injection connecting piece; 341. a connecting plate; 342. the cavity is communicated; 343. a first opening; 344. a second opening; 35. a water injection pipe; 36. a water inlet end; 37. a first water outlet end; 38. a second water outlet end;

4. a separator; 41. a water injection port.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present application.

The terms "first", "second" and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless otherwise specified.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Technical scheme in the embodiment of this application is for solving the technical problem that two radiators can't be connected to radiator water tank among the above-mentioned prior art, and the general thinking is as follows:

the utility model discloses a radiator water tank, wherein a first mounting opening and a second mounting opening are formed in two side walls of an expansion tank, and a water feeding chamber is arranged below the expansion tank and connected with a first radiator body. Meanwhile, a water injection component is arranged and comprises a water inlet end, a first water outlet end and a second water outlet end which are communicated; the water inlet end is arranged at the first mounting port, the first water outlet end is arranged in the expansion tank and communicated with the water filling port, and the second water outlet end penetrates out of the second mounting port and is connected with the second radiator body. The water flows into the water injection assembly from the water inlet end and then is divided into two paths, namely a first path of cooling water and a second path of cooling water, wherein the first path of cooling water sequentially passes through the first water outlet end and the water injection port and flows to the upper water chamber; the second path of cooling water flows out through the second water outlet end, and the second water outlet end is connected with the second radiator body, so that the second path of cooling water is used for the second radiator body. Meanwhile, when the first path of cooling water is heated and expanded, the first path of cooling water flows into the expansion tank from the water feeding chamber; when the second path of cooling water expands due to heating, the second path of cooling water firstly flows into the upper water chamber and then flows into the expansion tank from the upper water chamber. Therefore, by adopting the structure, the radiator tank can realize the connection of the two radiator bodies. The technical problem that a radiator water tank cannot be connected with two radiators in the prior art is solved.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Example 1

A radiator tank comprising:

the expansion tank 2 is provided with a first mounting opening 21 and a second mounting opening 22 on two opposite side walls;

the water chamber is arranged below the expansion tank 2 and is connected with a first radiator body;

a partition 4 disposed between the expansion tank 2 and the water chamber, wherein the partition 4 is provided with a water inlet 41;

a water injection assembly 3, which comprises a plurality of communicating,

a water inlet end 36 disposed at the first mounting port 21;

a first water outlet end 37 arranged in the expansion tank 2 and communicated with the water filling port 41;

and a second water outlet end 38 which penetrates out of the second mounting port 22 and is connected with a second radiator body.

As shown in fig. 1 to 2, the radiator tank includes an expansion tank 2, a water chamber, a partition 4, and a water injection assembly 3.

Specifically, the expansion tank 2 is provided with a first mounting port 21 and a second mounting port 22 on both side walls thereof, that is, the expansion tank 2 is provided with the first mounting port 21 on a front side wall thereof and the second mounting port 22 on a rear side wall thereof. Go up hydroecium 1 and set up in the below of expansion tank 2, and the below of hydroecium is connected with first radiator body. In this embodiment, the size of expansion tank 2 is greater than the size of hydroecium 1, and the height and the width of expansion tank 2 are greater than the height and the width of hydroecium 1 promptly to can guarantee to have sufficient space and be used for holding the water after the thermal expansion. Further, the partition 4 is arranged between the expansion tank 2 and the upper water chamber 1, the water filling port 41 is arranged on the partition 4, meanwhile, a water pipe is arranged on the partition 4, the water pipe is a vertical water pipe and is arranged in the expansion tank 2, and the expansion tank 2 is communicated with the upper water chamber 1 through the arrangement of the water pipe. Therefore, when the water in the upper water chamber 1 expands due to heat, the water in the upper water chamber 1 flows into the expansion tank 2 through the water pipe.

The water injection component 3 comprises a water inlet end 36, a first water outlet end 37 and a second water outlet end 38 which are communicated; the water inlet end 36 is disposed at the first mounting port 21, the first water outlet end 37 is disposed in the expansion tank 2 and is communicated with the water filling port 41, and the second water outlet end 38 penetrates through the second mounting port 22 to connect with the second radiator body. That is, after flowing into the water injection assembly 3 from the water inlet end 36, the water is divided into two paths, namely, a first path of cooling water and a second path of cooling water, wherein the first path of cooling water sequentially flows to the upper water chamber 1 through the first water outlet end 37 and the water injection port 41, and the first path of cooling water is used for the first radiator body as the first radiator body is connected to the upper water chamber 1; the second path of cooling water flows out through the second water outlet end 38, and the second water outlet end 38 is connected with the second radiator body, so that the second path of cooling water is used for the second radiator body. Meanwhile, when the first path of cooling water is heated and expanded, the first path of cooling water flows into the expansion tank 2 through the vertical water pipe (not shown); when the second path of cooling water is heated and expanded, the second path of cooling water firstly flows into the upper water chamber 1, then flows into the expansion tank 2 from the upper water chamber 1, and therefore by adopting the structure, the radiator tank can be connected with the two radiator bodies, and the radiator tank is simple in structure, small in size and small in occupied space. The technical problem that a radiator water tank cannot be connected with two radiators in the prior art is solved.

In particular, the water injection assembly 3 is a tubular structure comprising a first branch 31, a second branch 32, a third branch 33. Wherein, the first branch pipe 31 is arranged at the first mounting port 21, and the first branch pipe 31 is provided with a water inlet end 36, i.e. the cooling water flows into the water tank through the first branch pipe 31; the second branch pipe 32 is arranged in the expansion tank 2, and the second branch pipe 32 is provided with a first water outlet end 37, and the first water outlet end 37 is connected with the water filling port 41, so that the second branch pipe 32 is communicated with the upper water chamber 1; meanwhile, the second branch pipe 32 is connected and communicated with the first branch pipe 31, so that when cooling water flows in from the first branch pipe 31, a part of the cooling water flows into the second branch pipe 32, and since the second branch pipe 32 is communicated with the upper water chamber 1, the cooling water flowing into the second branch pipe 32 flows into the upper water chamber 1 through the water filling port 41, and since the upper water chamber 1 is connected with the first radiator body, the cooling water is used for the first radiator body. Furthermore, the third branch pipe 33 passes through the second mounting port 22, the third branch pipe 33 is provided with a second water outlet end 38, the third branch pipe 33 is respectively connected with the first branch pipe 31 and the second branch pipe 32, after the cooling water flows in from the water inlet end 36 of the first branch pipe 31, a part of the cooling water flows to the third branch pipe 33, and the third branch pipe 33 is connected with the second radiator body, namely, the cooling water is used for the second radiator body. From this, radiator tank in this application only sets up hydroecium 1 and expansion tank 2 and can satisfy two radiator bodies on one to the technical problem of radiator tank can't connect two radiators among the prior art has been solved.

Example 2

As shown in fig. 3 to 7, the present embodiment is different from embodiment 1 in that the upper water chamber 1 and the expansion tank 2 are formed as an integrally formed aluminum profile, and the water injection module 3 has a different structure. The water injection assembly 3 of example 1 is required to be welded into the expansion tank 2 before the expansion tank 2 is assembled and closed in case the expansion tank 2 is not completely assembled. However, this structure is not suitable for the radiator tank of aluminum profile structure because the radiator tank of aluminum profile structure is integrated into one piece structure, and it is the enclosed construction of integrated into one piece that goes up hydroecium 1 and expansion tank 2 promptly. Therefore, in order to enable the radiator tank of the aluminum profile structure to be connected with the two radiator bodies, the water injection assembly 3 with different structures is designed in the embodiment.

Specifically, the two side walls of the expansion tank 2 are provided with a first mounting port 21 and a second mounting port 22 opposite to each other; that is, the front side wall of the expansion tank 2 is provided with a first mounting port 21, and the rear side wall thereof is provided with a second mounting port 22. The water chamber is arranged below the expansion tank 2 and is connected with a first radiator body; the separator 4 is arranged between the expansion tank 2 and the water chamber, and a water filling port 41 is arranged on the separator 4; the water injection assembly 3 comprises a water inlet end 36, a first water outlet end 37 and a second water outlet end 38 which are communicated, and the water inlet end 36 is arranged at the first mounting port 21; the first water outlet end 37 is disposed in the expansion tank 2 and communicated with the water filling port 41, and the second water outlet end 38 penetrates through the second mounting port 22 and is connected with a second radiator body.

In this embodiment, the top of the first installation opening 21 of the expansion tank 2 is arc-shaped, the front side wall of the upper water chamber 1 is provided with a third installation opening 11, the third installation opening 11 is arranged right below the first installation opening 21, the third installation opening 11 is communicated with the first installation opening 21, and the bottom of the third installation opening 11 is arc-shaped.

The water filling assembly 3 comprises a water filling connection 34 and a water filling pipe 35.

Specifically, one end of the water injection connector 34 is disposed at the first mounting port 21, and the other end thereof extends into the expansion tank 2; the two side walls of the water injection connector 34 are oppositely provided with a first opening 343 and a third opening, the bottom of the water injection connector is provided with a second opening 344, and the second opening 344 is communicated with the water injection port 41. The water injection pipe 35 is horizontally arranged and passes through the first opening 343, the third opening and the second mounting opening 22 in sequence, i.e. the water injection pipe 35 traverses the water injection connection 34 and the expansion tank 2. Further, the water injection pipe 35 is provided with a water inlet end 36, a first water outlet end 37 and a second water outlet end 38; the water inlet end 36 is disposed at the first opening, the first water outlet end 37 is disposed opposite to and communicated with the second opening 344, and the second water outlet end 38 penetrates through the second mounting opening 22 and is connected to the second heat sink body. In this embodiment, the water injection pipe 35 is a straight pipe, and has a water inlet at one end thereof as the water inlet end 36, a first water outlet at the middle end thereof as the first water outlet end 37, and a water outlet at the other end thereof as the second water outlet end 38.

Specifically, the water injection connector 34 includes a connection plate 341 and a communication cavity 342, the communication cavity 342 is fixedly connected to the connection plate 341, and the communication cavity 342 and the connection plate 341 form a water injection cavity. More specifically, the connecting plate 341 is disposed at the first mounting port, the connecting plate 341 extends from the top end of the first mounting port 21 to the bottom end of the third mounting port 11, meanwhile, the connecting plate 341 is provided with a first opening 343, the communication cavity 342 is disposed in the expansion tank 2, and the bottom end of the communication cavity 342 is provided with a second opening 344; and the bottom of the communicating chamber 342 is positioned on the partition 4 and the second opening 344 is communicated with the water filling port 41, thereby allowing communication between the water filling connector 34 and the upper water chamber 1, whereby water can be filled through the water inlet pipe at the water filling connector 34 and flow into the water filling chamber and the upper water chamber 1 through the second opening 344 and the water filling port 41.

Further, the top end and the bottom end of the connecting plate 341 are both arc structures, that is, the connecting plate 341 is matched with the structures of the first mounting opening 21 and the third mounting opening 11, so that the connecting plate 341 and the expansion tank 2 can be tightly connected. Because, first installing port 21 is linked together with third installing port 11, and extends to hydroecium 1 department by expansion tank 2 department, consequently makes connecting plate 341 extend to hydroecium 1 department by expansion tank 2 department, connecting plate 341 spanes expansion tank 2 and hydroecium 1 promptly, and intercommunication cavity 342 is located the top of separator 4, thereby make connecting plate 341 with form the joint mouth between the intercommunication cavity 342, the one end of separator 4 just in time blocks in this joint mouth, can make the more stable setting in installing port department of water injection connecting piece 34 through adopting above structure from this.

More specifically, the connecting plate 341 includes a first board and a second board, the first board is disposed at the first mounting opening, the second board is disposed at the third mounting opening, that is, the first board is located above the second board, and the first board is fixedly connected to the communicating cavity 342, since the second board is located below the first board, and the second board is located at the upper water chamber 1, that is, the second board is located below the partition 4, a clamping opening is formed between the second board and the communicating cavity 342, and one end of the partition 4 is just clamped in the clamping opening. In this embodiment, the first sub-plate and the second sub-plate are of an integrated structure.

Further, intercommunication cavity 342 is including the first minute cavity and the second minute cavity that are linked together, and the top of first minute cavity is the circular arc structure for can laminate more between water injection subassembly 3 and the expansion tank 2, the second minute cavity is located the below of first minute cavity, and the bottom of second minute cavity is provided with second opening 344, meets with separator 4 through the second minute cavity promptly, the bottom of second minute cavity promptly sets up on separator 4, thereby make setting up in expansion tank 2 that intercommunication cavity 342 can be stable.

To sum up, through set up the installing port on the lateral wall of hydroecium 1 and expansion tank 2 on integrated into one piece, this installing port can be opened according to actual need on the lateral wall of fashioned hydroecium 1 and expansion tank 2 through the manual work, also can directly form this installing port at integrated into one piece's in-process, and set up water injection connecting piece 34 in this installing port department. Since the outer side walls of the upper water chamber 1 and the expansion tank 2 are located at the outside, the connection plate 341 of the water filling connection member 34 and the first and third installation ports can be conveniently fixed by welding or other means. Meanwhile, the bottom of the upper water chamber 1 is of an open structure before the radiator tank is installed. Through this opening, the bottom of the communicating cavity 342 of the water filling connector 34 and the partition 4 can thus be very conveniently fixed together by welding or other means. From this, can realize going up hydroecium 1 and expansion tank 2 shaping back through adopting above structure, install water injection coupling assembling again to the realization is with water adding in going up hydroecium 1. Therefore, under the prerequisite of guaranteeing that one goes up hydroecium 1 and expansion tank 2 and can connect two radiator bodies simultaneously in the radiator water tank, further solved among the radiator water tank of among the prior art water chamber 1 and expansion tank 2 integrated into one piece's aluminum profile struction, can't install the technical problem of water injection subassembly.

Claims

1. A radiator tank, comprising:

the water inlet end is arranged at the first mounting opening;

2. The radiator tank of claim 1, wherein the water injection assembly comprises a plurality of water injection holes communicating with each other,

3. The radiator tank of claim 1, wherein the water injection assembly comprises,

4. The radiator tank of claim 3, wherein the water filling connection comprises,

5. The radiator tank of claim 4,

a third mounting opening is formed in the side wall of the upper water chamber, the third mounting opening is arranged right below the first mounting opening, and the third mounting opening is communicated with the first mounting opening;

6. The radiator tank of claim 4, wherein the top end and the bottom end of the first mounting port are both of a circular arc structure, and the top end and the bottom end of the connecting plate are both of a circular arc structure, so that the connecting plate is closely attached to the first mounting port.

7. The radiator tank of claim 6, wherein the partition is a plate-shaped structure, and a water pipe is provided on the partition; when the water in the upper water chamber expands due to heating, the water in the upper water chamber flows into the expansion tank through the water pipe.

8. The radiator tank of claim 5,

the connecting plate comprises a first branch plate and a second branch plate which are fixedly connected, the first branch plate is arranged at the first mounting opening, and the second branch plate is arranged at the third mounting opening; the first board is arranged above the second board;

9. The radiator tank of claim 4, wherein said communicating chambers comprise communicating,

the top of the first sub-cavity is of an arc structure;

10. The radiator tank of claim 3, wherein the expansion tank and the upper water chamber are of an integrally formed structure.