CN213835041U - Three-section type glass bottle annealing device for production - Google Patents

Abstract

The utility model provides a three-section type glass bottle annealing device for production, which at least comprises a conveyor belt and an annealing furnace on the conveyor belt, wherein a first interlayer and a second interlayer are hung on the top wall in the annealing furnace, the annealing furnace is divided into a first annealing cavity, a second annealing cavity and a third annealing cavity from left to right by the first interlayer and the second interlayer, the first annealing cavity, the second annealing cavity and the third annealing cavity are internally provided with a first gas box, a second gas box and a third gas box respectively, the upper end of the first gas box is communicated with the second gas box through a first communicating pipe, the upper end of the third gas box is communicated with the second gas box through a second communicating pipe, the bottoms of the first gas box, the second gas box and the third gas box are connected with an exhaust plate through outlet pipes, the bottom of the exhaust plate is provided with a plurality of exhaust ports, and the three-section type glass bottle annealing device for production is provided with three chambers with three step temperatures, the annealing time is short, the uneven heating of the glass bottle can be prevented, the operation is convenient, and the effect is good.

Description

Three-section type glass bottle annealing device for production

Technical Field

The utility model relates to a three-section type glass bottle annealing device for production, which belongs to the technical field of glass bottle annealing furnaces.

Background

The glass bottle is produced by blowing and molding high-temperature glass liquid in a molten state by using a model, the temperature of the glass bottle is higher after solidification, the glass bottle needs to be sent into an annealing furnace for annealing, the glass bottle is cooled down at a slow speed after passing through the annealing furnace for a long enough time, so that the thermal stress in the glass is reduced to an allowable value.

Disclosure of Invention

The utility model aims to solve the not enough of current glass bottle annealing device, provide a syllogic glass bottle annealing device is used in production, set up the cavity of three cascaded temperature, annealing time is shorter, can prevent that the glass bottle from being heated unevenly, convenient operation, it is effectual.

The utility model provides a technical scheme that its technical problem adopted as follows: a three-section type glass bottle annealing device for production at least comprises a conveyor belt and an annealing furnace on the conveyor belt, wherein a first interlayer and a second interlayer are hung on the top wall in the annealing furnace, the annealing furnace is divided into a first annealing cavity, a second annealing cavity and a third annealing cavity from left to right by the first interlayer and the second interlayer, the bottoms of the first annealing cavity, the second annealing cavity and the third annealing cavity are communicated, a first air box, a second air box and a third air box are respectively arranged in the first annealing cavity, the second annealing cavity and the third annealing cavity, an air blower is arranged on the annealing furnace and communicated with the top of the second air box through an air pipe, the upper end of the first air box is communicated with the second air box through a first communicating pipe, the upper end of the third air box is communicated with the second air box through a second communicating pipe, and the bottoms of the first air box, the second air box and the third air box are connected with an exhaust plate through an exhaust pipe, and the bottom of the exhaust plate is provided with a plurality of exhaust ports.

Furthermore, the bottom in the first air box is provided with at least two heating pipes, the two heating pipes are respectively positioned at two sides of the communication position of the first air box and the air outlet pipe, and the two heating pipes are spirally wound with heating wires.

Furthermore, be equipped with two baffles in the second gas tank, and the one end of two baffles is connected with the left and right sides inner wall of second gas tank respectively, and the other end of two baffles forms a breach, and the breach is located between tuber pipe and the outlet duct.

Furthermore, a flow guide channel is arranged in the third air box, one end of the flow guide channel is communicated with the second communicating pipe, the other end of the flow guide channel is communicated with the air outlet pipe, and a refrigerating rod is arranged in the flow guide channel.

Further, first interlayer and second interlayer all include connecting plate, guard plate and return air pipe, and the guard plate is located the bottom of connecting plate, and the return air pipe is installed in the inside of guard plate from the bottom embedding of guard plate, the return air pipe communicates with first bellows and third bellows respectively through third communicating pipe, and the bottom of return air pipe is equipped with the return air cover, is equipped with the return air machine on the return air pipe.

Furthermore, a feeding hole and a discharging hole are respectively arranged at the left end and the right end of the annealing furnace.

Furthermore, temperature sensors are arranged inside the exhaust plate of the first annealing cavity and inside the exhaust plate of the third annealing cavity, and controllers are arranged on the annealing furnace.

The utility model provides a production is with syllogic glass bottle annealing device's beneficial effect lies in:

(1) this three-section type glass bottle annealing device is used in production is through setting up first annealing chamber, second annealing chamber and third annealing chamber, start when the air-blower, blow normal atmospheric temperature wind through the tuber pipe in to the second bellows, be equipped with the baffle in the second bellows, make normal atmospheric temperature wind reposition of redundant personnel, get into first bellows respectively, the exhaust plate of third bellows and second bellows, normal atmospheric temperature wind gets into in the first bellows, heat through heating pipe and heating wire, make normal atmospheric temperature wind become hot-blast in advance, normal atmospheric temperature wind gets into in the third bellows, through the refrigeration stick, make normal atmospheric temperature wind become the cooling air, consequently hot-blast in advance, normal atmospheric temperature wind and cooling air all discharge from the gas vent, make the high temperature glass bottle on the conveyer belt pass through hot-blast in advance in proper order, three kinds of cascaded temperature annealing of normal atmospheric temperature wind and cooling air, can prevent that the glass bottle is heated unevenly.

(2) This three-section glass bottle annealing device is used in production is through setting up return air duct and air-return fan, make the hot-blast in advance in first annealing chamber and the normal atmospheric temperature wind in second annealing chamber to glass bottle annealing operation back, the mixture gets into in the return air duct of first interlayer, and get into in the first bellows and the normal atmospheric temperature wind is mixed, discharge from the air exit in first annealing chamber again after preheating, the hot-blast in advance in third annealing chamber and the normal atmospheric temperature wind in second annealing chamber are to glass bottle annealing operation back simultaneously, the mixture gets into in the return air duct of third interlayer, and get into in the third bellows and the normal atmospheric temperature wind is mixed, discharge from the air exit in third annealing chamber again after refrigerating, make energy reuse, and therefore, the cost is reduced, form the circulated air simultaneously, further promotion annealing effect.

(3) This three-section type glass bottle annealing device for production can carry out temperature control to hot-blast and cooling air in advance through setting up temperature sensor, prevents that the cascaded difference in temperature of three-section is great, according to specific local normal atmospheric temperature, adjusts hot-blast and cooling air in advance simultaneously, ensures annealing effect.

Drawings

FIG. 1 is a schematic view of the three-stage glass bottle annealing device for production of the present invention.

FIG. 2 is a schematic view of the inside of the first windbox of the present invention.

FIG. 3 is a schematic view of the inside of a second windbox according to the present invention.

FIG. 4 is a schematic view of the inside of a third windbox of the present invention.

Fig. 5 is a left side view of the first compartment of the present invention.

In the figure: 1. the device comprises a conveying belt, a annealing furnace, a first interlayer, a second interlayer, a first annealing cavity, a second annealing cavity, a third annealing cavity, a first air box, a second air box, a third air box, a blower, an air pipe, a first communicating pipe, a second communicating pipe, an air outlet pipe, a vent plate, an air outlet, a heating pipe, a heating wire, a partition plate, a gap 21, a diversion channel, a refrigerating rod, a connecting plate, a protection plate 26, a return air pipe, a third communicating pipe, a return air cover, a return air fan, a feeding hole, a discharging hole, a temperature sensor 32 and a controller 33.

Detailed Description

The invention is further described with reference to the accompanying drawings and specific embodiments.

As shown in figures 1-5, the utility model provides a three-section type annealing device for glass bottles for production, at least comprises a conveyor belt 1 and an annealing furnace 2 on the conveyor belt 1, wherein a first interlayer 3 and a second interlayer 4 are hung on the top wall in the annealing furnace 2, the annealing furnace 2 is divided into a first annealing chamber 5, a second annealing chamber 6 and a third annealing chamber 7 by the first interlayer 3 and the second interlayer 4 from left to right, the bottoms of the first annealing chamber 5, the second annealing chamber 6 and the third annealing chamber 7 are communicated, a first air blower 8, a second air blower 9 and a third air blower 10 are respectively arranged in the first annealing chamber 5, the second annealing chamber 6 and the third annealing chamber 7, the annealing furnace 2 is provided with an air blower 11, the air blower 11 is communicated with the top of the second air blower 9 through an air pipe 12, the upper end of the first air blower 8 is communicated with the second air blower 9 through a first communicating pipe 13, and the upper end of third gas tank 10 and second gas tank 9 communicate through second communicating pipe 14, the bottom of first gas tank 8, second gas tank 9 and third gas tank 10 all is connected with air discharge plate 16 through outlet duct 15, and air discharge plate 16's bottom is equipped with a plurality of gas vent 17.

Further, at least two heating pipes 18 are arranged at the bottom of the first air box 8, the two heating pipes 18 are respectively located at two sides of the communication position of the first air box 8 and the air outlet pipe 15, and heating wires 19 are spirally wound on the two heating pipes 18.

Furthermore, two clapboards 20 are arranged in the second air tank 9, one ends of the two clapboards 20 are respectively connected with the inner walls of the left side and the right side of the second air tank 9, the other ends of the two clapboards 20 form a gap 21, and the gap 21 is positioned between the air pipe 12 and the air outlet pipe 15.

Further, a flow guide channel 22 is arranged in the third air box 10, one end of the flow guide channel 22 is communicated with the second communicating pipe 14, the other end of the flow guide channel 22 is communicated with the air outlet pipe 15, and a refrigerating rod 23 is arranged in the flow guide channel 22.

Further, first interlayer 3 and second interlayer 4 all include connecting plate 24, guard plate 25 and return-air duct 26, and guard plate 25 is located the bottom of connecting plate 24, and return-air duct 26 is installed in the inside of guard plate 25 from the bottom embedding of guard plate 25, return-air duct 26 communicates with first bellows 8 and third bellows 10 respectively through third communicating pipe 27, and the bottom of return-air duct 26 is equipped with return-air cover 28, is equipped with return-air blower 29 on the return-air duct 26.

Further, a feeding port 30 and a discharging port 31 are respectively arranged at the left end and the right end of the annealing furnace 2.

Further, temperature sensors 32 are arranged inside the exhaust plate 16 of the first annealing chamber 5 and inside the exhaust plate 16 of the third annealing chamber 7, and a controller 33 is arranged on the annealing furnace 2.

The three-section type glass bottle annealing device for production comprises the following use steps: starting an air blower 11, blowing normal-temperature air into a second air box 9 through an air pipe 12, arranging a partition plate 20 in the second air box 9, enabling the normal-temperature air to be divided and respectively enter an air exhaust plate 16 of the first air box 8, the third air box 10 and the second air box 9, enabling the normal-temperature air to enter the first air box 8, heating through a heating pipe 18 and an electric heating wire 19, enabling the normal-temperature air to be changed into pre-heated air, enabling the normal-temperature air to enter the third air box 10, enabling the normal-temperature air to be changed into cooling air through a refrigerating rod 23, therefore, the pre-heated air, the normal-temperature air and the cooling air are all exhausted from an air outlet 17, enabling high-temperature glass bottles on a conveyor belt 1 to be sequentially annealed at three stepped temperatures of the pre-heated air, the normal-temperature air and the cooling air, and after the glass bottles are annealed by the pre-heated air of a first annealing chamber 5 and the normal-temperature air of a second annealing chamber 6, mixing the mixed air into a return air pipe 26 of the first interlayer 3, and then mixing with the air in the first air box 8, after preheating, the preheated air is exhausted from the air outlet 17 of the first annealing cavity 5 again, and simultaneously, after the preheated air of the third annealing cavity 7 and the normal temperature air of the second annealing cavity 6 anneal the glass bottles, the preheated air and the normal temperature air are mixed into the air return pipe 26 of the third interlayer 4, and the air and the normal temperature air are mixed in the third air box 10, and the air is exhausted from the air outlet 17 of the third annealing cavity 7 again after refrigeration.

The air returning fan 29 is similar to an exhaust fan, and can suck air below the air returning cover 28 into the air returning pipe 26, so that air circulation flow is formed, and the air returning fan is similar to an air outlet and an air returning opening of a central air conditioner.

Preferably, the partition plate 20 in the second air box 9 is divided into a transverse plate and an inclined plate, and the angle between the inclined plate and the transverse plate can be automatically adjusted, so that the size of the gap 21 formed between the two inclined plates can be adjusted, and the air volume of the normal temperature air entering the first air box 8, the second air box 9 and the third air box 10 can be adjusted.

Preferably, the air outlet pipes 15 in the three chambers can adopt an automatic telescopic structure, and the annealing strength can be adjusted by adjusting the distance between the air outlet 17 in the three chambers and the glass bottle.

Preferably, a temperature metering device is arranged in the air pipe 12, the temperature of the normal temperature air can be recorded, and the temperatures of the pre-heating air and the cooling air can be adjusted through the temperature of the normal temperature air, so that the annealing effect is ensured.

Claims (7)

1. The utility model provides a production is with syllogic glass bottle annealing device, includes the annealing stove on conveyer belt and the conveyer belt at least, its characterized in that: the annealing furnace is characterized in that a first interlayer and a second interlayer are hung on the top wall in the annealing furnace, the annealing furnace is divided into a first annealing chamber, a second annealing chamber and a third annealing chamber from left to right by the first interlayer and the second interlayer, the bottoms of the first annealing chamber, the second annealing chamber and the third annealing chamber are communicated, a first air box, a second air box and a third air box are respectively arranged in the first annealing chamber, the second annealing chamber and the third annealing chamber, an air blower is arranged on the annealing furnace and communicated with the top of the second air box through air pipes, the upper end of the first air box is communicated with the second air box through a first communicating pipe, the upper end of the third air box is communicated with the second air box through a second communicating pipe, the bottoms of the first air box, the second air box and the third air box are connected with an exhaust plate through air outlet pipes, and the bottom of the exhaust plate is provided with a plurality of exhaust ports.

2. The three-stage glass bottle annealing device for production according to claim 1, wherein: the bottom in the first gas tank is provided with at least two heating pipes, the two heating pipes are respectively positioned at two sides of the communication part of the first gas tank and the gas outlet pipe, and the two heating pipes are spirally wound with heating wires.

3. The three-stage glass bottle annealing device for production according to claim 1, wherein: two clapboards are arranged in the second air box, one ends of the two clapboards are respectively connected with the inner walls of the left side and the right side of the second air box, the other ends of the two clapboards form a notch, and the notch is positioned between the air pipe and the air outlet pipe.

4. The three-stage glass bottle annealing device for production according to claim 1, wherein: and a flow guide channel is arranged in the third air box, one end of the flow guide channel is communicated with the second communicating pipe, the other end of the flow guide channel is communicated with the air outlet pipe, and a refrigeration rod is arranged in the flow guide channel.

5. The three-stage glass bottle annealing device for production according to claim 1, wherein: first interlayer and second interlayer all include connecting plate, guard plate and return air pipe, and the guard plate is located the bottom of connecting plate, and the return air pipe is installed in the inside of guard plate from the bottom embedding of guard plate, the return air pipe communicates with first bellows and third bellows respectively through third communicating pipe, and the bottom of return air pipe is equipped with the return air cover, is equipped with the return air machine on the return air pipe.

6. The three-stage glass bottle annealing device for production according to claim 1, wherein: the left end and the right end of the annealing furnace are respectively provided with a feeding hole and a discharging hole.

7. The three-stage glass bottle annealing device for production according to claim 1, wherein: and temperature sensors are arranged inside the exhaust plate of the first annealing cavity and inside the exhaust plate of the third annealing cavity, and controllers are arranged on the annealing furnace.

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