CN209424507U - A kind of horizontal casting porous graphite crystallizer and its mounting structure - Google Patents
A kind of horizontal casting porous graphite crystallizer and its mounting structure Download PDFInfo
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- CN209424507U CN209424507U CN201821661654.9U CN201821661654U CN209424507U CN 209424507 U CN209424507 U CN 209424507U CN 201821661654 U CN201821661654 U CN 201821661654U CN 209424507 U CN209424507 U CN 209424507U
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- cooling water
- crystallizer
- cooler crystallizer
- water pipe
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Abstract
The utility model discloses a kind of horizontal casting porous graphite crystallizer and its mounting structures, including upper cooler crystallizer, No.1 graphite jig set, middle cooler crystallizer, No. two graphite jig sets and lower cooler crystallizer, No.1 graphite jig covers between upper cooler crystallizer and middle cooler crystallizer, upper cooler crystallizer and middle cooler crystallizer are used to cool down No.1 graphite jig set, No. two graphite jig sets are between lower cooler crystallizer and middle cooler crystallizer, lower cooler crystallizer and middle cooler crystallizer are used to cool down No. two graphite jig sets.The utility model simultaneously cools down No.1 graphite jig set and No. two graphite jig sets using upper cooler crystallizer, middle cooler crystallizer and lower cooler crystallizer, make No.1 graphite jig set consistent with No. two graphite jigs relatively cool speed of set by middle cooler crystallizer, ensure that the copper pipe quality of production is uniform while promoting copper pipe production efficiency.
Description
[technical field]
The utility model relates to a kind of horizontal casting porous graphite crystallizer and its mounting structures, connect for copper alloy bar
The production of continuous casting technique, and in particular to continuous casting working procedure graphite jig and mold structure.
[background technique]
Continuous casting process mold used at present is mostly single hole, diplopore, up to three punch dies, and hauling speed is generally in 40-
30cm/min is not able to satisfy the production requirement of high-volume order.
[utility model content]
A kind of horizontal casting is provided the technical problem to be solved by the utility model is to overcome the deficiencies in the prior art
Porous graphite crystallizer and its mounting structure efficiently produce copper rod to high-volume.
Above-mentioned technical problem is solved, the utility model adopts the following technical solution:
A kind of horizontal casting porous graphite crystallizer, including upper cooler crystallizer, No.1 graphite jig set, middle crystallisation by cooling
Device, No. two graphite jig sets and lower cooler crystallizer, No.1 graphite jig set are located at upper cooler crystallizer and middle crystallisation by cooling
Between device, upper cooler crystallizer and middle cooler crystallizer are used to cool down No.1 graphite jig set, No. two graphite jigs
Between lower cooler crystallizer and middle cooler crystallizer, lower cooler crystallizer and middle cooler crystallizer are used to No. two stones set
Black mold set is cooled down, and No.1 graphite jig, which is put on, offers multiple No.1 mold slots, and all No.1 mold slots are along a straight line
It is laid with, No. two graphite jigs, which are put on, offers multiple No. two mold slots, and all No. two mold slots are laid with along a straight line, all No.1s
Mold slots and all No. two mold slots are mutually parallel, and the quantity of No.1 mold slots is n1, the quantity of No. two mold slots is n2, 5≤
n1≤ 14,5≤n2≤ 14, n1+n2≤20。
The utility model has the following beneficial effects: same using upper cooler crystallizer, middle cooler crystallizer and lower cooler crystallizer
When to No.1 graphite jig set and No. two graphite jig sets cool down, make No.1 graphite jig set by middle cooler crystallizer
It is consistent with No. two graphite jigs relatively cool speed of set, it ensure that the copper pipe quality of production while promoting copper pipe production efficiency
It is uniform.
Upper cooler crystallizer described in the utility model includes upper cooling water inlet, upper cooling water outlet and upper cooling water pipe,
Upper cooling water inlet and upper cooling water outlet are respectively communicated with the both ends of supreme cooling water pipe, and middle cooler crystallizer includes middle cooling water
Entrance, middle cooling water outlet and middle cooling water pipe, middle cooling water inlet and middle cooling water outlet are respectively communicated to middle cooling water pipe
Both ends, lower cooler crystallizer includes lower cooling water inlet, lower cooling water outlet and lower cooling water pipe, lower cooling water inlet and under
Cooling water outlet is respectively communicated to the both ends of lower cooling water pipe, and upper cooling water pipe, middle cooling water pipe and lower cooling water pipe are mutually flat
Row, upper cooling water pipe and middle cooling water pipe are each perpendicular to No.1 mold slots, and lower cooling water pipe and middle cooling water pipe are each perpendicular to two
Number mold slots.
Upper cooling water pipe, middle cooling water pipe and lower cooling water pipe described in the utility model form cooling tube group, upper cooling water
Entrance, middle cooling water outlet and lower cooling water inlet are located at the same side of cooling tube group, upper cooling water outlet, middle cooling water inlet
It is located at the same side of cooling tube group with lower cooling water outlet.
A kind of mounting structure of horizontal casting porous graphite crystallizer, including crystallizer mounting rack and for No.1 mold
The electric furnace that slot and No. two mold slots are heated, upper cooler crystallizer, No.1 graphite jig set, middle cooler crystallizer, No. two stones
Black mold set and lower cooler crystallizer are installed in crystallizer mounting rack, and crystallizer mounting rack is fixed on the wall.
Electric furnace described in the utility model is arranged on wall, and No.1 mold slots and No. two mold slots are penetrated through to electric furnace.
Other features and advantages of the utility model will the detailed exposure in following specific embodiment, attached drawing.
[Detailed description of the invention]
The utility model is described further with reference to the accompanying drawing:
Fig. 1 is schematic diagram of main cross-sectional structure of the utility model embodiment horizontal casting porous graphite crystallizer;
Fig. 2 is that the right of mounting structure of the utility model embodiment horizontal casting porous graphite crystallizer shows depending on sectional structure
It is intended to.
[specific embodiment]
The technical solution of the utility model embodiment is explained below with reference to the attached drawing of the utility model embodiment and
Illustrate, but following embodiments are only the preferred embodiment of the utility model, and not all.Based on the implementation example in the implementation mode,
Those skilled in the art's obtained other embodiments without making creative work, belong to the utility model
Protection scope.
In the following description, occur term "inner", "outside", "upper", "lower", the indicating positions such as "left", "right" or
Positional relationship is to be based on the orientation or positional relationship shown in the drawings, description embodiment merely for convenience and simplified description, and
It is not that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, because
This should not be understood as limiting the present invention.
Embodiment.
Referring to Fig. 1-2.
Present embodiments provide a kind of horizontal casting porous graphite crystallizer, including upper cooler crystallizer 1, No.1 graphite mo(u)ld
Tool set 4,2, No. two graphite jig sets 5 of middle cooler crystallizer and lower cooler crystallizer 3.
Multiple No.1 mold slots 6 are offered on No.1 graphite jig set 4, all No.1 mold slots 6 are laid with along a straight line, and two
Multiple No. two mold slots 7 are offered on number graphite jig set 5, all No. two mold slots 7 are laid with along a straight line, all No.1 molds
Slot 6 and all No. two mold slots 7 are mutually parallel.
No.1 graphite jig set 4 is between upper cooler crystallizer 1 and middle cooler crystallizer 2, and upper cooler crystallizer 1 is in
Cooler crystallizer 2 is used to cool down No.1 graphite jig set 4 and all No.1 mold slots 6, and No. two graphite jigs cover 5
Between lower cooler crystallizer 3 and middle cooler crystallizer 2, lower cooler crystallizer 3 and middle cooler crystallizer 2 are used to No. two stones
Black mold set 5 and all No. two mold slots 7 are cooled down.
Wherein, the quantity of No.1 mold slots 6 is n1, the quantity of No. two mold slots 7 is n2, 5≤n1≤ 14,5≤n2≤ 14, n1
+n2≤20。
Production quantity while increasing copper pipe by multiple No.1 mold slots 6 and multiple No. two mold slots 7, improves copper
The production efficiency of pipe.But excessive No.1 mold slots 6 disposed in parallel will increase cooler crystallizer 1 and middle cooler crystallizer 2
Cooling burden, cause the cooling effect in different No.1 mold slots 6 inhomogenous, so that being produced by different No.1 mold slots 6
Copper pipe quality cannot be guaranteed.Similarly, No. two excessive mold slots 7 equally have the above problem.In addition, hauling speed is at most at this stage
1 times is promoted compared with prior art to 90-60cm/min, and is limited by horizontal casting porous graphite crystallizer size limit itself
System, therefore the sum of No.1 mold slots 6 and No. two mold slots 7 is also necessarily limited, and guarantees No.1 mold slots 6 and No. two molds
The copper pipe quality produced in slot 7 is also stablized same or similar.
Upper cooler crystallizer 1 includes upper cooling water inlet 11, upper cooling water outlet 12 and upper cooling water pipe, and upper cooling water enters
Mouth 11 and upper cooling water outlet 12 are respectively communicated with the both ends of supreme cooling water pipe.
Middle cooler crystallizer 2 includes middle cooling water inlet 21, middle cooling water outlet 22 and middle cooling water pipe, and middle cooling water enters
Mouth 21 and middle cooling water outlet 22 are respectively communicated to the both ends of middle cooling water pipe.
Lower cooler crystallizer 3 includes lower cooling water inlet 31, lower cooling water outlet 32 and lower cooling water pipe, and lower cooling water enters
Mouth 31 and lower cooling water outlet 32 are respectively communicated to the both ends of lower cooling water pipe.
Upper cooling water pipe, middle cooling water pipe and lower cooling water pipe are parallel to each other, and upper cooling water pipe and middle cooling water pipe hang down
Directly in No.1 mold slots 6, upper cooling water pipe, middle cooling water pipe and lower cooling water pipe are along No.1 mold slots 6 and No. two mold slots 7
The setting of laying direction, upper cooling water pipe and middle cooling water pipe can cool down all No.1 mold slots 6, lower cooling water pipe
Be each perpendicular to No. two mold slots 7 with middle cooling water pipe, lower cooling water pipe and middle cooling water pipe can to all No. two mold slots 7 into
Row cooling.
Preferably, upper cooling water pipe, middle cooling water pipe and lower cooling water pipe formation cooling tube group, upper cooling water inlet 11,
Middle cooling water outlet 22 and lower cooling water inlet 31 are located at the same side of cooling tube group, and upper cooling water outlet 12, middle cooling water enter
Mouth 21 and lower cooling water outlet 32 are located at the same side of cooling tube group.Upper cooling water inlet 11 flows into cooling water, cooling water via
Upper cooling water pipe is flowed out from upper cooling water outlet 12, and middle cooling water inlet 21 flows into cooling water, and cooling water is via middle cooling water pipe
Therefrom cooling water outlet 22 flows out, and lower cooling water inlet 31 flows into cooling water, and cooling water is via lower cooling water pipe from lower cooling water
32 outflow of outlet.In upper cooling water pipe in cooling water flow direction and lower cooling water pipe cooling water flow to it is identical, and in upper cooling water pipe
Cooling water flow direction is with cooling water flow direction in middle cooling water pipe on the contrary, make cooling tube group in cooling water flow direction and lower cooling water pipe
The cooling capacity of two sides is close or identical, guarantees that cooling effect is close in different No.1 mold slots 6, No. two different mold slots
Cooling effect is close in 7.
The mounting structure of the present embodiment horizontal casting porous graphite crystallizer includes crystallizer mounting rack 9 and electric furnace 8.
Upper cooler crystallizer 1, No.1 graphite jig set 4,2, No. two graphite jig sets 5 of middle cooler crystallizer and lower cooling
Crystallizer 3 is installed in crystallizer mounting rack 9, and crystallizer mounting rack 9 is fixed on the side of wall 91, so that horizontal connect
Casting porous graphite crystallizer is installed to wall 91, in addition, electric furnace 8 is arranged on the other side of wall 91,6 He of No.1 mold slots
No. two mold slots 7 are connected to electric furnace 8 through wall 91, so that electric furnace 8 carries out No.1 mold slots 6 and No. two mold slots 7
Heating.
Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to
In this, being familiar with the those skilled in the art should be understood that the utility model includes but is not limited to attached drawing and specific embodiment party above
Content described in formula.The modification of any function and structure principle without departing from the utility model is intended to be included in claims
Range in.
Claims (5)
1. a kind of horizontal casting porous graphite crystallizer, it is characterised in that: including upper cooler crystallizer, No.1 graphite jig set,
Middle cooler crystallizer, No. two graphite jigs set and lower cooler crystallizer, No.1 graphite jig set be located at upper cooler crystallizer and
Between middle cooler crystallizer, upper cooler crystallizer and middle cooler crystallizer are used to cool down No.1 graphite jig set, and two
Number graphite jig set between lower cooler crystallizer and middle cooler crystallizer, use by lower cooler crystallizer and middle cooler crystallizer
It is cooled down in No. two graphite jig sets, No.1 graphite jig, which is put on, offers multiple No.1 mold slots, all No.1 molds
Slot is laid with along a straight line, and No. two graphite jigs, which are put on, offers multiple No. two mold slots, and all No. two mold slots are spread along a straight line
If all No.1 mold slots and all No. two mold slots are mutually parallel, the quantity of No.1 mold slots is n1, No. two mold slots
Quantity is n2, 5≤n1≤ 14,5≤n2≤ 14, n1+n2≤20。
2. horizontal casting porous graphite crystallizer according to claim 1, it is characterised in that: the upper cooler crystallizer packet
Cooling water inlet, upper cooling water outlet and upper cooling water pipe are included, upper cooling water inlet and upper cooling water outlet are respectively communicated to
The both ends of upper cooling water pipe, middle cooler crystallizer include middle cooling water inlet, middle cooling water outlet and middle cooling water pipe, middle cooling
Water inlet and middle cooling water outlet are respectively communicated to the both ends of middle cooling water pipe, lower cooler crystallizer include lower cooling water inlet,
Lower cooling water outlet and lower cooling water pipe, lower cooling water inlet and lower cooling water outlet are respectively communicated to the two of lower cooling water pipe
End, upper cooling water pipe, middle cooling water pipe and lower cooling water pipe are parallel to each other, and upper cooling water pipe and middle cooling water pipe are each perpendicular to one
Number mold slots, lower cooling water pipe and middle cooling water pipe are each perpendicular to No. two mold slots.
3. horizontal casting porous graphite crystallizer according to claim 2, it is characterised in that: the upper cooling water pipe, in
Cooling water pipe and lower cooling water pipe form cooling tube group, and upper cooling water inlet, middle cooling water outlet and lower cooling water inlet are located at
The same side of cooling tube group, upper cooling water outlet, middle cooling water inlet and lower cooling water outlet are located at the same side of cooling tube group.
4. a kind of mounting structure of the horizontal casting porous graphite crystallizer as described in claims 1 or 2 or 3, it is characterised in that:
Electric furnace including crystallizer mounting rack and for being heated to No.1 mold slots and No. two mold slots, upper cooler crystallizer, one
Number graphite jig set, middle cooler crystallizer, No. two graphite jigs sets and lower cooler crystallizer are installed in crystallizer mounting rack
Interior, crystallizer mounting rack is fixed on the wall.
5. the mounting structure of horizontal casting porous graphite crystallizer according to claim 4, it is characterised in that: the electric furnace
It is arranged on wall, No.1 mold slots and No. two mold slots are penetrated through to electric furnace.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201821661654.9U CN209424507U (en) | 2018-10-12 | 2018-10-12 | A kind of horizontal casting porous graphite crystallizer and its mounting structure |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201821661654.9U CN209424507U (en) | 2018-10-12 | 2018-10-12 | A kind of horizontal casting porous graphite crystallizer and its mounting structure |
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| Publication Number | Publication Date |
|---|---|
| CN209424507U true CN209424507U (en) | 2019-09-24 |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN111014595A (en) * | 2019-11-29 | 2020-04-17 | 浙江科宇金属材料有限公司 | Continuous casting crystallizer |
| CN112059130A (en) * | 2020-09-09 | 2020-12-11 | 铜陵有色兴铜机电制造有限公司 | Horizontal continuous crystallizer |
-
2018
- 2018-10-12 CN CN201821661654.9U patent/CN209424507U/en active Active
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN111014595A (en) * | 2019-11-29 | 2020-04-17 | 浙江科宇金属材料有限公司 | Continuous casting crystallizer |
| CN112059130A (en) * | 2020-09-09 | 2020-12-11 | 铜陵有色兴铜机电制造有限公司 | Horizontal continuous crystallizer |
| CN112059130B (en) * | 2020-09-09 | 2022-07-12 | 铜陵有色兴铜机电制造有限公司 | Horizontal continuous crystallizer |
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