CN202717704U - Glass round pot tempering cooling device - Google Patents

Abstract

The utility model discloses a glass round pot tempering cooling device which comprises a support, a wind path cooling device and a rotating device. The wind path cooling device comprises a blower, an upper air supply pipeline, a lower air supply pipeline, an upper air grid and a lower air grid. The blower is connected with the upper air supply pipeline and the lower air supply pipeline. The upper air supply pipeline and the lower air supply pipeline are respectively connected with the upper air grid and the lower air grid. The lower air grid is fixed on the support, and the upper air grid is arranged on the support through a lifting device. The rotating device comprises a clutch starting device and a motor, wherein the clutch starting device comprises a rotating supporting pole and a friction starting piece which is located on the bottom of a concave surface structure above the lower air grid and placed on the top of the rotating supporting pole and matched with the rotating supporting pole in a friction mode; and the rotating supporting pole is rotatably installed on the support and driven by the motor. The glass round pot is reasonable in structural design, achieves uniform air cooling for all points on the upper surface and the lower surface of a glass round pot in the rotating process, cannot scratch the glass round pot in the rotating process, and is high in working efficiency.

Description

Glass circle basin tempering refrigerating unit

Technical field

The utility model relates to a kind of glass circle basin tempering refrigerating unit,

Background technology

Glass basin needs behind hot bending by the tempering operation at present, the process of tempering is that glass basin is heated to certain temperature, the shape of this temperature lower-glass basin remains unchanged, but inherent molecule produces motion, stress and structure are relaxed, then glass basin is controlled speed of cooling, make glass under manual control, pass through transformation range, generate uniform prestress at inside glass, this prestressed character is just in time opposite with the stress characteristics that hot water shock testing machine basin produces, both cancel out each other, and therefore the temperature tolerance of glass basin and intensity increase greatly.The tempering apparatus of glass basin generally includes process furnace, cooling system, and process furnace is comprised of steel construction and heat insulating refractory material, and is provided with temperature element and temperature controlling system is controlled furnace temperature automatically, and cooling system comprises blower and air grid.When the enterprising sector-style of existing circle basin tempering apparatus is cold, inhomogeneous cooling can occurs and cause the inside glass distribution of the compressive stress inhomogeneous, glass basin is easy to slight crack occur even break when air-cooled.

Application number is: 201010199475.X, denomination of invention is: the Chinese patent application of " glass tempering air-cooling device " discloses a kind of equipment of producing toughened glass, a kind of curved strengthened glass blowing device specifically, it comprises lower air duct, lower bellows, upper bellows, upper air duct and lower bellows, upper bellows lifting device, the phase back side that is characterised in that lower bellows and upper bellows is respectively equipped with the connecting hole that is connected with lower air duct with upper air duct, lower bellows are outlet air surface with corresponding of upper bellows, 100 air outlets of array at least on the outlet air surface.Air outlet is respectively equipped with blowing mouth, and this utility model wind path is unobstructed, dry effective, wind energy utilization is high, and outlet air surface has stoped the reflection air draft that blows to wind on glass, realize the four sides air draft, made the cooling temperature of glass surface even, improved the glass tempering quality.But the complex structure of this utility model and can't the glass on two sides of circle basin being cooled off uniformly.

The utility model content

The purpose of this utility model is to overcome above shortcomings in the prior art, and a kind of reasonable in design is provided, and air-cooled glass even, high efficiency is justified basin tempering refrigerating unit.

The technical scheme in the invention for solving the above technical problem is: this glass circle basin tempering refrigerating unit, it is characterized in that: comprise support, the wind path refrigerating unit, wheelwork, described wind path refrigerating unit comprises blower, upper air-supply pipeline, lower air-supply pipeline, upper air grid and lower air grid, blower connects upper air-supply pipeline and lower air-supply pipeline, upper air-supply pipeline connects respectively upper air grid and lower air grid with lower air-supply pipeline, lower air grid and lower air grid are hollow structure, convex configuration is adopted in the below of upper air grid, concave structure is adopted in the top of lower air grid, described convex configuration and concave structure match with upper surface and the lower surface of glass circle basin respectively, be provided with on the convex configuration of upper air grid below and the up-draught hole of upper air-supply pipeline connection, be provided with on the concave structure of lower air grid top and the katabatic wind hole of lower air-supply pipeline connection, lower air grid is fixed on the support, upper air grid is arranged on the support by lifting device, wheelwork comprises clutch starter gear and motor, the clutch starter gear comprises that rotating pole starts sheet with friction, described friction starts the bottom that sheet is positioned at lower air grid top concave structure, friction start sheet be placed on the top of rotating pole and and rotate the pole frictional fit, described rotation pole is rotatably installed on the support and by electric motor driving.

The principle of work of this glass circle basin tempering refrigerating unit: during work, motor can drive rotation pole and rotate always, the glass circle basin that takes out from process furnace starts on the sheet in friction, because friction starts sheet and rotates between the pole is frictional fit, therefore glass circle basin bottom part keeps relative static with friction startup sheet, rotating pole relies on frictional force band kinetic friction startup sheet progressively to accelerate, realize the rotation of glass circle basin, thereby avoided the friction of glass circle basin bottom part is scratched, the upper air grid of lifting device control descends, the concave structure of the convex configuration of air grid below and upper air grid top equates with the upper surface of double glazing basin and the distance of lower surface respectively on this moment, blower is to upper air grid and lower air grid delivery air, thereby realized that glass circle basin upper and lower surface each point in the process of rotating is evenly air-cooled, behind the air-cooled certain hour, the upper air grid of lifting device control rises, and takes out glass circle basin, finishes whole air-cooled process.

The inside of lower air grid described in the utility model and lower air grid is provided with windsheild, have ventilation hole on the windsheild, all be fixed with the air draft piece of evenly arranging on the convex configuration of upper air grid below and the concave structure of lower air grid top, described up-draught hole and katabatic wind hole are opened in respectively on the air draft piece of the air draft piece of air grid and lower air grid, groove between the air draft piece has formed the wind guide tank for the cooling wind circulation, the distance of the convex configuration of supreme air grid below, described up-draught hole equates that all described katabatic wind hole to the distance of the convex configuration of lower air grid top all equates.Adopt this structure, the air-flow that windsheild can allow air grid and lower air grid blow out is more even, and the air-flow that blows to glass circle basin surface can be discharged by wind guide tank, has avoided lacking in the wind guide tank situation, the air turbulence that the phase mutual interference occurs between the air-flow has improved air-cooled homogeneity.

As preferably, be fixed with cushion film on the friction startup sheet described in the utility model.Adopt this structure not only can improve glass circle basin and friction and start frictional force between the sheet, also can reduce the possibility of scuffing.

As preferably, lifting device described in the utility model comprises guide rail, stay cord and is rotatably installed in the pulley of air grid both sides, described pulley snaps in the sliding rail on the support, one end of stay cord is fixed on the air grid, be rotatablely equipped with runner on the support, stay cord in the chute of runner, described guide rail be fixed on the air grid and and support be slidingly connected.Adopt this structure to use artificial pulling stay cord that air grid is risen, relatively dynamo-electric situation about starting, quicker, efficient is higher.

As preferably, cushion film described in the utility model adopts asbestos material.

The utility model compared with prior art has the following advantages and effect: reasonable in design, realized glass circle basin upper and lower surface each point evenly air-cooled in the process of rotating, and can not cause the scuffing of glass circle basin in the rotation process, high efficiency.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment.

Fig. 2 is the utility model embodiment wheelwork and lower air grid relative position synoptic diagram.

Fig. 3 is the principle schematic of the utility model embodiment wheelwork.

Fig. 4 is the installation site synoptic diagram of the utility model embodiment windsheild.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing and by embodiment, and following examples are to explanation of the present utility model and the utility model is not limited to following examples

Referring to Fig. 1 to Fig. 4, present embodiment glass circle basin tempering refrigerating unit, comprise support 1, wind path refrigerating unit and wheelwork, the wind path refrigerating unit comprises blower 2, upper air-supply pipeline 3, lower air-supply pipeline 4, upper air grid 5 and lower air grid 6, blower 2 connects upper air-supply pipeline 3 and lower air-supply pipeline 4, upper air-supply pipeline 3 connects respectively air grid 5 and lower air grid 6 with lower air-supply pipeline 4, lower air grid 6 and lower air grid 6 are hollow structure, convex configuration 51 is adopted in the below of upper air grid 5, concave structure 61 is adopted in the top of lower air grid 6, and convex configuration 51 and concave structure 61 are consistent with the cambered surface of the upper surface of glass circle basin and lower surface respectively.The hollow structure inside of lower air grid 6 and lower air grid 6 is provided with windsheild 17, have ventilation hole 18 on the windsheild 17, all be fixed with the air draft piece 7 of evenly arranging on the concave structure 61 of the convex configuration 51 of upper air grid 5 belows and lower air grid 6 tops, offer respectively up-draught hole and katabatic wind hole on the air draft piece 7 of upper air grid 5 and the air draft piece 7 of lower air grid 6, groove between the air draft piece 7 has formed the wind guide tank 8 for the cooling wind circulation, the distance of the convex configuration 51 of supreme air grid 5 belows, up-draught hole equates that all the distance of the convex configuration 51 of katabatic wind hole to lower air grid 6 tops all equates.The airflow that upper air-supply pipeline 3 and lower air-supply pipeline 4 are carried can blow out from up-draught hole and katabatic wind hole respectively, and lower air grid 6 is fixed on the support 1, and upper air grid 5 is arranged on the support 1 by lifting device.Wheelwork comprises clutch starter gear and motor 13, the clutch starter gear comprises that rotating pole 14 starts sheet 15 with friction, friction starts the bottom that sheet 15 is positioned at lower air grid 6 top concave structures 61, friction start sheet 15 be placed on the top of rotating pole 14 and and rotate pole 14 frictional fit, rotate pole 14 and be rotatably installed on the support 1 and by motor 13 and drive.Friction starts the cushion film 16 that is fixed with the employing asbestos material on the sheet 15.

Lifting device comprises guide rail 9, stay cord 10 and is rotatably installed in the pulley 11 of air grid 5 both sides, pulley 11 snaps in the sliding rail on the support 1, one end of stay cord 10 is fixed on the air grid 5, be rotatablely equipped with runner 12 on the support 1, stay cord 10 in the chute of runner 12, guide rail 9 be fixed on the air grid 5 and and support 1 be slidingly connected.

In addition, need to prove, the specific embodiment described in this specification sheets, the shape of its parts and components, institute's title of being named etc. can be different, and the above content described in this specification sheets only is to the explanation of the utility model structure example.Allly conceive equivalence variation or the simple change that described structure, feature and principle are done according to the utility model patent, be included in the protection domain of the utility model patent.The utility model person of ordinary skill in the field can make various modifications or replenishes or adopt similar mode to substitute described specific embodiment; only otherwise depart from structure of the present utility model or surmount this scope as defined in the claims, all should belong to protection domain of the present utility model.

Claims (5)

1. a glass is justified basin tempering refrigerating unit, it is characterized in that: comprise support, wind path refrigerating unit and wheelwork, described wind path refrigerating unit comprises blower, upper air-supply pipeline, lower air-supply pipeline, upper air grid and lower air grid, blower connects upper air-supply pipeline and lower air-supply pipeline, upper air-supply pipeline connects respectively upper air grid and lower air grid with lower air-supply pipeline, lower air grid and lower air grid are hollow structure, convex configuration is adopted in the below of upper air grid, concave structure is adopted in the top of lower air grid, described convex configuration and concave structure match with upper surface and the lower surface of glass circle basin respectively, be provided with on the convex configuration of upper air grid below and the up-draught hole of upper air-supply pipeline connection, be provided with on the concave structure of lower air grid top and the katabatic wind hole of lower air-supply pipeline connection, lower air grid is fixed on the support, upper air grid is arranged on the support by lifting device, wheelwork comprises clutch starter gear and motor, the clutch starter gear comprises that rotating pole starts sheet with friction, described friction starts the bottom that sheet is positioned at lower air grid top concave structure, friction start sheet be placed on the top of rotating pole and and rotate the pole frictional fit, described rotation pole is rotatably installed on the support and by electric motor driving.

2. glass according to claim 1 is justified basin tempering refrigerating unit, it is characterized in that: the inside of described lower air grid and lower air grid is provided with windsheild, have ventilation hole on the windsheild, all be fixed with the air draft piece of evenly arranging on the convex configuration of upper air grid below and the concave structure of lower air grid top, described up-draught hole and katabatic wind hole are opened in respectively on the air draft piece of the air draft piece of air grid and lower air grid, groove between the air draft piece has formed the wind guide tank for the cooling wind circulation, the distance of the convex configuration of supreme air grid below, described up-draught hole equates that all described katabatic wind hole to the distance of the convex configuration of lower air grid top all equates.

3. glass circle basin tempering refrigerating unit according to claim 1 and 2 is characterized in that: be fixed with cushion film on the described friction startup sheet.

4. glass according to claim 1 and 2 is justified basin tempering refrigerating unit, it is characterized in that: described lifting device comprises guide rail, stay cord and is rotatably installed in the pulley of air grid both sides, described pulley snaps in the sliding rail on the support, one end of stay cord is fixed on the air grid, be rotatablely equipped with runner on the support, stay cord in the chute of runner, described guide rail be fixed on the air grid and and support be slidingly connected.

5. glass circle basin tempering refrigerating unit according to claim 1 and 2 is characterized in that: described cushion film employing asbestos material.

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