CN208205816U - A kind of new copper cooler - Google Patents
A kind of new copper cooler Download PDFInfo
- Publication number
- CN208205816U CN208205816U CN201820277163.8U CN201820277163U CN208205816U CN 208205816 U CN208205816 U CN 208205816U CN 201820277163 U CN201820277163 U CN 201820277163U CN 208205816 U CN208205816 U CN 208205816U
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- water channel
- plug
- copper cooler
- connecting rod
- linear path
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Abstract
The utility model relates to a kind of new copper cooler, including copper cooler ontology, it is equipped with cooling duct in copper cooler ontology, cooling duct is made of multiple linear path sections, and multiple water channel plugs are equipped in cooling duct;It is in multiple water channel plugs in the same linear path section, is connected between two neighboring water channel plug by connecting rod, the gap passed through between connecting rod and linear path section inner wall with water supply stream.This new copper cooler is by the way of combined type water channel plug, and wherein connecting rod plays the role of for each water channel plug being connected and fixed, and this combined type water channel plug can be installed in cooling duct from single a direction, easy for installation;Behind position needed for each water channel plug reaches, end part plug need to be only welded on copper cooler ontology, the multiple water channel plugs that will be connected together can be realized to be fixed on copper cooler ontology, and intermediate plug does not have to then weld with copper cooler ontology, reduces welding workload and welding cost.
Description
Technical field
The utility model relates to a kind of cooling equipment of smelting furnace body, in particular to a kind of new copper coolers.
Background technique
Important component with the very fast development of modern high temperature furnace smelting technique, as high temperature furnace furnace body cooling system
One of the cooling equipment of copper also grown rapidly.For example, having more than 200 seat height furnaces in the world in blast furnace ironmaking field and using
Copper cooling wall, is mainly used in bosh, furnace bosh and restoration of lower stack;In electric arc furnaces field, it is widely used copper pressure rings, copper
Watt, copper electrode collet, Copper Water Jacket, copper pressure rings etc. copper cooler.These copper coolers relative to traditional cast iron cooler,
Pipe laying cast copper cooler, technical advantage are mainly reflected in: thermal conductivity is high, thermal shock resistance is good, high heat resistance stream impact property is good, hot
Amount loss is small, does not have the casting flaws such as stomata crackle, machining accuracy height, reusable etc..
A kind of existing copper cooler, including copper cooler body (copper cooler body using calendering processing fine copper or
Cu alloy material is made), copper cooler ontology is interior to be equipped with cooling duct, is equipped with water channel plug in cooling duct.Using multiple sides
Multiple linear path sections are formed in copper cooler ontology to straight line drilling, these linear path sections are interconnected and are formed
Cooling duct (cooling duct can be U-shaped, hollow or more complicated structure), then water flow section is carried out by welding intermediate plug
Disconnected, the flow direction for water flow according to design is current.As Figure 6-9, in traditional copper cooler, in order to allow water flow according to
The flow direction that design is wanted is current, it is necessary to and one or more intermediate plugs are set in copper cooler ontology and carry out water flow truncation,
Therefore, the cooling water channel of the copper cooler of some labyrinths is designed, is necessarily required to weld more intermediate plug, increased
Welding workload and welding cost, it is especially for the welding procedure of thick copper sheet material complex, considerably increase welding
Workload and welding cost.
Summary of the invention
The problem to be solved by the utility model is to provide a kind of new copper cooler, water channel in this new copper cooler
The installation of plug is more convenient, can reduce welding workload, reduces welding cost.
In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model is as follows:
A kind of new copper cooler, including copper cooler ontology, copper cooler ontology is interior to be equipped with cooling duct, cooling duct
It is made of multiple linear path sections, multiple water channel plugs is equipped in cooling duct, it is characterized in that: it is logical to be in the same linear
In multiple water channel plugs in road section, connected between two neighboring water channel plug by connecting rod, it is logical in connecting rod and linear
The gap passed through between road section inner wall with water supply stream.
Above-mentioned linear path section is to remove material on copper cooler ontology using drilling or other machining modes
It obtains, these linear path sections are interconnected and form cooling duct.
The multiple water channel plugs being in the same linear path section are connected by connecting rod, and it is stifled to constitute combined type water channel
Head can be and be connected between two water channel plugs by a connecting rod, be also possible between three water channel plugs be connected by two
Bar connection or n(n are positive integer) it is connected by (n-1) root connecting rod between a water channel plug.
Connecting rod plays the role of for each water channel plug being connected and fixed in combined type water channel plug, can be by this combined type
Water channel plug is installed in cooling duct from single a direction, easy for installation;Behind position needed for each water channel plug reaches, only need by
End part plug (the water channel plug for being in linear path section end position) is welded on copper cooler ontology, can be realized by
The multiple water channel plugs to connect together are fixed on copper cooler ontology, and intermediate plug (is among linear path section
The water channel plug of position) do not have to then weld with copper cooler ontology, so that copper cooler ontology reduces many weld seams, reduce welding
Workload and welding cost.Especially in the design of the water route of the copper cooler of some labyrinths, welding can be greatly reduced
Workload and welding cost.Especially for the copper cooler of some special high temperature furnaces, does not allow to exist in its working surface and weld
Situation is stitched, is convenient to realize the installation of intermediate plug using said combination formula water channel plug.
As a kind of concrete scheme of the utility model, the connecting rod both ends are respectively welded at two neighboring water channel plug
On.Connecting rod both ends are separately fixed on two neighboring water channel plug by welding.
As another concrete scheme of the utility model, the connecting rod both ends are equipped with external screw thread, two neighboring water
Screw hole is respectively equipped on road plug, connecting rod both ends are threadedly coupled with the screw hole on corresponding water channel plug respectively.Pass through screw thread
Connecting rod both ends are separately fixed on two neighboring water channel plug by connection.
In general, the cross sectional dimensions of the connecting rod is less than the cross sectional dimensions of water channel plug, thus in connecting rod and directly
The gap passed through between linear channel section inner wall with water supply stream.The shape of the connecting rod cross section can be rectangular or circle
Shape.Screw rod can also be used in above-mentioned connecting rod.
The cross-sectional shape of above-mentioned linear path section can be circular hole section, oval groove section or composite holes and cut
Face.The cross-sectional shape of water channel plug and the cross-sectional shape and size phase of size and its position linear path section
Match, blocks linear path section at this.
To be easy to process, the cross-sectional shape of above-mentioned linear path section is circular hole section, the cross section of water channel plug
Shape is circle.In a kind of concrete scheme, each water channel plug diameter being in the same linear path section is identical.It is another
In concrete scheme, each water channel plug diameter being in the same linear path section is different, and each water channel plug is big by diameter
It is small ascending to be arranged successively.
The material of above-mentioned copper cooler ontology is fine copper or copper alloy, it is preferred to use the pure of (forging and stamping or rolling) is processed in calendering
Copper or Cu alloy material.
The utility model compared with prior art, has the advantages that
For this new copper cooler by the way of combined type water channel plug, wherein connecting rod, which plays, connects each water channel plug
Fixed effect is connect, this combined type water channel plug can be installed in cooling duct from single a direction, it is easy for installation;
Behind position needed for each water channel plug reaches, end part plug need to be only welded on copper cooler ontology, can be realized will be connected in one
The multiple water channel plugs risen are fixed on copper cooler ontology, and intermediate plug does not have to then weld with copper cooler ontology, so that
Copper cooler ontology reduces many weld seams, reduces welding workload and welding cost.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model embodiment 1;
Fig. 2 be in Fig. 1 along the sectional view of A-A;
Fig. 3 is that connecting rod uses the structural schematic diagram being welded to connect in the utility model embodiment 1;
Fig. 4 is that connecting rod uses the structural schematic diagram being threadedly coupled in the utility model embodiment 2;
Fig. 5 is the structural schematic diagram that each water channel plug diameter is different in the utility model embodiment 3;
Fig. 6 is a kind of structural schematic diagram of tradition water flow truncation in the utility model background technique;
Fig. 7 is the cross-sectional view in Fig. 6 along B-B;
Fig. 8 is the structural schematic diagram of another tradition water flow truncation in the utility model background technique;
Fig. 9 is the cross-sectional view in Fig. 8 along C-C.
Specific embodiment
The utility model is specifically described in the following with reference to the drawings and specific embodiments.
Embodiment 1
As shown in Figure 1-3, one of the present embodiment new copper cooler, including copper cooler ontology 1, copper cooler sheet
It is equipped with cooling duct 2 in body 1, cooling duct 2 includes the linear path section 21 of six longitudinal directions by multiple linear path section 21(
With the linear path section 21 of two transverse directions) composition, cooling duct 2 is interior to be equipped with multiple water channel plugs 3.It is in the same linear
In multiple water channel plugs 3 in channel section 21, connected between two neighboring water channel plug 3 by connecting rod 4.The cross of connecting rod 4
Sectional dimension is less than the cross sectional dimensions of water channel plug 3, has between 21 inner wall of connecting rod 4 and linear path section for water flow
By gap 22.
Linear path section 21 is to remove material on copper cooler ontology 1 using drilling or other machining modes
It obtains, these linear path sections 21 are interconnected and form cooling duct 2.
The multiple water channel plugs 3 being in the same linear path section 21 are connected by connecting rod 4, constitute Combined water
Road plug can be and be connected between two water channel plugs 3 by a connecting rod 4, is also possible between three water channel plugs 3 by two
The connection of root connecting rod 4 or n(n are positive integer) it is connected by (n-1) root connecting rod 4 between a water channel plug 3.
Connecting rod 4 plays the role of for each water channel plug 3 being connected and fixed in combined type water channel plug, can be by this combination
Formula water channel plug is installed in cooling duct 2 from single a direction, easy for installation;After each water channel plug 3 reaches required position, only
End part plug (the water channel plug 3 for being in 21 end position of linear path section) need to be welded on copper cooler ontology 1, i.e.,
It can be achieved for the multiple water channel plugs 3 to connect together to be fixed on copper cooler ontology 1, and intermediate plug (is in linear
The water channel plug 3 in 21 middle position of channel section) do not have to then weld with copper cooler ontology 1, so that the reduction of copper cooler ontology 1 is permitted
More weld seams.As shown in Figure 1, the weld seam of 4 intermediate plugs can be reduced using this combined type water channel plug.
4 both ends of connecting rod are respectively welded on two neighboring water channel plug 3.It is by welding that 4 both ends of connecting rod are solid respectively
It is scheduled on two neighboring water channel plug 3.
The shape of 4 cross section of connecting rod is circle.The shape of above-mentioned 4 cross section of connecting rod can also be rectangular.Above-mentioned company
Screw rod can also be used in extension bar 4.
The cross-sectional shape of above-mentioned linear path section 21 is circular hole section.To be easy to process, above-mentioned linear path
The cross-sectional shape of section 21 is circular hole section, and the cross-sectional shape of water channel plug 3 is circle.In this concrete scheme, it is in same
Each 3 diameter of water channel plug in one linear path section 21 is identical.
The cross-sectional shape of above-mentioned linear path section 21 can also be oval groove section or composite holes section.Water channel
The cross-sectional shape of plug 3 and the cross-sectional shape and size of size and its position linear path section 21 match, and make
Linear path section 21 blocks at this.
The material of above-mentioned copper cooler ontology 1 processes the fine copper or Cu alloy material of (forging and stamping or rolling) using calendering.
Embodiment 2
As shown in figure 4, new copper cooler in the present embodiment the difference from embodiment 1 is that:
4 both ends of connecting rod are equipped with external screw thread 41, and screw hole 31 is respectively equipped on two neighboring water channel plug 3, connection
4 both ends of bar are threadedly coupled with the screw hole 31 on corresponding water channel plug 3 respectively.It is connected through a screw thread and distinguishes 4 both ends of connecting rod
It is fixed on two neighboring water channel plug 3.
Embodiment 3
As shown in figure 5, new copper cooler in the present embodiment the difference from embodiment 1 is that:
Each 3 diameter of water channel plug being in the same linear path section 21 is different, and each water channel plug 3 is big by diameter
It is small ascending to be arranged successively.
In addition, it should be noted that, the specific embodiments described in this specification, each section title etc. can not
Together, all equivalent or simple changes done according to structure, feature and principle described in the concept of the patent of the utility model are included in this
In the protection scope of utility model patent.Those skilled in the art of the present invention can be to described specific reality
Example is applied to do various modifications or additions or be substituted in a similar manner, structure without departing from the utility model or
Beyond the scope defined by this claim, it all should belong to the protection range of the utility model.
Claims (3)
1. a kind of new copper cooler, including copper cooler ontology, be equipped with cooling duct in copper cooler ontology, cooling duct by
Multiple linear path sections form, and multiple water channel plugs are equipped in cooling duct, it is characterized in that: being in the same linear path
In multiple water channel plugs in section, connected between two neighboring water channel plug by connecting rod, in connecting rod and linear path
The gap passed through between section inner wall with water supply stream.
2. new copper cooler as described in claim 1, it is characterized in that: the connecting rod both ends be respectively welded at it is two neighboring
On water channel plug.
3. new copper cooler as described in claim 1, it is characterized in that: the connecting rod both ends are equipped with external screw thread, it is adjacent
Screw hole is respectively equipped on two water channel plugs, connecting rod both ends are threadedly coupled with the screw hole on corresponding water channel plug respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820277163.8U CN208205816U (en) | 2018-02-27 | 2018-02-27 | A kind of new copper cooler |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820277163.8U CN208205816U (en) | 2018-02-27 | 2018-02-27 | A kind of new copper cooler |
Publications (1)
Publication Number | Publication Date |
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CN208205816U true CN208205816U (en) | 2018-12-07 |
Family
ID=64535367
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201820277163.8U Active CN208205816U (en) | 2018-02-27 | 2018-02-27 | A kind of new copper cooler |
Country Status (1)
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CN (1) | CN208205816U (en) |
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2018
- 2018-02-27 CN CN201820277163.8U patent/CN208205816U/en active Active
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