Utility model content
The purpose of the disclosure is to provide a kind of cooling device for float glass process kiln and the float glass process kiln using the cooling device
Stove, the cooling device can effectively reduce port bottom temp, extend port service life.
To achieve these goals, a kind of cooling device for float glass process kiln of disclosure offer, including be sequentially communicated
Water inlet pipe, the first cooling water pipe and outlet pipe, the top edge of first cooling water pipe are posted by the lower section of small furnace hearth wall, described
First cooling water pipe have be provided between the pipeline section of the spaced setting of multistage, the adjacent pipeline section for support it is described small
The supporting construction of furnace hearth wall.
Alternatively, first cooling water pipe extends in undaform, and the bearing of trend of the adjacent pipeline section is identical, and its
In cooling water flow direction on the contrary, and being connected with reinforcement between the pipeline section of arbitrary neighborhood.
Alternatively, it is provided with first flow valve between the water inlet pipe and first cooling water pipe.
Alternatively, it is provided with the first temperature-detecting device between first cooling water pipe and the outlet pipe.
Alternatively, groove structure is formed as at the top of the supporting construction, a side wall of the groove structure is resisted against
The small furnace hearth wall.
Alternatively, be provided with the second cooling water pipe in the groove structure, the two ends of second cooling water pipe respectively with
The water inlet pipe is connected with the outlet pipe.
Alternatively, the rectangular cross-section of first cooling water pipe, the upper surface of first cooling water pipe and the port
Bottom wall is fitted, and both side surface is fitted with adjacent supporting construction.
Alternatively, it is provided with second flow valve between second cooling water pipe and the water inlet pipe.
Alternatively, it is provided with second temperature detection means between second cooling water pipe and the outlet pipe.
Based on above-mentioned technical proposal, the disclosure also provides a kind of float glass process kiln, including port, and the port has small furnace bottom
Wall, the float glass process kiln also includes the cooling device for float glass process kiln that the disclosure is provided.
By above-mentioned technical proposal, the first cooling water pipe is posted by the lower section of small furnace hearth wall to take away heat in time, keeps
Small furnace hearth wall be in safe operation temperature range within, it is ensured that the safe operation of port, supporting construction support small furnace hearth wall with
The first cooling water pipe is protected, the first cooling water pipe is prevented and deforms or burst because of being extruded by the expansion of port, so that
Extend the service life of the cooling device, the running life of port is thus lifted on the whole.
Other feature and advantage of the disclosure will be described in detail in subsequent embodiment part.
Embodiment
It is described in detail below in conjunction with accompanying drawing embodiment of this disclosure.It should be appreciated that this place is retouched
The embodiment stated is merely to illustrate and explained the disclosure, is not limited to the disclosure.
In the disclosure, in the case where not making opposite explanation, the noun of locality used such as " upper and lower " typically refers to the disclosure
The cooling device of offer in actual use, the relative position of each part it is upper and lower." inside and outside " refers to relative to each part sheet
Body it is inner and outer.The description and interpretation disclosure is used only as above, can not be interpreted as limitation.
As depicted in figs. 1 and 2, disclosure embodiment provides a kind of cooling device for float glass process kiln, bag
The water inlet pipe being sequentially communicated, the first cooling water pipe 2 and outlet pipe are included, the top edge of the first cooling water pipe 2 is posted by small furnace hearth wall 1
Lower section, the first cooling water pipe 2 has to be provided with for supporting port between the pipeline section of the spaced setting of multistage, adjacent pipeline section
The supporting construction 3 of bottom wall 1.First cooling water pipe 2 is posted by the lower section of small furnace hearth wall 1 to take away heat in time, keeps small furnace bottom
Wall 1 is within the temperature range of safe operation, it is ensured that the safe operation of port, and supporting construction 3 supports small furnace hearth wall 1 to protect
First cooling water pipe 2, extends the service life of the cooling device, prevents the first cooling water pipe 2 is expanded by port from extruding and occurring
Deformation bursts.
Specifically, the arrangement of the first cooling water pipe 2 can be any appropriate form, for example, the first cooling water pipe 2
(referring to Fig. 2) can be extended in undaform, to ensure that the first cooling water pipe 2 and small furnace hearth wall 1 have as far as possible big contact area,
The bearing of trend of adjacent pipeline section is identical, and cooling water therein flow direction on the contrary, and between the pipeline section of arbitrary neighborhood connect
There is reinforcement 4 to ensure that the relative position between each pipeline section is stable.In interchangeable embodiment, the first cooling water pipe 2 can
Connected respectively with water inlet pipe and outlet pipe and many of spaced setting with being formed as two ends.
Further, first flow valve is provided between water inlet pipe and the first cooling water pipe 2, to control the first cooling water pipe
Water in 2, correspondingly, can set the first temperature-detecting device between the first cooling water pipe 2 and outlet pipe, so as to
The aperture of first flow valve is adjusted as reference using the water temperature that the first temperature-detecting device is measured.In detail, the control of first flow valve
Mode processed can be manual adjustment, and control system can also be used to realize regulation.
In the present embodiment, the top of supporting construction 3 is formed as groove structure (referring to Fig. 1), such as common channel-section steel,
To accommodate the second cooling water pipe 5 described below, it is to avoid supporting construction 3 is influenceed by high temperature and occurs fusing deformation, is lost to small
The supporting role of furnace hearth wall 1, further, a side wall of groove structure are resisted against small furnace hearth wall 1, to keep supporting construction 3
There is sufficiently large area with the contact position of small furnace hearth wall 1, it is to avoid pressure is excessive at the contact position, cause small furnace hearth wall 1
Or supporting construction 3 is damaged.
In order to be further ensured that the stability of supporting construction 3, extend in its service life, groove structure that to be provided with second cold
But water pipe 5, the two ends of the second cooling water pipe 5 are connected with water inlet pipe and outlet pipe respectively, to radiate in time, it is ensured that support meanss
Long-term safety is used.
Specifically, the cross sectional shape of the first cooling water pipe 2 can have a variety of, in order that the first cooling water pipe 2 and small furnace bottom
The contact area of wall 1 is tried one's best greatly, in the present embodiment, the rectangular cross-section of the first cooling water pipe 2, first cooling water pipe 2
Upper surface fitted with small furnace hearth wall 1, both side surface is fitted with adjacent supporting construction 3, therefore, and first cooling water pipe 2 is not
Small furnace hearth wall 1 only can be effectively cooled down, while being capable of the groove structure of supplement heat rejecter support meanss.
Further, second flow valve is provided between the second cooling water pipe 5 and water inlet pipe, to control the second cooling water pipe
Water in 5, correspondingly, can set second temperature detection means between the second cooling water pipe 5 and outlet pipe, so as to
The aperture of second flow valve is adjusted as reference using the water temperature that second temperature detection means is measured.In detail, the control of second flow valve
Mode processed can be manual adjustment, and control system can also be used to realize regulation.In actual use, second cooling water pipe 5
Cross sectional shape can also have a variety of, and for the shape for the inwall for coordinating the groove structure, the section of the second cooling water pipe 5 can also be
Rectangle, to obtain more preferable cooling effect.
It should be noted that due to water inlet pipe, outlet pipe, first flow valve, the first temperature-detecting device, second flow
Valve, second temperature detection means can have multiple mounting modes and position, ordinary skill people according to different operating modes
Member can determine its set-up mode according to actual needs, therefore be not shown in the drawing.
In actual use, can in order to improve flowing velocity of the water in the first cooling water pipe 2 and the second cooling water pipe 5
With cause the water feeding pressure of water inlet pipe be maintained at 0.3Mpa and more than, to obtain preferable cooling effect, it is to avoid in cooling water pipe
Water temperature over-high, vaporization corrode cooling water pipe.
Based on above-mentioned technical proposal, the disclosure also provides a kind of float glass process kiln, including port, and the port has small furnace bottom
Wall, the float glass process kiln also includes the cooling device for float glass process kiln that the disclosure is provided.
The preferred embodiment of the disclosure is described in detail above in association with accompanying 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 with technical scheme of this disclosure
Monotropic type, these simple variants belong to the protection domain of the disclosure.
It is further to note that each particular technique feature described in above-mentioned embodiment, 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, can also be combined between a variety of embodiments of the disclosure, as long as it is without prejudice to originally
Disclosed thought, it should equally be considered as disclosure disclosure of that.