CN109550909A - The auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold - Google Patents

Abstract

The present invention provides the auxiliary heat conduction devices of Ferrous Metallurgy continuous cast mold, including thermally conductive wing group, Cu and Al combination inner panel and tube seat；The thermally conductive wing group is made of several wing plates, and thermally conductive wing group is integrally wrapped in the outside of square mold just；The said inner tube and outer tube that the thermally conductive wing group is parallel to each other there are two vertically up and down, and the lower end of inner and outer tubes is serially connected.The present invention provides the auxiliary heat conduction devices of Ferrous Metallurgy continuous cast mold, the setting of interior threaded joint in its right angle fixed plate, by being provided with right angle fixed plate downwards on the left end of the inside of thermally conductive wing group and right end, and the top of right angle fixed plate is fixed in thermally conductive wing group by fixing bolt, and interior threaded joint is provided in the upright side walls of right angle fixed plate, facilitate and be hung on thermally conductive wing group on the outer wall of continuous cast mold by bolt, and thermally conductive wing group and continuous cast mold can be formed into even closer combination by right angle fixed plate.

Description

The auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold

Technical field

The present invention relates to Ferrous Metallurgy auxiliary facility technical fields, more specifically, in particular to Ferrous Metallurgy continuous casting knot The auxiliary heat conduction device of brilliant device.

Background technique

Ferrous Metallurgy continuous cast mold is a kind of trough-shaped container, and wall is equipped with collet or device is provided with coiled pipe, to heat Or solution in cooling bath.Crystallization tank can be used as crystallizing evaporator or cooler crystallizer.It, can be in slot to improve crystal production intensity Add blender.Crystallization tank can be used for operating continuously or intermittently operated, and in Ferrous Metallurgy production, crystallizer should meet basic Condition has, and has good thermal conductivity, so that molten steel rapid condensation shapes.

The technology analysis of the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold is found by technical staff, continuous casting crystallining There is the mode that the cooling mode of collet cools down, and collet is relied on to cool down that often depends upon in device, cooling extent is limited, it is difficult to full The high temperature demands of sufficient Ferrous Metallurgy.

Therefore, the auxiliary heat conduction device of existing continuous cast mold all exists: heat-conducting mode is single, and cooling extent is limited, Temperature fall time is difficult to the problems such as continuing.

Summary of the invention

(1) technical problem

In conclusion the present invention provides the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold, pass through structure and functionality Improvement, single to solve heat-conducting mode, cooling extent is limited, and temperature fall time is difficult to lasting problem.

(2) technical solution

The present invention provides the auxiliary heat conduction devices of Ferrous Metallurgy continuous cast mold, for Ferrous Metallurgy continuous cast mold Auxiliary heat conduction device carry out technological innovation, in the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold provided by the invention, Specifically include: thermally conductive wing group, further groove, end groove, intrusion slot, fixed plate, water conservancy diversion turbine, Cu and Al combination outside plate, right angle are fixed Plate, interior threaded joint, inner tube, outer tube, micromotor, heat-dissipating impeller, water inlet pipe, outlet pipe, Cu and Al combination inner panel and tube seat；It is described Thermally conductive wing group is made of several wing plates, and thermally conductive wing group is integrally wrapped in the outside of square mold just；The thermally conductive wing group The vertical said inner tube being parallel to each other there are two and outer tube up and down, and the lower end of inner and outer tubes is serially connected；It is described outer Two connectivity ports of pipe are respectively water inlet pipe and outlet pipe；It is solid in the intrusion slot opened up in the middle part of the front side wall of the thermally conductive wing group Surely it is inlaid with the rectangular-shaped Cu and Al combination inner panel；Fixed plate is then fixedly welded on the outer wall of the Cu and Al combination inner panel.

Preferably, it is provided with right angle fixed plate, and right angle downwards on the left end of the inside of the thermally conductive wing group and right end The top of fixed plate is fixed in thermally conductive wing group by fixing bolt, and interior spiral shell is provided in the upright side walls of right angle fixed plate Interface；

Preferably, it is fixedly installed micromotor on four angles of the fixed plate, and in the rotation axis of micromotor It is rotatably connected to heat-dissipating impeller, heat-dissipating impeller is the structure of three leaf integrateds；

Preferably, Cu and Al combination outside plate, Cu and Al combination outside plate are fixedly installed in the middle part of the outer end side wall of the fixed plate It is connected with the Cu and Al combination inner panel on the inside of fixed plate, and the middle part of Cu and Al combination outside plate is rotatably connected to water conservancy diversion whirlpool by shaft Wheel, the outer end of water conservancy diversion turbine and the inner end flush of heat-dissipating impeller；

Preferably, the further groove of indent, and the location of further groove are offered in the middle part of the thermally conductive wing group outer end vertically Just in the middle part of corresponding Cu and Al combination inner panel；

Preferably, said inner tube is located exactly at the both ends on the inside of thermally conductive wing group, and outer tube is then located on the outside of thermally conductive wing group Middle part；

Preferably, the lower end of the outer tube of the lower end with left end of the said inner tube of left end is connected by bend pipe, and right The lower end of the said inner tube at end is connected with the lower end of the outer tube of right end by bend pipe, in addition, the upper end of outer tube is then and separately Outer tube in one thermally conductive wing group is connected, and forms the structure being sequentially connected in series；

Preferably, the left end of the thermally conductive wing group and right end offer the end groove being recessed backward.

(3) beneficial effect

The present invention provides the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold, interior threaded joint in right angle fixed plate Setting, by being provided with right angle fixed plate, and the top of right angle fixed plate downwards on the left end of the inside of thermally conductive wing group and right end Portion is fixed in thermally conductive wing group by fixing bolt, and interior threaded joint is provided in the upright side walls of right angle fixed plate, convenient Thermally conductive wing group is hung on the outer wall of continuous cast mold by bolt, and can by right angle fixed plate by thermally conductive wing group with Continuous cast mold forms even closer combination.

The present invention provides the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold, the setting of inner and outer tubes passes through Inner tube is located exactly at the both ends on the inside of thermally conductive wing group, and outer tube is then located at the middle part on the outside of thermally conductive wing group, increases transfer path, mentions High heat exchange efficiency, and the lower end of the inner tube of left end is connected with the lower end of the outer tube of left end by bend pipe, and the inner tube of right end Lower end be connected with the lower end of the outer tube of right end by bend pipe, in addition, the upper end of outer tube is then and in another thermally conductive wing group Outer tube is connected, and forms the structure being sequentially connected in series, and outer tube concentrates on the position of water conservancy diversion turbine, so that entire auxiliary heat conduction device exists During by water cooling, the temperature of the medium in inner and outer tubes can be reduced to greatest extent.

The present invention provides the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold, water conservancy diversion turbine and heat-dissipating impeller are set It sets, by being fixedly installed micromotor on four angles of fixed plate, and is rotatably connected in the rotation axis of micromotor scattered Hot impeller, heat-dissipating impeller are the structure of three leaf integrateds, by micromotor and heat-dissipating impeller fixed plate quadrangle formed to Outer spiral air flow, quickening is thermally conductive, and is fixedly installed Cu and Al combination outside plate, copper aluminium knot in the middle part of the outer end side wall of fixed plate Outside plate is closed to be connected with the Cu and Al combination inner panel on the inside of fixed plate, and the middle part of Cu and Al combination outside plate is rotatably connected to by shaft Water conservancy diversion turbine, the outer end of water conservancy diversion turbine and the inner end flush of heat-dissipating impeller, on the one hand, water conservancy diversion turbine can rely on itself Structure is quickly thermally conductive outward, and on the other hand, water conservancy diversion turbine can carry out rotation heat dissipation under the action of heat-dissipating impeller again.

Detailed description of the invention

Fig. 1 is that the right front axis in the embodiment of the present invention regards structural schematic diagram；

Fig. 2 is amplifier section structural schematic diagram in Fig. 1 in the embodiment of the present invention；

Fig. 3 is the schematic view of the front view in the embodiment of the present invention；

Fig. 4 is the overlooking structure diagram in the embodiment of the present invention；

Fig. 5 is the present invention looks up structural representation in the embodiment of the present invention；

Fig. 6 is that the thermally conductive wing group single group axis in the embodiment of the present invention regards structural schematic diagram；

Fig. 7 is that the fixed plate and thermally conductive wing group partially disassembled state front axle in the embodiment of the present invention regard structural schematic diagram；

Fig. 8 is that the fixed plate and thermally conductive wing group partially disassembled state rear axle in the embodiment of the present invention regard structural schematic diagram；

In Fig. 1 into Fig. 8, the corresponding relationship of component names or lines and accompanying drawing number are as follows:

The thermally conductive wing group of 1-, 101- further groove, the end 102- groove, 103- intrusion slot, 2- fixed plate, 3- water conservancy diversion turbine, 4- copper Aluminium combination outside plate, the right angle 5- fixed plate, threaded joint in 501-, 6- inner tube, 7- outer tube, 8- micromotor, 9- heat-dissipating impeller, 10- Water inlet pipe, 11- outlet pipe, 12- Cu and Al combination inner panel, 1201- tube seat.

Specific embodiment

Embodiments of the present invention are described in further detail with reference to the accompanying drawings and examples.Following embodiment is used for Illustrate the present invention, but cannot be used to limit the scope of the invention.

In the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or more；Term " on ", The orientation or positional relationship of the instructions such as "lower", "left", "right", "inner", "outside", " front end ", " rear end ", " head ", " tail portion " is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of description of the present invention and simplification of the description, rather than instruction or dark Show that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as pair Limitation of the invention.In addition, term " first ", " second ", " third " etc. are used for description purposes only, and should not be understood as instruction or Imply relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " connected " " connects Connect " it shall be understood in a broad sense, for example, it may be being fixedly connected, it may be a detachable connection, or be integrally connected；It can be machine Tool connection, is also possible to be electrically connected；It can be directly connected, it can also be indirectly connected through an intermediary.For this field For those of ordinary skill, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.

Fig. 1 is please referred to Fig. 8.

It is single in order to solve heat-conducting mode existing for the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold in the prior art, Cooling extent is limited, and temperature fall time is difficult to lasting problem, and the invention proposes the auxiliary heat conductions of Ferrous Metallurgy continuous cast mold Device carries out technological innovation for the auxiliary heat conduction device to Ferrous Metallurgy continuous cast mold, comprising: thermally conductive wing group 1, further groove 101, groove 102, intrusion slot 103, fixed plate 2, water conservancy diversion turbine 3, Cu and Al combination outside plate 4, right angle fixed plate 5, interior threaded joint are held 501, inner tube 6, outer tube 7, micromotor 8, heat-dissipating impeller 9, water inlet pipe 10, outlet pipe 11, Cu and Al combination inner panel 12 and tube seat 1201；Thermally conductive wing group 1 is made of several wing plates, and the whole outside for being wrapped in square mold just of thermally conductive wing group 1；Thermally conductive wing The inner tube 6 and outer tube 7 that about 1 group is parallel to each other there are two vertically, and the lower end of inner tube 6 and outer tube 7 is serially connected；Outer tube 7 two connectivity ports are respectively water inlet pipe 10 and outlet pipe 11；The intrusion slot 103 opened up in the middle part of the front side wall of thermally conductive wing group 1 Middle fixation is inlaid with rectangular-shaped Cu and Al combination inner panel 12；Fixed plate 2 is then fixedly welded on the outer wall of Cu and Al combination inner panel 12.

Wherein, it is provided with right angle fixed plate 5 downwards on the left end of the inside of thermally conductive wing group 1 and right end, and right angle is fixed The top of plate 5 is fixed in thermally conductive wing group 1 by fixing bolt, and interior spiral shell is provided in the upright side walls of right angle fixed plate 5 Interface 501 facilitates and is hung on thermally conductive wing group 1 on the outer wall of continuous cast mold by bolt, and can be fixed by right angle Thermally conductive wing group 1 and continuous cast mold are formed even closer combination by plate 5；

Wherein, it is fixedly installed micromotor 8 on four angles of fixed plate 2, and is rotated in the rotation axis of micromotor 8 It is connected with heat-dissipating impeller 9, heat-dissipating impeller 9 is the structure of three leaf integrateds, by micromotor 8 and heat-dissipating impeller 9 in fixation 2 four jiaos of plate form outside spiral air flow, accelerate thermally conductive；

Wherein, it is fixedly installed Cu and Al combination outside plate 4 in the middle part of the outer end side wall of fixed plate 2, Cu and Al combination outside plate 4 and solid The Cu and Al combination inner panel 12 of 2 inside of fixed board is connected, and the middle part of Cu and Al combination outside plate 4 is rotatably connected to water conservancy diversion whirlpool by shaft Wheel 3, the outer end of water conservancy diversion turbine 3 and the inner end flush of heat-dissipating impeller 9, on the one hand, water conservancy diversion turbine 3 can rely on the knot of itself Structure is quickly thermally conductive outward, and on the other hand, water conservancy diversion turbine 3 can carry out rotation heat dissipation under the action of heat-dissipating impeller 9 again；

Wherein, the further groove 101 of indent, and the location of further groove 101 are offered in the middle part of thermally conductive 1 outer end of wing group vertically Just corresponding 12 middle part of Cu and Al combination inner panel, forms inner space, carries out outside hot-air in rotary course convenient for water conservancy diversion turbine 3 It leads；

Wherein, inner tube 6 is located exactly at the both ends of thermally conductive 1 inside of wing group, and outer tube 7 is then located in thermally conductive 1 outside of wing group Portion increases transfer path, improves heat exchange efficiency；

Wherein, the lower end of the outer tube 7 of the lower end and left end of the inner tube 6 of left end is connected by bend pipe, and the inner tube 6 of right end Lower end be connected with the lower end of the outer tube 7 of right end by bend pipe, in addition, the upper end of outer tube 7 is then and in another thermally conductive wing group 1 Outer tube 7 be connected, form the structure being sequentially connected in series, outer tube 7 concentrates on the position of water conservancy diversion turbine 3, so that entire auxiliary heat conduction Device can reduce the temperature of inner tube 6 and the medium in outer tube 7 during passing through water cooling to greatest extent；

Wherein, the left end of thermally conductive wing group 1 and right end offer the end groove 102 being recessed backward, so that in thermally conductive wing group 1 The heat at end can be converged to external middle-end, formed and oriented thermally conductive purpose.

The specifically used mode and effect of the present embodiment: in the use of the present invention, by being spirally connected in thermally conductive 1 inner end of wing group Mouth 501 is mounted on the outer wall of continuous cast mold, and it is solid to be provided with right angle on the left end of the inside of thermally conductive wing group 1 and right end downwards Fixed board 5, and the top of right angle fixed plate 5 is fixed in thermally conductive wing group 1 by fixing bolt, and the vertical side of right angle fixed plate 5 It is provided with interior threaded joint 501 again on wall, facilitates and is hung on thermally conductive wing group 1 on the outer wall of continuous cast mold by bolt, and Thermally conductive wing group 1 and continuous cast mold can be formed into even closer combination by right angle fixed plate 5, and by external cooling Medium connecting tube is connected with water inlet pipe 10 and outlet pipe 11, the lower end of the outer tube 7 of the lower end and left end of the inner tube 6 of left end It is connected by bend pipe, and the lower end of the inner tube 6 of right end is connected with the lower end of the outer tube 7 of right end by bend pipe, in addition, outer tube 7 upper end is then connected with the outer tube 7 in another thermally conductive wing group 1, forms the structure being sequentially connected in series, and outer tube 7 concentrates on water conservancy diversion The position of turbine 3, so that entire auxiliary heat conduction device during passing through water cooling, can reduce inner tube 6 and outer to greatest extent The temperature of medium in pipe 7 opens micromotor 8, so that heat-dissipating impeller 9 is rotated, it is fixed on four angles of fixed plate 2 It is provided with micromotor 8, and is rotatably connected to heat-dissipating impeller 9 in the rotation axis of micromotor 8, heat-dissipating impeller 9 is three leaves one The structure of body shape forms outside spiral air flow at 2 four jiaos of fixed plate by micromotor 8 and heat-dissipating impeller 9, accelerates thermally conductive.

The embodiment of the present invention is given for the purpose of illustration and description, and is not exhaustively or by this to send out It is bright to be limited to disclosed form.Many modifications and variations are obvious for the ordinary skill in the art.Choosing Selecting and describe embodiment is and to make those skilled in the art to more preferably illustrate the principle of the present invention and practical application It will be appreciated that the present invention is to design various embodiments suitable for specific applications with various modifications.

Claims (8)

1. the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold, for the auxiliary heat conduction device to Ferrous Metallurgy continuous cast mold Carry out technological innovation characterized by comprising thermally conductive wing group (1), further groove (101), end groove (102), intrusion slot (103), It is fixed plate (2), water conservancy diversion turbine (3), Cu and Al combination outside plate (4), right angle fixed plate (5), interior threaded joint (501), inner tube (6), outer Manage (7), micromotor (8), heat-dissipating impeller (9), water inlet pipe (10), outlet pipe (11), Cu and Al combination inner panel (12) and tube seat (1201)；The thermally conductive wing group (1) is made of several wing plates, and thermally conductive wing group (1) is integrally wrapped in square mold just It is external；The thermally conductive wing group (1) the vertical said inner tube (6) being parallel to each other there are two and outer tube (7), and inner tube up and down (6) it is serially connected with the lower end of outer tube (7)；Two connectivity ports of the outer tube (7) are respectively water inlet pipe (10) and outlet pipe (11)；Fixation is inlaid with the rectangular-shaped copper aluminium in the intrusion slot (103) opened up in the middle part of the front side wall of the thermally conductive wing group (1) In conjunction with inner panel (12)；Fixed plate (2) are then fixedly welded on the outer wall of the Cu and Al combination inner panel (12).

2. the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold according to claim 1, which is characterized in that described thermally conductive It is provided with downwards on the left end of the inside of wing group (1) and right end right angle fixed plate (5), and the top of right angle fixed plate (5) is logical It crosses fixing bolt to be fixed on thermally conductive wing group (1), and is provided with interior threaded joint in the upright side walls of right angle fixed plate (5) (501)。

3. the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold according to claim 1, which is characterized in that the fixation It is fixedly installed micromotor (8) on four angles of plate (2), and is rotatably connected to heat dissipation in the rotation axis of micromotor (8) Impeller (9), heat-dissipating impeller (9) are the structure of three leaf integrateds.

4. the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold according to claim 1, which is characterized in that the fixation It is fixedly installed Cu and Al combination outside plate (4) in the middle part of the outer end side wall of plate (2), on the inside of Cu and Al combination outside plate (4) and fixed plate (2) Cu and Al combination inner panel (12) be connected, and the middle part of Cu and Al combination outside plate (4) is rotatably connected to water conservancy diversion turbine by shaft (3), the inner end flush of the outer end of water conservancy diversion turbine (3) and heat-dissipating impeller (9).

5. the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold according to claim 1, which is characterized in that described thermally conductive The further groove (101) of indent is offered in the middle part of wing group (1) outer end vertically, and the location of further groove (101) corresponds to copper just In the middle part of aluminium combination inner panel (12).

6. the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold according to claim 1, which is characterized in that said inner tube (6) both ends on the inside of thermally conductive wing group (1) are located exactly at, and outer tube (7) is then located at the middle part on the outside of thermally conductive wing group (1).

7. the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold according to claim 1, which is characterized in that the institute of left end The lower end for stating the lower end of inner tube (6) and the outer tube (7) of left end is connected by bend pipe, and the said inner tube (6) of right end Lower end is connected with the lower end of the outer tube (7) of right end by bend pipe, in addition, the upper end of outer tube (7) is then thermally conductive with another Outer tube (7) in wing group (1) is connected, and forms the structure being sequentially connected in series.

8. the auxiliary heat conduction device of Ferrous Metallurgy continuous cast mold according to claim 1, which is characterized in that described thermally conductive The left end of wing group (1) and right end offer the end groove (102) being recessed backward.