CN207936101U - A kind of reliable clinker transfer device - Google Patents
A kind of reliable clinker transfer device Download PDFInfo
- Publication number
- CN207936101U CN207936101U CN201820263094.5U CN201820263094U CN207936101U CN 207936101 U CN207936101 U CN 207936101U CN 201820263094 U CN201820263094 U CN 201820263094U CN 207936101 U CN207936101 U CN 207936101U
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- Prior art keywords
- heat bulge
- cooling chamber
- clinker
- reliable
- transfer device
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Abstract
The utility model is related to field of metallurgical equipment, and in particular to a kind of reliable clinker transfer device.A kind of reliable clinker transfer device, it is characterized in that, including upper cover, transhipment disk and cooler pan, upper cover is moveably positioned at stockhole, and upper cover, transhipment disk and cooler pan are sequentially arranged from top to bottom, and transhipment disk includes side shield and bottom plate, side shield forms vessel around bottom plate, lifting lug is fixed on side shield, cooler pan includes water inlet, water outlet and cooling chamber, and water inlet, water outlet are connected to cooling chamber.The utility model has the beneficial effects that:Cooling effect can be improved by the way of water cooling, and cooling device only needs one, reduces cost, improve the safety of clinker transhipment.
Description
Technical field
The utility model is related to field of metallurgical equipment, and in particular to a kind of reliable clinker transfer device.
Background technology
Copper metal is widely used in industrial production, electric system and electromechanical equipment, and the smelting of copper is concerning national economy
Pillar industry, it is to promote the vital task of China's economic development to promote the development in Copper making field.In copper metal fusion process
In, since furnace lining, tool, various refining agents and additive etc. can be in contact with copper melts, cause to generate a large amount of stove in smelting furnace
Slag.These clinkers needs are cleared up away from smelting furnace in time, otherwise can lead to contaminant overstandard in product.During scarfing cinder, lead to
Frequently with furnace slag disk as the transfer tool for holding clinker and transport clinker.When needing to skim, furnace slag disk is put
It sets in stockhole, then the clinker in furnace body is taken off on furnace slag disk, finally transports furnace slag disk, to clear up in stove
Clinker.Existing furnace slag disk is generally directly served as using the steel plate for being welded with suspension hook, is existed centainly in transport process
Security risk, and service life is shorter.
104596296 B of Chinese patent CN, publication date on June 9th, 2017, a kind of safe and reliable smelting furnace clinker transhipment
Device, including:Pallet and baffle, baffle connect to form container with pallet, and baffle is equipped with the lifting hole(eyelet) for lifting transhipment;Pallet
Including top tray and lower tray, top tray is located at the top of lower tray, and the bottom surface of top tray is equipped with air inlet coil pipe, air inlet coil pipe
Air inlet is connect with the outlet of cycle air-cooling system, and the gas outlet of air inlet coil pipe is connect with the import of cycle air-cooling system;Air inlet
Coil pipe includes straight tube and the bend pipe for connecting adjacent two straight tubes, and ventilation shaft is equipped between adjacent two straight tubes;Ventilation
Pipeline is respectively parallel to top tray and lower tray, and ventilation shaft is fixed with top tray and lower tray respectively, the both ends of ventilation shaft
It is formed through ventilating duct.The present invention is safe and reliable and service life is long.Cooling device is carried on its pallet, makes support holder structure excessively
Complexity, equipment and maintenance cost are high, and the thermal capacitance of gas is relatively low, and cooling effect is limited.
Utility model content
The technical problems to be solved in the utility model is:The transfer device of clinker is hidden in the presence of safety during Copper making at present
The problem that trouble and service life are not grown.Propose a kind of clinker transhipment dress of the longer life expectancy for preventing clinker from toppling over cooling equipment
It sets.
In order to solve the above technical problems, technical solution adopted in the utility model is:A kind of reliable clinker transhipment dress
It sets, including upper cover, transhipment disk and cooler pan, the upper cover are moveably positioned at stockhole, the upper cover, transhipment disk and cooler pan
It is sequentially arranged from top to bottom, the transhipment disk includes side shield and bottom plate, and side shield is solid on bottom plate formation vessel, side shield
Surely it includes water inlet, water outlet and cooling chamber to have lifting lug, cooler pan, and the water inlet, water outlet are connected to cooling chamber.Upper cover has
There is protective effect, the operative employee to skim can be protected not scalded by the clinker of high temperature, there is transhipment disk side wall can prevent from transporting
Disk clinker when tilting is poured out, and cooler pan can timely cool down the high temperature furnace slag in transhipment disk, transport hanging on disk
Ear can facilitate lifting machine integrally to carry the clinker for transporting disk and its interior loading.
Preferably, the upper cover includes clinker entrance, slanting baffle, side wall and switching mechanism, the slanting baffle and clinker
Entrance is fixed on sidewall upper, and switching mechanism includes two connecting rods and two pairs of struts, and described two connecting rod one end are respectively hinged at
Side wall both sides, described two connecting rod other ends are hinged on furnace wall, and two pairs of struts are fixed on rear side of side wall, before the side wall
Side is fixed with handle, and described slanting baffle one end is fixedly connected with upper end on front side of side wall, and slanting baffle tilts upwards, the slanting baffle other end
It is connect with clinker entrance, slanting baffle both sides are fixedly connected with side wall both sides.Upper lid is above carried by handle, upper cover can be made and turned
Disk separation is transported, facilitate the transfer of transhipment disk, and new transhipment disk is put into.
Preferably, the inlet and outlet are located at cooling chamber both sides, the cooling chamber upper wall is arranged with item
Shape heat bulge, the heat bulge bottom are fixed on cooling chamber upper wall, and heat bulge is extended downwardly then to the left and right by bottom
Bifurcated forms the heat bulge that cross section is Y shape.It can increase heat exchange area by heat bulge, accelerate radiating efficiency.
Preferably, the transhipment pan bottom is arranged with the notch of left and right perforation, the notch cross section is triangle, institute
It is flapper to state side shield left or right side.Flapper facilitate by contain into clinker pour.
Preferably, the inlet and outlet are located at cooling chamber both sides, the cooling chamber upper wall is arranged with item
Shape heat bulge, the heat bulge bottom are fixed on cooling chamber upper wall, and heat bulge is extended downwardly then to the left and right by bottom
Bifurcated forms the heat bulge that cross section is Y shape;Thickness reduces while the heat bulge bottom extends downwardly.Heat is by convex
It is incoming to play bottom, raised bottom extends downwardly thickness and becomes smaller, and is conducive to bottom and absorbs more heats, and side is made to become oblique
Face increases the contact area of side, reduces resistance of the protrusion to flow.
The substantial effect of the utility model is:Cooling effect, and cooling device can be improved by the way of water cooling
One is only needed, cost is reduced, improves the safety of clinker transhipment.
Description of the drawings
Fig. 1 is clinker transfer device structure chart.
Fig. 2 is clinker transfer device sectional view.
Fig. 3 is second embodiment of heat bulge.
Wherein:1, upper cover, 2, handle, 3, lifting lug, 4, transhipment disk, 5, cooler pan, 6, stockhole, 7, connecting rod, 8, strut, 9,
Cooling chamber, 10, slanting baffle, 11, clinker entrance, 12, side wall, 13, heat bulge, 14, Y shape heat bulge.
Specific implementation mode
Below by specific embodiment, and in conjunction with attached drawing, specific embodiment of the present utility model is made further specific
Explanation.
As shown in Figure 1, being clinker transfer device structure chart, clinker transfer device includes upper cover 1, transhipment disk 4 and cooler pan
5, upper cover 1 is moveably positioned at stockhole 6, and upper cover 1, transhipment disk 4 and cooler pan 5 are sequentially arranged from top to bottom, and transhipment disk 4 includes
Side shield and bottom plate, side shield form vessel around bottom plate, and lifting lug 3 is fixed on side shield, and cooler pan 5 includes water inlet, goes out
The mouth of a river and cooling chamber 9, water inlet, water outlet are connected to cooling chamber 9.Upper cover 1 has protective effect, can protect the operation skimmed
Work is not scalded by the clinker of high temperature, and there is transhipment disk 4 side wall can prevent transhipment disk 4 clinker when tilting from pouring out, 5 energy of cooler pan
Enough high temperature furnace slags in transhipment disk 4 are timely cooled down, and the lifting lug 3 transported on disk 4 can facilitate lifting machine integrally to carry
Transport the clinker of disk 4 and its interior loading.
As shown in Fig. 2, being clinker transfer device sectional view, upper cover 1 includes clinker entrance 11, slanting baffle 10,12 and of side wall
Switching mechanism, slanting baffle 10 and clinker entrance 11 are fixed on 12 upper end of side wall, and switching mechanism includes two connecting rods 7 and two pairs of struts
8, two 7 one end of connecting rod are respectively hinged at 12 both sides of side wall, and two 7 other ends of connecting rod are hinged on furnace wall, and two pairs of struts 8 are fixed
In 12 rear side of side wall, 12 front side of side wall is fixed with handle 2, and 10 one end of slanting baffle is fixedly connected with 12 front side upper end of side wall, is tiltedly kept off
Plate 10 tilts upwards, and 10 other end of slanting baffle is connect with clinker entrance 11, and 10 both sides of slanting baffle are fixedly connected with 12 both sides of side wall.
Upper cover 1 is above carried by handle 2, upper cover 1 and transhipment disk 4 can be made to detach, facilitate the transfer of transhipment disk 4 and new transhipment disk 4
Be put into.Inlet and outlet are located at 9 both sides of cooling chamber, and 9 upper wall of cooling chamber is arranged with strip heat bulge 13, heat bulge
13 bottoms are fixed on 9 upper wall of cooling chamber, and heat bulge 13 is downwardly extending the protrusion that cross section is triangle by bottom.Pass through
Heat bulge 13 can increase heat exchange area, accelerate radiating efficiency.
As the embodiment of recommendation, 4 bottom of transhipment disk is arranged with the notch of left and right perforation, and notch cross section is triangle,
Side shield left or right side is flapper.The notch of bottom can increase heat transfer area, accelerate cooling of furnace slag, flapper side
Just by transport disk 4 contain into clinker pour.
As shown in figure 3, for second embodiment of heat bulge, inlet and outlet are located at 9 both sides of cooling chamber,
9 upper wall of cooling chamber is arranged with Y shape heat bulge 14, and 14 bottom of Y shape heat bulge is fixed on 9 upper wall of cooling chamber, Y shape heat bulge
14 extend downwardly then bifurcated to the left and right by bottom forms the Y shape heat bulge 14 that cross section is Y shape;14 bottom of Y shape heat bulge
Thickness reduces while portion extends downwardly.Heat is passed to by raised bottom, and raised bottom extends downwardly thickness and becomes smaller, and is conducive to bottom
Portion absorbs more heats, and side is made to become inclined-plane, increases the contact area of side, reduces resistance of the protrusion to flow.
Embodiment described above is a kind of preferable scheme of the utility model, is not made to the utility model any
Formal limitation, on the premise of not exceeding the technical scheme recorded in the claims also other variations and modifications.
Claims (9)
1. a kind of reliable clinker transfer device, which is characterized in that
It is moveably positioned at stockhole including upper cover, transhipment disk and cooler pan, the upper cover, the upper cover, transhipment disk and cooling
Disk is sequentially arranged from top to bottom, and the transhipment disk includes side shield and bottom plate, and side shield is on bottom plate formation vessel, side shield
It is fixed with lifting lug, cooler pan includes water inlet, water outlet and cooling chamber, and the water inlet, water outlet are connected to cooling chamber.
2. a kind of reliable clinker transfer device according to claim 1, which is characterized in that
The upper cover includes clinker entrance, slanting baffle, side wall and switching mechanism, and the slanting baffle and clinker entrance are fixed on side wall
Upper end, switching mechanism include two connecting rods and two pairs of struts, and described two connecting rod one end are respectively hinged at side wall both sides, and described two
A connecting rod other end is hinged on furnace wall, and two pairs of struts are fixed on rear side of side wall, is fixed with handle on front side of the side wall, institute
Slanting baffle one end to be stated to be fixedly connected with upper end on front side of side wall, slanting baffle tilts upwards, and the slanting baffle other end is connect with clinker entrance,
Slanting baffle both sides are fixedly connected with side wall both sides.
3. a kind of reliable clinker transfer device according to claim 1 or 2, which is characterized in that
The inlet and outlet are located at cooling chamber both sides, and the cooling chamber upper wall is arranged with strip heat bulge, institute
It states heat bulge bottom and is fixed on cooling chamber upper wall, heat bulge is extended downwardly then that bifurcated forms cross section to the left and right by bottom
For the heat bulge of Y shape.
4. a kind of reliable clinker transfer device according to claim 1 or 2, which is characterized in that
The transhipment pan bottom is arranged with the notch of left and right perforation, and the notch cross section is triangle, the side shield left side
Or right side is flapper.
5. a kind of reliable clinker transfer device according to claim 3, which is characterized in that
The transhipment pan bottom is arranged with the notch of left and right perforation, and the notch cross section is triangle, the side shield left side
Or right side is flapper.
6. a kind of reliable clinker transfer device according to claim 1 or 2, which is characterized in that
The inlet and outlet are located at cooling chamber both sides, and the cooling chamber upper wall is arranged with strip heat bulge, institute
It states heat bulge bottom and is fixed on cooling chamber upper wall, heat bulge is extended downwardly then that bifurcated forms cross section to the left and right by bottom
For the heat bulge of Y shape;
Thickness reduces while the heat bulge bottom extends downwardly.
7. a kind of reliable clinker transfer device according to claim 3, which is characterized in that
The inlet and outlet are located at cooling chamber both sides, and the cooling chamber upper wall is arranged with strip heat bulge, institute
It states heat bulge bottom and is fixed on cooling chamber upper wall, heat bulge is extended downwardly then that bifurcated forms cross section to the left and right by bottom
For the heat bulge of Y shape;
Thickness reduces while the heat bulge bottom extends downwardly.
8. a kind of reliable clinker transfer device according to claim 4, which is characterized in that
The inlet and outlet are located at cooling chamber both sides, and the cooling chamber upper wall is arranged with strip heat bulge, institute
It states heat bulge bottom and is fixed on cooling chamber upper wall, heat bulge is extended downwardly then that bifurcated forms cross section to the left and right by bottom
For the heat bulge of Y shape;
Thickness reduces while the heat bulge bottom extends downwardly.
9. a kind of reliable clinker transfer device according to claim 5, which is characterized in that
The inlet and outlet are located at cooling chamber both sides, and the cooling chamber upper wall is arranged with strip heat bulge, institute
It states heat bulge bottom and is fixed on cooling chamber upper wall, heat bulge is extended downwardly then that bifurcated forms cross section to the left and right by bottom
For the heat bulge of Y shape;
Thickness reduces while the heat bulge bottom extends downwardly.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820263094.5U CN207936101U (en) | 2018-02-23 | 2018-02-23 | A kind of reliable clinker transfer device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820263094.5U CN207936101U (en) | 2018-02-23 | 2018-02-23 | A kind of reliable clinker transfer device |
Publications (1)
Publication Number | Publication Date |
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CN207936101U true CN207936101U (en) | 2018-10-02 |
Family
ID=63652966
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201820263094.5U Expired - Fee Related CN207936101U (en) | 2018-02-23 | 2018-02-23 | A kind of reliable clinker transfer device |
Country Status (1)
Country | Link |
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CN (1) | CN207936101U (en) |
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2018
- 2018-02-23 CN CN201820263094.5U patent/CN207936101U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20181002 Termination date: 20190223 |