CN207793028U - The anti-crystallization mechanism and platinum channel agitating device of platinum channel stirring rod - Google Patents

Abstract

This disclosure relates to the anti-crystallization mechanism and platinum channel agitating device of a kind of platinum channel stirring rod, the anti-crystallization mechanism includes the heating device (1) above the front arch (6) for being arranged above agitator (5), the heating device (1) is arranged around stirring rod (2) and forms the heating chamber that can accommodate volatile matter with the front arch (6), the wall surface of the heating chamber offers gas vent (11), the anti-crystallization mechanism further includes getter device (3), the getter device (3) is connected to by downtake pipe (31) with the gas vent (11).Pass through above-mentioned technical proposal, the anti-crystallization mechanism for the platinum channel stirring rod that the disclosure provides, which has, can make stirring rod volatile matter remain gaseous heating chamber, and the gaseous volatile can be discharged by getter device, to effectively reduce the generation of stirring rod crystallization, provide safeguard for the quality of glass substrate.

Description

The anti-crystallization mechanism and platinum channel agitating device of platinum channel stirring rod

Technical field

This disclosure relates to the manufacturing field of glass substrate, and in particular, to a kind of anti-analysis of platinum channel stirring rod Brilliant mechanism and platinum channel agitating device.

Background technology

In the platinum channel stirring rod course of work, the volatile matter of glass metal and platinum can be along stirring rod and cover board in agitator The gap of brick escapes and moves upwards, rise to the cold after will be condensed into crystallization, when crystallization gathers it is a certain amount of after, due to by weight Power and stirring rod rotate outer force effect, can fall into agitator and react generation bubble or other impurities with glass metal, influence glass The quality of substrate.

Utility model content

One purpose of the disclosure is to provide a kind of anti-crystallization mechanism of platinum channel stirring rod, which can The generation of stirring rod crystallization is avoided or reduced, is provided safeguard for the quality of glass substrate.

Another object of the present disclosure is to provide a kind of platinum channel agitating device, which is configured with The anti-crystallization mechanism for the platinum channel stirring rod that the disclosure provides.

To achieve the goals above, the disclosure provides a kind of anti-crystallization mechanism of platinum channel stirring rod, including is used to set Set the heating device above the front arch above agitator, the heating device be arranged around stirring rod and with the front arch The heating chamber of volatile matter can be accommodated by being formed, and the wall surface of the heating chamber offers gas vent, and the anti-crystallization mechanism further includes Getter device, the getter device are connected to by downtake pipe with the gas vent.

Optionally, the heating chamber is formed as moving closer to the circular cone that the stirring rod extends from the top surface of the front arch The top internal diameter of cyclic structure, the conial ring shape structure is identical as the diameter of the stirring rod.

Optionally, the gas vent includes multiple, and the circumferentially spaced side wall being arranged in the conial ring shape structure On.

Optionally, it is provided with heater strip in the wall surface of the heating chamber.

Optionally, the anti-crystallization mechanism further includes attemperator, and the attemperator is close to the outside of the heating chamber Wall is arranged.

Optionally, second exhaust pipe, one end of the second exhaust pipe and the exhaust are provided in the attemperator Hole is connected to, and the other end is connected to the downtake pipe.

Optionally, the heating device and the attemperator are separate structure.

Optionally, the getter device is Venturi tube, and the suction side of the Venturi tube connects with the downtake pipe It is logical, the outlet side and atmosphere of the Venturi tube.

Optionally, it is connected with pressure reducing valve on the pipeline of the compressed air feed end of the Venturi tube.

According to the second aspect of the disclosure, provide a kind of platinum channel agitating device, including stirring rod, agitator and Front arch on the agitator top is set, and for the front arch center opening to allow the stirring rod to pass through, the platinum is logical Road agitating device further includes the anti-crystallization mechanism of above-described platinum channel stirring rod.

Through the above technical solutions, the anti-crystallization mechanism for the platinum channel stirring rod that the disclosure provides, which has, can make stirring Stick volatile matter remains gaseous heating chamber, and the gaseous volatile can be discharged by getter device, to effectively reduce The generation of stirring rod crystallization provides safeguard for the quality of glass substrate.

Other feature and advantage of the public disclosure will be described in detail in subsequent specific embodiment part.

Description of the drawings

Attached drawing is for providing further understanding of the disclosure, and a part for constitution instruction, with following tool Body embodiment is used to explain the disclosure together, but does not constitute the limitation to the disclosure.In the accompanying drawings：

Fig. 1 is that the structure of the anti-crystallization mechanism for the platinum channel stirring rod that a kind of illustrative embodiments of the disclosure provide is shown It is intended to；

Fig. 2 is the enlarged drawing of heating device and attemperator in Fig. 1；

Fig. 3 is the vertical view of Fig. 2.

Reference sign

1 heating device, 2 stirring rod

3 getter device, 4 attemperator

5 agitator, 6 front arch

11 gas vent, 12 heater strip

31 downtake pipe, 32 pressure reducing valve

41 second exhaust pipes

Specific implementation mode

The specific implementation mode of the disclosure is described in detail below in conjunction with attached drawing.It should be understood that this place is retouched The specific implementation mode stated is only used for describing and explaining the disclosure, is not limited to the disclosure.

In the disclosure, in the absence of explanation to the contrary, the noun of locality used such as "upper", "lower", "top", "bottom" are It is defined under anti-crystallization mechanism normal operating condition, specifically can refer to page shown in FIG. 1, and "inner", "outside" refers to the inner and outer of corresponding component profile.In addition, the term " first " used in the disclosure, " second " etc. are to distinguish One element and another element do not have succession and importance.In the following description when referring to the accompanying drawings, unless otherwise indicated, The same numbers in different drawings indicate the same or similar elements.

Agitator is arranged in platinum channel, for being stirred to glass metal, specifically, is provided with above agitator Front arch, stirring rod is from above through front arch and extend into agitator, and then stirs glass by the rotation of its own Liquid.As shown in Figure 1, the disclosure provides a kind of anti-crystallization mechanism of platinum channel stirring rod, including it is used to be arranged in agitator 5 The heating device 1 of 6 top of front arch of side, heating device 1, which is arranged around stirring rod 2 and can be accommodated with the formation of front arch 6, to be waved The heating chamber of object is sent out, the wall surface of heating chamber offers gas vent 11, and anti-crystallization mechanism further includes getter device 3, and getter device 3 is logical Downtake pipe 31 is crossed to be connected to gas vent 11.

In this way, heating device 1 is close to the setting of front arch 6, after volatile matter is escaped from the gap of front arch 6 and stirring rod 2 It enters directly into heating chamber, heating chamber has heat effect, and receiving volatile matter therein can be made to be in the condition of high temperature, that is, protected It holds as gaseous form, crystallization will not be generated because 5 outer temperature of agitator is low, and the volatile matter of the gaseous form is in getter device Under the action of 3, it can be discharged from the gas vent 11 of heating chamber wall surface through downtake pipe 31.The anti-crystallization mechanism can effectively subtract The generation of few stirring rod crystallization, provides safeguard for the quality of glass substrate.

Specifically, as shown in Figure 1, to ensure heating effect, heating space is reduced, heating chamber is formed as from front arch 6 Top surface moves closer to the conial ring shape structure of the extension of stirring rod 2, and the top internal diameter of conial ring shape structure and stirring rod 2 is straight Diameter is identical, so that heating chamber is formed as closing form, prevents gaseous volatile from continuing to generate analysis to the cold after escaping in heating chamber It is brilliant.

More specifically, gas vent 11 may include multiple, and the circumferentially spaced side wall being arranged in conial ring shape structure On.As shown in Fig. 2, gas vent 11 can lean on upper bit positioned at conial ring shape structure side wall, so that the gas in heating cavity space State volatile matter is discharged from gas vent 11 as much as possible, to adapt to the ascendant trend of air-flow.In addition, multiple gas vents 11 can also So that gaseous volatile is quickly discharged from multiple exhaust passages, reduces it and generate the risk of crystallization, and heating can also be reduced The heating time of device 1 improves its service life.The disclosure is not specifically limited the shape of gas vent 11, such as can be Fig. 2 shows bellmouth, the section of the bellmouth is from the inside of heating chamber to external tapered, so as to the gaseous state volatilization in heating chamber Object is assembled.

Heating chamber can heat electricity to the heating of its inside by the heater element of heating chamber wall surface, such as PTC heating plates Resistance etc..In the present embodiment, as shown in Fig. 2, being provided with heater strip 12 in the wall surface of heating chamber.Heater strip 12 is evenly arranged in In the wall surface of heating chamber, so that each position of heating chamber can generate heat, the gaseous state of volatile matter is fully ensured that.In this reality It applies in mode, according to the difference of glass formula of liquid, pid control mode may be used, the power of heater strip 12 is adjusted, with Ensure the temperature in heating chamber.

According to the specific implementation mode that the disclosure provides, as shown in Figure 1 to Figure 3, the heat to reduce heating device 1 dissipates It loses, which further includes attemperator 4, and attemperator 4 is close to the lateral wall setting of heating chamber, and height is filled with heating It sets 1 identical, and there are rounded outer profiles, can improve its heat insulation effect by adjusting 4 diametrical thickness of attemperator.This It is open that the material of attemperator 4 is not specifically limited, may be used heat safe ceramic fibre more common on the market etc. every Hot material.

Specifically, second exhaust pipe 41 is provided in attemperator 4, one end and the gas vent 11 of second exhaust pipe 41 connect Logical, the other end is connected to downtake pipe 31.Attemperator 4 is in direct contact with heating device 1, is had by its heat transfer certain High temperature, to prevent second exhaust pipe 41 from being influenced to soften gas leakage by high temperature, while also for ease of placing it in attemperator 4 In, second exhaust pipe 41 can be high temperature resistant stereoplasm tube, equally, downtake pipe 31 or high temperature resistant material.Second row Tracheae 41 can be multiple, and quantity is corresponding with gas vent 11, and to save the efflux time of gaseous volatile, second row Tracheae 41 is disposed radially in attemperator 4.In other implementations, exhaust can also be reserved in attemperator 4 Channel, so that gaseous volatile is discharged along the exhaust passage.

In the present embodiment, for ease of installation, heating device 1 and attemperator 4 all can be separate structures.Such as Fig. 2 Shown in Fig. 3, heating device 1 and attemperator 4 include first seperated and the second fission being radially spliced together, to add Work is convenient, and first is seperated arranged symmetrically with the second fission, that is, radial splicing line is located on its plane of symmetry.

According to the specific implementation mode that the disclosure provides, getter device 3 can be Venturi tube, and Venturi tube has sucking End, outlet side and compressed air feed end.Specifically, the suction side of Venturi tube is connected to downtake pipe 31, venturi The outlet side and atmosphere of pipe.It can be by the gaseous volatile in heating chamber rapidly by the principle that vacuumizes of Venturi tube Extraction, makes it be discharged into air.

In addition, pressure reducing valve 32 can also be connected on the pipeline of the compressed air feed end of Venturi tube.Pass through pressure reducing valve 32 can adjust the supply gas pressure of compressed air, to control the capacity of Venturi tube.

The disclosure also provides a kind of platinum channel agitating device, including stirring rod 2, agitator 5 and setting in agitator 5 The front arch 6 on top, for 6 center opening of front arch to allow stirring rod 2 to pass through, which further includes the above institute The anti-crystallization mechanism for the platinum channel stirring rod stated.Platinum channel agitating device has the whole of above-mentioned anti-crystallization mechanism beneficial Effect, details are not described herein again.

The preferred embodiment of the disclosure is described in detail above in association with attached drawing, still, the disclosure is not limited to above-mentioned reality The detail in mode is applied, in the range of the technology design of the disclosure, a variety of letters can be carried out to the technical solution of the disclosure Monotropic type, these simple variants belong to the protection domain of the disclosure.

It is further to note that specific technical features described in the above specific embodiments, in not lance In the case of shield, can be combined by any suitable means, in order to avoid unnecessary repetition, the disclosure to it is various can The combination of energy no longer separately illustrates.

In addition, arbitrary combination can also be carried out between a variety of different embodiments of the disclosure, as long as it is without prejudice to originally Disclosed thought equally should be considered as disclosure disclosure of that.

Claims (10)

1. a kind of anti-crystallization mechanism of platinum channel stirring rod, which is characterized in that including being used to be arranged above agitator (5) Heating device (1) above front arch (6), the heating device (1) around stirring rod (2) be arranged and with the front arch (6) The heating chamber of volatile matter can be accommodated by being formed, and the wall surface of the heating chamber offers gas vent (11), and the anti-crystallization mechanism is also Including getter device (3), the getter device (3) is connected to by downtake pipe (31) with the gas vent (11).

2. anti-crystallization mechanism according to claim 1, which is characterized in that the heating chamber is formed as from the front arch (6) top surface move closer to the stirring rod (2) extension conial ring shape structure, the top internal diameter of the conial ring shape structure with The diameter of the stirring rod (2) is identical.

3. anti-crystallization mechanism according to claim 2, which is characterized in that the gas vent (11) includes multiple, and edge It is provided at circumferentially spaced on the side wall of the conial ring shape structure.

4. anti-crystallization mechanism according to claim 1, which is characterized in that be provided with heater strip in the wall surface of the heating chamber (12)。

5. anti-crystallization mechanism according to claim 1, which is characterized in that the anti-crystallization mechanism further includes attemperator (4), the attemperator (4) is close to the lateral wall setting of the heating chamber.

6. anti-crystallization mechanism according to claim 5, which is characterized in that be provided with second row in the attemperator (4) One end of tracheae (41), the second exhaust pipe (41) is connected to the gas vent (11), the other end and the downtake pipe (31) it is connected to.

7. anti-crystallization mechanism according to claim 5, which is characterized in that the heating device (1) and the attemperator (4) it is separate structure.

8. anti-crystallization mechanism according to claim 1, which is characterized in that the getter device (3) is Venturi tube, described The suction side of Venturi tube is connected to the downtake pipe (31), the outlet side and atmosphere of the Venturi tube.

9. anti-crystallization mechanism according to claim 8, which is characterized in that the compressed air feed end of the Venturi tube Pressure reducing valve (32) is connected on pipeline.

10. a kind of platinum channel agitating device, including stirring rod (2), agitator (5) and setting are on the agitator (5) The front arch (6) in portion, front arch (6) center opening is to allow the stirring rod (2) to pass through, which is characterized in that the platinum Channel agitating device further includes the anti-crystallization mechanism of the platinum channel stirring rod according to any one of claim 1-9.