CN216745395U - Sintering furnace and leaked liquid collecting device thereof - Google Patents

Abstract

The utility model relates to a technical field of fritting furnace equipment discloses a fritting furnace and weeping collection device thereof, including connecting the body, the both ends of connecting the body are equipped with respectively and are used for the heating furnace interface with heating furnace pipeline intercommunication and be used for the water-cooling furnace interface with water-cooling furnace pipeline way intercommunication, the internal feeding chamber that communicates with heating furnace interface and water-cooling furnace interface that is equipped with respectively of connecting, the feeding chamber is located between heating furnace interface and the water-cooling furnace interface, the below of connecting the body is connected with and connects the material jar, the decurrent connector of opening has been seted up to the pipe wall of connecting the body, the feeding chamber passes through the connector and connects the material jar intercommunication, connect the material jar to install the heater. The utility model discloses a fritting furnace and weeping collection device thereof collects the weeping of layer board periphery, guarantees that production normally lasts and goes on.

Description

Sintering furnace and leaked liquid collecting device thereof

Technical Field

The utility model relates to a technical field of fritting furnace equipment especially relates to a fritting furnace and weeping collection device thereof.

Background

The pusher sintering furnace is provided with a front section of furnace tube and a rear section of furnace tube, the front section of furnace tube is provided with a heating device for heating at high temperature for reducing products, the rear end of furnace tube is provided with a water cooling device for cooling and forming the reduced products, material trays are arranged in a whole row in the furnace tube, the material trays are filled with the products, the pusher sintering furnace is not provided with a sliding structure, the whole row of material trays forwards drive the material trays at the tail part by a hydraulic cylinder, the products possibly have products leaking out of the material trays in the heating reaction process of the front section of furnace tube, when the material trays with leakage push the rear end of furnace tube, the leakage is cooled and condensed into solid, the leakage amount is small, the sliding friction force is increased at the bottom of the material trays by bonding, the material trays are more easily extruded and deformed, the material trays and the furnace tube walls are bonded together by the large leakage amount, the whole row of material trays are blocked in the furnace tube, the subsequent treatment is very troublesome, and the production progress is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: the utility model provides a fritting furnace and weeping collection device thereof collects the weeping of layer board periphery, guarantees that production normally lasts and goes on.

In order to realize the above-mentioned purpose, the utility model provides a weeping collection device of fritting furnace, including connecting the body, the both ends of connecting the body be equipped with respectively be used for with the heating furnace interface of heating furnace pipeline intercommunication and be used for with the water-cooling furnace interface of water-cooling furnace pipeline intercommunication, the connecting is internal be equipped with respectively with the heating furnace interface with the feeding chamber of water-cooling furnace interface intercommunication, the feeding chamber is located the heating furnace interface with between the water-cooling furnace interface, the below of connecting the body is connected with and connects the material jar, the decurrent connector of opening has been seted up to the pipe wall of connecting the body, the feeding chamber passes through the connector and connects the material jar intercommunication, connect the material jar to install the heater.

As a preferred scheme, a material receiving through groove is formed in the bottom of the heating furnace connector, and one end of the material receiving through groove is communicated with the connecting port.

Preferably, a sealing gasket is arranged between the upper port of the material receiving tank and the connecting port, and the shape of the sealing gasket is matched with the peripheral shape of the upper port.

Preferably, the heater is positioned on the outer wall of the material receiving tank.

Preferably, the heaters are respectively installed on the opposite outer side surfaces of the material receiving tank.

As the preferred scheme, connect the relative lateral surface of material jar and install heating fixed plate respectively, heating fixed plate is located two between the heater, two the both ends of heater all with heating fixed plate is connected respectively.

Preferably, the connecting port is a conical port, a large opening end of the conical port faces upwards, and a small opening end of the conical port faces downwards.

As the preferred scheme, connect the lower extreme of material jar and seted up the bin outlet, the bin outlet lid is equipped with the end cover.

The sintering furnace comprises the leaked liquid collecting device, a heating furnace interface is communicated with a heating furnace pipeline, a water cooling furnace interface is communicated with a water cooling furnace pipeline, a tray is slidably mounted on the heating furnace pipeline, and the tray sequentially slides to the leaked liquid collecting device and the water cooling furnace pipeline from the heating furnace pipeline.

According to a preferable scheme, a leakage collecting groove is formed in the bottom of the heating furnace pipeline, a material receiving through groove is formed in the bottom of the heating furnace interface, one end, facing the leakage collecting device, of the leakage collecting groove is communicated with the material receiving through groove, and one end of the material receiving through groove is communicated with the connecting port.

The embodiment of the utility model provides a fritting furnace and weeping collection device thereof compares with prior art, and its beneficial effect lies in: the leaked liquid collecting device is arranged between the heating furnace pipeline and the water-cooling furnace pipeline and is used for collecting leaked liquid on the periphery of the tray in the heating furnace pipeline. Specifically, the heating furnace interface and the heating furnace pipeline intercommunication of connecting body one end, the water-cooling furnace interface and the water-cooling furnace pipeline intercommunication of the connecting body other end, the feeding chamber be located the heating furnace interface with between the water-cooling furnace interface, when the tray in the heating furnace pipeline gets into the feeding chamber from the heating furnace interface, the unnecessary weeping of tray periphery drips in the feeding chamber, and the weeping in the feeding chamber is collected through the connector inflow material receiving tank, connects to install the heater in the material receiving tank to the weeping that makes and collect in the material receiving tank keeps the molten state and is convenient for derive. After the tray passes through the feeding cavity, redundant leakage liquid on the periphery of the tray flows into the material receiving tank from the connecting port of the feeding cavity, so that the periphery of the tray entering the water cooling furnace pipeline is kept smooth, and continuous and normal production is guaranteed.

Drawings

Fig. 1 is a schematic view of the overall structure of the embodiment of the present invention.

Fig. 2 is a schematic side view of the overall structure of the embodiment of the present invention.

Fig. 3 is the utility model discloses embodiment weeping collection device's split structure sketch map.

Fig. 4 is a side view schematic structure diagram of the leaked liquid collecting device of the embodiment of the present invention.

In the figure:

10. a heating furnace pipeline; 11. a water-cooled furnace pipeline; 12. a tray; 13. a leaked liquid collecting device; 14. a leaked liquid collecting tank;

20. connecting the pipe body; 21. a heating furnace interface; 22. a water-cooled furnace interface; 23. a connecting port; 24. a feed cavity; 25. a material receiving through groove; 26. a gasket; 27. heating the fixed plate;

30. a material receiving tank; 31. a heater; 32. a discharge outlet; 33. an end cap; 34. a flange blind plate; 35. a quick release clamp; 36. lid sealing washer.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer" and the like are used in the present invention as indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be understood that the terms "connected," "connected," and "fixed" used in the present invention should be interpreted broadly, for example, as a fixed connection, a detachable connection, or an integral body; the connection can be mechanical connection or welding connection; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1 to 4, the utility model discloses the weeping collection device 13 of fritting furnace of preferred embodiment, including connecting pipe body 20, connecting pipe body 20's both ends are equipped with respectively and are used for the heating furnace interface 21 that communicates with heating furnace pipeline 10 and are used for the water-cooling furnace interface 22 with water-cooling furnace pipeline 11 intercommunication, be equipped with respectively in the connecting pipe body 20 with the feeding chamber 24 of heating furnace interface 21 and water-cooling furnace interface 22 intercommunication, feeding chamber 24 is located between heating furnace interface 21 and the water-cooling furnace interface 22, connecting pipe body 20's below is connected with and connects material jar 30, connecting pipe body 20's pipe wall has seted up the connector 23 that the opening is decurrent, feeding chamber 24 passes through connector 23 and connects material jar 30 intercommunication, connect material jar 30 to install heater 31.

The utility model discloses a weeping collection device 13 of fritting furnace, the heating furnace interface 21 and the heating furnace pipeline 10 intercommunication of connecting 20 one ends of body, the water-cooling furnace interface 22 and the water-cooling furnace pipeline 11 intercommunication of the connecting 20 other ends of body, feeding chamber 24 is located between heating furnace interface 21 and the water-cooling furnace interface 22, tray 12 in the heating furnace pipeline 10 gets into and when passing through feeding chamber 24 at heating furnace interface 21, the unnecessary weeping of tray 12 periphery drips in feeding chamber 24, the weeping in feeding chamber 24 flows in through connector 23 and connects material jar 30 to collect, connect and install heater 31 in the material jar 30, so that the weeping that collects in the material jar 30 keeps the molten state to be convenient for derive. After the tray 12 passes through the feeding cavity 24, the redundant leakage liquid on the periphery of the tray 12 flows into the material receiving tank 30 from the connecting port 23 of the feeding cavity 24, so that the periphery of the tray 12 entering the water cooling furnace pipeline 11 is kept smooth, and the continuous and normal production is ensured.

Further, as shown in fig. 3 to 4, a material receiving through groove 25 is formed at the bottom of the heating furnace interface 21, and one end of the material receiving through groove 25 is communicated with the connecting port 23. The bottom of heating furnace pipeline 10 is equipped with the shape and connects material groove 25 assorted weeping collecting vat 14, connects the one end and the weeping collecting vat 14 intercommunication of material groove 25, connects the other end and the connector 23 intercommunication of material groove 25, and then makes the weeping in the weeping collecting vat 14 also collect to connect in the material jar 30 to increase the receipts liquid channel that connects material jar 30, receive more weepings, promote the weeping and collect the effect.

Further, as shown in fig. 3, a gasket 26 is provided between the upper port of the receiving tank 30 and the connection port 23, the shape of the gasket 26 is matched with the outer peripheral shape of the upper port, and the gasket 26 is provided to improve the connection sealing property between the connection port 23 and the upper port, thereby preventing leakage from occurring when leakage flows into the receiving tank 30 from the connection port 23. More specifically, the upper port abuts against the bottom surface of the connection pipe body 20.

Further, as shown in fig. 3, the heater 31 is located on the outer wall of the material receiving tank 30 to improve the safety of the heater 31.

Further, as shown in fig. 3, heaters 31 are respectively installed on the opposite outer side surfaces of the material receiving tank 30, so that the whole material receiving tank 30 is heated more uniformly, and the effect of maintaining the molten state of the leaked liquid is good. Preferably, the heating surface of the heater 31 covers the outer side surface of the material receiving tank 30 where the heater is located, so that the heating area is increased, the heating effect is better, and the heating efficiency is improved.

Further, as shown in fig. 3, the heating fixing plates 27 are respectively installed on the opposite outer side surfaces of the material receiving tank 30, the heating fixing plates 27 are located between the two heaters 31, and both ends of the two heaters 31 are respectively connected to the heating fixing plates 27. Heating fixed plate 27 is fixed in the lateral surface that connects material jar 30, fixes the hot plate through heating fixed plate 27, strengthens the installation stability of hot plate, improves the safety in utilization.

Further, as shown in fig. 3 to 4, the connection port 23 is a tapered port, a large opening end of the tapered port faces upward, and a small opening end of the tapered port faces downward, so as to improve the flow guiding effect of the feeding cavity 24, thereby enabling the leaked liquid to be collected more smoothly and the leaked liquid collecting efficiency to be higher.

Further, as shown in fig. 2 to 3, a discharge opening 32 is formed at the lower end of the material receiving tank 30, and an end cover 33 is covered on the discharge opening 32. The end cover 33 is opened, and the leaked liquid collected in the material receiving tank 30 is discharged through the discharge port 32. Preferably, a lid body seal ring 36 is provided between the end lid 33 and the discharge port 32, and the connection sealing property between the end lid 33 and the discharge port 32 is improved by providing the lid body seal ring 36, thereby preventing leakage of the material receiving tank 30. More specifically, the end cover 33 includes a flange blank 34 and a quick release clamp 35, and the flange blank 34 covers the discharge opening 32 to prevent leakage and is fixed by the quick release clamp 35.

A sintering furnace comprises a leaked liquid collecting device 13, a heating furnace interface 21 is communicated with a heating furnace pipeline 10, a water cooling furnace interface 22 is communicated with a water cooling furnace pipeline 11, a tray 12 is slidably mounted on the heating furnace pipeline 10, and the tray 12 sequentially slides from the heating furnace pipeline 10 to the leaked liquid collecting device 13 and the water cooling furnace pipeline 11 as shown in figures 1 to 4.

The leaked liquid collecting device 13 is installed between the heating furnace pipeline 10 and the water-cooling furnace pipeline 11 and is used for collecting leaked liquid on the periphery of the tray 12 in the heating furnace pipeline 10. Specifically, a heating furnace interface 21 at one end of a connecting pipe body 20 is communicated with a heating furnace pipeline 10, a water-cooling furnace interface 22 at the other end of the connecting pipe body 20 is communicated with a water-cooling furnace pipeline 11, a feeding cavity 24 is positioned between the heating furnace interface 21 and the water-cooling furnace interface 22, when a tray 12 in the heating furnace pipeline 10 enters the feeding cavity 24 from the heating furnace interface 21, redundant leaked liquid at the periphery of the tray 12 drops in the feeding cavity 24, leaked liquid in the feeding cavity 24 flows into a material receiving tank 30 through a connecting port 23 to be collected, and a heater 31 is installed in the material receiving tank 30, so that the leaked liquid collected in the material receiving tank 30 is kept in a molten state and is convenient to be led out. After the tray 12 passes through the feeding cavity 24, the redundant leakage liquid on the periphery of the tray 12 flows into the material receiving tank 30 from the connecting port 23 of the feeding cavity 24, so that the periphery of the tray 12 entering the water cooling furnace pipeline 11 is kept smooth, and the continuous and normal production is ensured.

Further, as shown in fig. 1, a leakage collecting groove 14 is arranged at the bottom of the heating furnace pipeline 10, a receiving through groove 25 is formed in the bottom of the heating furnace interface 21, one end of the leakage collecting groove 14, which faces the leakage collecting device 13, is communicated with the receiving through groove 25, one end of the receiving through groove 25 is communicated with the connecting port 23, and then leakage in the leakage collecting groove 14 is collected into the receiving tank 30, so that a leakage collecting channel of the receiving tank 30 is increased, more leakage is received, and a leakage collecting effect is improved.

Preferably, as shown in fig. 1 to 4, the material receiving through groove 25 and the leaked liquid collecting groove 14 are both V-shaped grooves, so as to improve the leaked liquid collecting effect.

To sum up, the embodiment of the utility model provides a fritting furnace and weeping collection device 13 thereof, weeping collection device 13 install between heating furnace pipeline 10 and water-cooling furnace pipeline 11 for collect the weeping of tray 12 periphery in heating furnace pipeline 10. Specifically, a heating furnace interface 21 at one end of a connecting pipe body 20 is communicated with a heating furnace pipeline 10, a water-cooling furnace interface 22 at the other end of the connecting pipe body 20 is communicated with a water-cooling furnace pipeline 11, a feeding cavity 24 is positioned between the heating furnace interface 21 and the water-cooling furnace interface 22, when a tray 12 in the heating furnace pipeline 10 enters the feeding cavity 24 from the heating furnace interface 21, redundant leaked liquid at the periphery of the tray 12 drops in the feeding cavity 24, leaked liquid in the feeding cavity 24 flows into a material receiving tank 30 through a connecting port 23 to be collected, and a heater 31 is installed in the material receiving tank 30, so that the leaked liquid collected in the material receiving tank 30 is kept in a molten state and is convenient to be led out. After the tray 12 passes through the feeding cavity 24, the redundant leakage liquid on the periphery of the tray 12 flows into the material receiving tank 30 from the connecting port 23 of the feeding cavity 24, so that the periphery of the tray 12 entering the water cooling furnace pipeline 11 is kept smooth, and the continuous and normal production is ensured.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be considered as the protection scope of the present invention.

Claims (10)

1. The utility model provides a weeping collection device of fritting furnace which characterized in that: including the connecting tube body, the both ends of connecting tube body are equipped with respectively and are used for the heating furnace interface with heating furnace pipeline intercommunication and be used for saying the water-cooling furnace interface of intercommunication with the water-cooling furnace, the connecting tube is internal be equipped with respectively with the heating furnace interface with the feeding chamber of water-cooling furnace interface intercommunication, the feeding chamber is located the heating furnace interface with between the water-cooling furnace interface, the below of connecting tube body is connected with and connects the material jar, the decurrent connector of opening is seted up to the pipe wall of connecting tube body, the feeding chamber passes through the connector and connects the material jar intercommunication, connect the material jar and install the heater.

2. The leaked liquid collecting device of a sintering furnace according to claim 1, characterized in that: the bottom of the heating furnace interface is provided with a material receiving through groove, and one end of the material receiving through groove is communicated with the connecting port.

3. The leaked liquid collecting device of the sintering furnace according to claim 1, wherein: connect the last port of material jar with be equipped with sealed the pad between the connector, the shape that sealed pad with the periphery shape phase-match of going up the port.

4. The leaked liquid collecting device of a sintering furnace according to claim 1, characterized in that: the heater is positioned on the outer wall of the material receiving tank.

5. The leaked liquid collecting device of a sintering furnace according to claim 4, wherein: the heaters are respectively arranged on the opposite outer side surfaces of the material receiving tanks.

6. The leaked liquid collecting device of a sintering furnace according to claim 5, characterized in that: connect the relative lateral surface of material jar to install heating fixed plate respectively, heating fixed plate is located two between the heater, two the both ends of heater all with heating fixed plate connects respectively.

7. The leaked liquid collecting device of the sintering furnace according to claim 1, wherein: the connecting port is a conical port, the large opening end of the conical port faces upwards, and the small opening end of the conical port faces downwards.

8. The leaked liquid collecting device of a sintering furnace according to claim 1, characterized in that: connect the lower extreme of material jar to have seted up the bin outlet, it is equipped with the end cover to arrange the material flap.

9. A sintering furnace, characterized in that: the leaked liquid collecting device comprises the leaked liquid collecting device according to any one of claims 1 to 8, wherein a heating furnace pipeline is communicated with the heating furnace interface, a water cooling furnace pipeline is communicated with the water cooling furnace interface, a tray is slidably mounted on the heating furnace pipeline, and the tray sequentially slides from the heating furnace pipeline to the leaked liquid collecting device and the water cooling furnace pipeline.

10. Sintering furnace according to claim 9, characterized in that: the bottom of the heating furnace pipeline is provided with a leakage collecting groove, the bottom of the heating furnace interface is provided with a material receiving through groove, one end of the leakage collecting groove, facing the leakage collecting device, is communicated with the material receiving through groove, and one end of the material receiving through groove is communicated with the connecting port.

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