CN217398757U - Rotation type tempering furnace with cooling module - Google Patents

Abstract

The utility model discloses a rotation type tempering furnace with cooling module, this tempering furnace aim at solving prior art lower tempering furnace's last unloading convenient inadequately, and the not good technical problem of cooling effect. This tempering furnace includes the control base, a tempering furnace body for the glass heating, set up and be used for controlling the rotatory control motor that shifts of tempering furnace body in control base top, be used for the quick refrigerated cooler bin of glass and set up the mobility control telescopic link that is used for promoting the cooler bin and removes in control base side, this tempering furnace adopts the rotation type structure, can be under the prerequisite that keeps incessant heating production toughened glass, sufficient time is provided for unloading, realize more stable unloading and cooling work of going up under the prerequisite that does not influence work efficiency, the cooler bin carries out efficient cooling to letting in the cooling air through the input ice-cube that lasts, effectual assurance toughened glass's cooling effect when cooling, guarantee toughened glass's production effect when improving production efficiency.

Description

Rotation type tempering furnace with cooling module

Technical Field

The utility model belongs to the technical field of toughened glass production, concretely relates to rotation type tempering furnace with cooling module.

Background

Tempering furnace utilizes physics or chemical method, form the compressive stress layer on the glass surface, the inside tensile stress layer that forms, when glass receives the exogenic action, the compressive stress layer can offset partial tensile stress, avoid glass breakage, thereby reach the purpose that improves glass intensity, current tempering furnace is mostly simple conveyer belt structure, realize the tempering through transporting glass to heating end and cooling end, because the conveyer belt need be handled a set of toughened glass and just can carry out the material loading when in-service use, it is convenient inadequately to go up the unloading, cooling effect is not good simultaneously.

Therefore, aiming at the technical problems that the feeding and discharging of the toughening furnace are not convenient enough and the cooling effect is not good, an optimized and improved rotary toughening furnace with a cooling assembly is provided.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

Not enough to prior art, the utility model aims to provide a rotation type tempering furnace with cooling module, this tempering furnace aim at solving prior art down tempering furnace's last unloading convenient inadequately, and the not good technical problem of cooling effect.

(2) Technical scheme

In order to solve the technical problem, the utility model provides a rotary tempering furnace with a cooling assembly, which comprises a control base, a tempering furnace body for heating glass, a rotary deflection control motor arranged on the top of the control base and used for controlling the tempering furnace body to rotate, a cooling box for rapidly cooling the glass and a mobile control telescopic rod arranged on the side surface of the control base and used for pushing the cooling box to move, wherein the tempering furnace body is arranged on the top of the control base in a sliding way through a roller and connected with an output shaft of the rotary deflection control motor, the cooling box is connected with the telescopic end of the mobile control telescopic rod, a feeding area for feeding the glass and a heating area for heating the glass are arranged in the tempering furnace body, and one side of the feeding area and the heating area is provided with an electric hinge sealing door, the cooling box is internally provided with a cooling zone for cooling glass and a cooling cavity for cooling air, and the feeding zone, the heating zone and the cooling zone are respectively provided with a roller transmission assembly for controlling the movement of the glass.

When using this technical scheme, open the hinge sealing door after on arranging ordinary glass in the cylinder drive assembly in the material loading district, then close the hinge sealing door when heating, open the rotatory control motor that shifts simultaneously and open, the control material loading district turns to one side of cooler bin, open the hinge sealing door when the heating is enough, open the mobility control telescopic link simultaneously and draw the cooler bin to tempering furnace body one side, then carry the glass that the heating was accomplished to the cooler bin through cylinder drive assembly and carry out quick cooling to the cooling zone in the cooler bin, heat and the cooling process at glass, the opposite side carries out the material loading as the material loading district, effectively improve work efficiency.

Preferably, the top of the cooling box is provided with a crushed ice box for crushing ice cubes, the top of the crushed ice box is provided with a feeding pipe for feeding the ice cubes, the bottom of the crushed ice box is communicated with the cooling cavity in the cooling box, a crusher is arranged in the crushed ice box, the ice cubes are added into the crushed ice box through the feeding pipe, and are crushed by the crusher and then enter the cooling cavity to be distributed in the cooling cavity, so that a good cooling effect is achieved.

Furthermore, the roller transmission assembly comprises a rotary roller which can rotate and is used for driving the glass to move and an internal motor which is used for driving a motor support frame, the rotary roller is connected with an output shaft of the motor which is arranged in the motor support frame, a drain pipe is arranged at the bottom of the cooling cavity, hot water generated by melting ice cubes can be directly discharged, and a better cooling effect is achieved through continuous addition of the ice cubes.

Furthermore, the roller transmission assemblies in the feeding zone, the heating zone and the cooling zone are all positioned at the same horizontal position for smooth glass conveying.

Furthermore, a cooling and ventilating assembly for cooling air and then leading to the toughened glass for rapid cooling is arranged on one side of the cooling box, the cooling and ventilating assembly comprises an air pump for sucking air, a cooling pipeline for guiding the air and upper and lower ventilating plates for cooling discharged air, the air outlet end of the air pump is communicated with the cooling pipeline, the upper and lower ventilating plates are communicated with the air outlet end of the air pump through the cooling pipeline, the cooling pipeline is positioned in the cooling cavity, the upper and lower ventilating plates are positioned among the roller transmission assemblies, external air is guided in through the opening of the air pump, the air temperature is reduced through the cooling effect of the cooling pipeline in the cooling cavity and then is conveyed into the upper and lower ventilating plates for discharging, the upper and lower ventilating plates are arranged among the glasses in an inserting manner, and uniform and comprehensive cooling and blowing effects can be performed on the glasses, the production efficiency is improved and the production effect of the toughened glass is ensured.

(3) Advantageous effects

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the utility model discloses a tempering furnace body adopts the rotation type structure, and is compared with traditional conveyer belt structure, the utility model discloses can be under the prerequisite that keeps incessant heating production toughened glass, provide sufficient time for unloading, realize more stable unloading and cooling work of going up under the prerequisite that does not influence work efficiency.

2. The utility model discloses a cooler bin carries out efficient cooling to the cooling duct who lets in the cooling air through the input ice-cube that lasts through setting up garrulous refrigerator at the top to effectual assurance toughened glass's cooling effect when the cooling, and through the interlude setting of upper and lower air plate, can carry out even comprehensive cooling blast effect to each glass, guarantee toughened glass's production effect when improving production efficiency.

Drawings

FIG. 1 is a schematic diagram of the external structure of one embodiment of the apparatus of the present invention;

FIG. 2 is a cross-sectional view of one embodiment of the inventive apparatus;

FIG. 3 is a schematic diagram of the internal structure of an embodiment of the apparatus of the present invention;

fig. 4 is a schematic structural view of a cooling and ventilating assembly according to an embodiment of the present invention.

The labels in the figures are: 1. a control base; 1-1, rotating a deflection control motor; 1-2, moving and controlling a telescopic rod; 2. a toughening furnace body; 2-1, a feeding area; 2-2, heating zone; 3. a cooling tank; 3-1, a cooling zone; 3-2, a cooling cavity; 4. a crushing refrigerator; 4-1, a feeding pipe; 5. a roller transmission assembly; 5-1, a motor bracket; 5-2, rotating the roller; 6. an upper and a lower vent plate; 7. an air pump; 8. a cooling duct; 9. hinge sealing door.

Detailed Description

The specific embodiment is a rotary tempering furnace with a cooling assembly, the structural schematic diagram of which is shown in fig. 1, the tempering furnace comprises a control base 1, a tempering furnace body 2 for heating glass, a rotary deflection control motor 1-1 arranged at the top of the control base 1 for controlling the tempering furnace body 2 to rotate, a cooling box 3 for rapidly cooling the glass, and a movable control telescopic rod 1-2 arranged at the side of the control base 1 for pushing the cooling box 3 to move, the tempering furnace body 2 is arranged at the top of the control base 1 in a sliding manner through a roller and is connected with an output shaft of the rotary deflection control motor 1-1, and the cooling box 3 is connected with a telescopic end of the movable control telescopic rod 1-2.

A feeding area 2-1 for glass feeding and a heating area 2-2 for glass heating are arranged in the toughening furnace body 2, and it is noted that the feeding area 2-1 and the heating area 2-2 have the same structure and are defined by the position relation with the cooling box 3, the heating area 2-2 close to the cooling box 3 is cooled after heating is finished, the feeding area 2-1 far away from the cooling box 3 is used as the feeding area 2-1, feeding is carried out in the heating and cooling processes of glass, the working efficiency is effectively improved, an electric hinge sealing door 9 is arranged on one side of the feeding area 2-1 and one side of the heating area 2-2, a cooling area 3-1 for glass cooling and a cooling cavity 3-2 for air cooling are arranged in the cooling box 3, a roller transmission assembly 5 for glass movement control is arranged on the feeding area 2-1, the heating area 2-2 and the cooling area 3-1, the roller transmission assemblies 5 in the feeding zone 2-1, the heating zone 2-2 and the cooling zone 3-1 are all positioned at the same horizontal position for smooth glass conveying.

The utility model discloses during the in-service use, on arranging ordinary glass in the cylinder drive assembly 5 in the material loading district 2-1 after opening hinge sealing door 9, then close hinge sealing door 9 when heating, open simultaneously rotatory displacement control motor 1-1 and open, control material loading district 2-1 turns to one side of cooler bin 3, open hinge sealing door 9 when the heating is enough, open simultaneously and remove control telescopic link 1-2 and draw cooler bin 3 to tempering furnace body 2 one side, then carry the glass that the heating was accomplished to cooler bin 3 in through cylinder drive assembly 5 and carry out quick cooling to cooling zone 3-1, in glass heats and cooling process, the opposite side carries out the material loading as material loading district 2-1, effectively improve work efficiency.

As a technical optimization scheme of the utility model, the top of cooler bin 3 is provided with and is used for the kibbling trash ice box 4 of ice-cube, the top of trash ice box 4 is provided with feeding pipe 4-1 that is used for the ice-cube to drop into, the bottom of trash ice box 4 and the cooling chamber 3-2 intercommunication in the cooler bin 3, be provided with the grinder in the trash ice box 4, the ice-cube gets into trash ice box 4 through feeding pipe 4-1, get into cooling chamber 3-2 after smashing in, distribute over in cooling chamber 3-2, the air is cooled off behind cooling chamber 3-2, realize better cooling effect.

As a technical optimization scheme of the utility model, cylinder drive assembly 5 is used for driving the rotatory cylinder 5-2 that glass removed and built-in motor including rotatable be used for driving 5-2 pivoted motor support 5-1 of rotatory cylinder, and rotatory cylinder 5-2 is connected with the built-in motor output shaft of motor support 5-1, and cooling chamber 3-2 bottom sets up the drain pipe, and the ice-cube melts the hot water that produces and can directly discharge, adds through the ice-cube that lasts and realizes better cooling effect.

As a technical optimization scheme, one side of cooler bin 3 is provided with and is used for accesss to toughened glass behind the air cooling and carries out quick refrigerated cooling ventilation assembly, cooling ventilation assembly is including being used for air suction's air pump 7, the cooling tube 8 of leading-in air carries out refrigerated upper and lower breather plate 6 with the exhaust air, the end and the cooling tube 8 intercommunication of giving vent to anger of air pump 7, upper and lower breather plate 6 communicates through the end of giving vent to anger of cooling tube 8 with air pump 7, cooling tube 8 is located cooling chamber 3-2, upper and lower breather plate 6 is located between each cylinder drive assembly 5.

The utility model discloses during the in-service use, through opening of air pump 7 with outside air suction, the cooling effect of cooling tube 8 in cooling chamber 3-2 reduces air temperature, then carries to discharge to the interior back of upper and lower breather plate 6, and upper and lower breather plate 6 alternates and sets up between each glass, can carry out even comprehensive cooling effect of blowing to each glass, guarantees toughened glass's production effect when improving production efficiency.

Claims (8)

1. A rotary tempering furnace with a cooling assembly comprises a control base (1), a tempering furnace body (2) for heating glass, a rotary deflection control motor (1-1) arranged at the top of the control base (1) and used for controlling the tempering furnace body (2) to rotate, a cooling box (3) for rapidly cooling the glass and a movement control telescopic rod (1-2) arranged on the side surface of the control base (1) and used for pushing the cooling box (3) to move; the glass transition furnace is characterized in that the tempering furnace body (2) is arranged at the top of the control base (1) in a sliding mode through rollers and is connected with an output shaft of the rotary displacement control motor (1-1), the cooling box (3) is connected with the telescopic end of the movable control telescopic rod (1-2), a feeding area (2-1) for feeding glass and a heating area (2-2) for heating the glass are arranged in the tempering furnace body (2), electric hinge sealing doors (9) are arranged on one sides of the feeding area (2-1) and the heating area (2-2), a cooling area (3-1) for cooling the glass and a cooling cavity (3-2) for cooling air are arranged in the cooling box (3), the feeding area (2-1), the heating area (2-2) and the cooling area (3-1) are all provided with a control mechanism for moving the glass The roller transmission assembly (5).

2. The rotary tempering furnace with cooling assembly according to claim 1, characterized in that the top of said cooling box (3) is provided with a crusher (4) for crushing ice cubes, and the top of said crusher (4) is provided with a feeding pipe (4-1) for feeding ice cubes.

3. The rotary tempering furnace with cooling assembly according to claim 2, characterized in that the bottom of said refrigerator crusher (4) is connected to said cooling chamber (3-2) in said cooling box (3), and a crusher is provided in said refrigerator crusher (4).

4. The rotary tempering furnace with cooling assembly according to claim 1, wherein said roller transmission assembly (5) comprises a rotary roller (5-2) rotatable for moving glass and a motor support (5-1) with a built-in motor for driving said rotary roller (5-2) to rotate, said rotary roller (5-2) is connected with a motor output shaft built-in said motor support (5-1).

5. A rotary tempering furnace with cooling assembly according to claim 4, characterized in that said roller transmission assembly (5) in the charging zone (2-1), heating zone (2-2) and cooling zone (3-1) are all at the same level for smooth glass conveyance.

6. The rotary tempering furnace with cooling assembly according to claim 1, wherein one side of said cooling box (3) is provided with a cooling and ventilating assembly for rapidly cooling tempered glass after air cooling, said cooling and ventilating assembly comprises an air pump (7) for air suction, a cooling pipe (8) for introducing air and upper and lower ventilating plates (6) for discharging air for cooling.

7. The rotary tempering furnace with cooling assembly according to claim 6, wherein said air pump (7) is connected to said cooling pipe (8) at its outlet end, and said upper and lower aeration plates (6) are connected to said air pump (7) at its outlet end through said cooling pipe (8).

8. The rotary tempering furnace with cooling assembly according to claim 7, wherein said cooling duct (8) is located in said cooling chamber (3-2) and said upper and lower aeration panels (6) are located between each of said drum driving assemblies (5).

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