CN105271663A - Glass sheet production line cooling apparatus - Google Patents

Abstract

The invention discloses a glass sheet production line cooling apparatus, and relates to the technical field of explosion-proof glass production apparatuses. The apparatus comprises a frame, a belt conveyor arranged at the lower portion of the frame, and a belt conveyor driving motor arranged at the upper portion of the frame; a cooling water heat exchanger is arranged just below the belt conveyor; the left side and the right side of the cooling water heat exchanger are respectively provided with a guide wheel; the lower portion belt of the belt conveyor traverses through the cooling water heat exchanger and gets around the two guide wheels; the belt is formed by a belt substrate and a soft heat conduction silica gel belt; the middle portion of the belt substrate is provided with a groove; the soft heat conduction silica gel belt is applied into the groove; the inside of the soft heat conduction silica gel belt is provided with a cavity; and the cavity is filled with a liquid coolant. The temperature of the soft heat conduction silica gel belt is reduced through the cooling water heat exchanger, and the temperature of glass is reduced through the soft heat conduction silica gel belt in contact with the glass, so the apparatus has the advantages of no ventilation and few dusts in the cooling process, low energy consumption and good cooling effect.

Description

Sheet glass production line refrigerating unit

Technical field

The present invention relates to implosion guard production unit technical field.

Background technology

The main raw material that implosion guard is produced has glass-former, glass to adjust thing and glass intermediate, and all the other are auxiliary material.Main raw material guides and forms the oxide compound of network, intermediate oxide and network external oxidation thing into glass; Auxiliary material comprises finings, fusing assistant, opacifying agent, tinting material, discoloring agent, Oxidizing and Reducing Agents etc.

Process of glass, mainly comprises: 1. raw material preprocessing.Block stock (quartz sand, soda ash, Wingdale, feldspar etc.) is pulverized, makes moist raw material drying, iron-bearing material is carried out deironing process, to ensure glass quality; 2. admixtion preparation; 3. found, glass batch carries out high temperature (1550 ~ 1600 degree) heating in tank furnace or pot furnace, makes it to form even, bubble-free, and meets the liquid glass of forming requirements; 4. shaping, liquid glass is processed into the goods of required shape, as flat board, various vessel etc.; 5. thermal treatment, by techniques such as annealing, quenchings, eliminates or produces the stress of inside glass, phase-splitting or crystallization, and change the structural state of glass.

Sheet glass is awfully hot after production, be out of shape to not make it and facilitate post-processed etc., need to cool, sheet glass is cooled by air-cooled intensifying device while being transmitted by roller conveyor, but the air outlet complicated layout of existing refrigerating unit, and air feed is uneven, be difficult to efficient uniform ground cooled glass plate.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of sheet glass production line refrigerating unit, it reduces the temperature of flexible thermal conductive silicone band by cooling water heat exchanger, then by reducing the temperature of glass with the flexible thermal conductive silicone band of glass contact, stuffy, the few dust of temperature-fall period, energy consumption is low, good cooling effect.

For solving the problem, the technical scheme that the present invention takes is: provide a kind of sheet glass production line refrigerating unit, the drive-motor of the belt conveyor of upper rack that comprises frame, is arranged on the belt conveyor of frame lower, is arranged on; Immediately below belt conveyor, cooling water heat exchanger is installed; The left and right sides of cooling water heat exchanger installs a guide wheel respectively; The lower belt of belt conveyor passes cooling water heat exchanger and walks around from two guide wheels; Described belt is made up of belt matrix, flexible thermal conductive silicone band; The middle part of belt matrix is provided with groove; Flexible thermal conductive silicone band is fitted in groove; Flexible thermal conductive silicone band inside is provided with cavity; Cooling fluid is filled with in cavity.

Further optimization the technical program, is evenly provided with dividing plate in the cavity of sheet glass production line refrigerating unit; Cavity is evenly completely cut off separate heat exchange storehouse by dividing plate in cavity.

Further optimization the technical program, is provided with at least one row's rubber roller directly over the belt conveyor of sheet glass production line refrigerating unit; Each rubber roller is installed on a supporting leg; Supporting leg in the vertical direction is provided with spring shock absorber.

Further optimization the technical program, two belt exits of the cooling water heat exchanger of sheet glass production line refrigerating unit are all provided with absorbent wool block; The bottom of absorbent wool block extends to the inner chamber top of cooling water heat exchanger; Absorbent wool block has the groove coordinated with belt friction.

Compared with traditional air-cooled cooling apparatus, adopt technique scheme, the beneficial effect of generation is: 1, glass is in the process transmitted, and contact with the flexible thermal conductive silicone band of belt, direct heat exchange, plant factor is high.Fill cooling fluid in flexible thermal conductive silicone band, upper surface is soft, and abundant with glass contact, the thermal conductivity of heat conductive silica gel is high, can heat exchange fully in the process transmitted, the temperature of reduction glass.The temperature-fall period of glass, can not secondary pollution not by airflow influence.The cooling degree of glass can be controlled by the power controlling transfer rate and cooling water heat exchanger.2, the inner isolated one-tenth a series of independently heat exchange storehouse of flexible thermal conductive silicone band, can prevent cooling fluid crossfire in cavity like this, ensure the heat exchanger effectiveness between flexible thermal conductive silicone band and cooling water heat exchanger, between flexible thermal conductive silicone band and glass.3, after glass enters belt conveyor, can be applied downward pressure by rubber roller, further guarantee glass fully contacts with flexible thermal conductive silicone band.3, due to mechanical vibration and action of gravity, the water coolant that belt adheres to just can come off totally before entering horizontality, the water coolant that absorbent wool block can wiping belt adhere to, and ensures the clean of glass further.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Fig. 2 is the working state schematic representation of belt conveyor;

Fig. 3 is the structural representation of cooling water heat exchanger;

Fig. 4 is the structural representation of flexible thermal conductive silicone band.

In figure, 1, frame; 2, belt conveyor; 3, drive-motor; 4, cooling water heat exchanger; 5, guide wheel; 6, belt matrix; 7, flexible thermal conductive silicone band; 8, groove; 9, cavity; 10, dividing plate; 11, heat exchange storehouse; 12, rubber roller; 13, supporting leg; 14, spring shock-absorbing device; 15, absorbent wool block; 16, groove; 17, belt; 18, glass; 19, rising pipe; 20, water inlet pipe.

Embodiment

Below in conjunction with the drawings and specific embodiments, the present invention is further detailed explanation.

Shown in Fig. 1-4, sheet glass production line refrigerating unit, is characterized in that: the drive-motor 3 comprising frame 1, be arranged on the belt conveyor 2 of frame 1 bottom, be arranged on the belt conveyor 2 on frame 1 top; Cooling water heat exchanger 4 is installed immediately below belt conveyor 2; The left and right sides of cooling water heat exchanger 4 installs a guide wheel 5 respectively; The lower belt 17 of belt conveyor 2 passes cooling water heat exchanger 4 and walks around from two guide wheels 5; Described belt 17 is made up of belt matrix 6, flexible thermal conductive silicone band 7; The middle part of belt matrix 6 is provided with groove 8; Flexible thermal conductive silicone band 7 is fitted in groove 8; Flexible thermal conductive silicone band 7 inside is provided with cavity 9; Cooling fluid is filled with in cavity 9; Dividing plate 10 is evenly provided with in cavity 9; Cavity 9 is evenly completely cut off separate heat exchange storehouse 11 by dividing plate 10 in cavity 9; At least one row's rubber roller 12 is installed directly over belt conveyor 2; Each rubber roller 12 is installed on a supporting leg 13; Supporting leg 13 in the vertical direction is provided with spring shock absorber 14; Two belt exits of cooling water heat exchanger 4 are all provided with absorbent wool block 15; The bottom of absorbent wool block 15 extends to the inner chamber top of cooling water heat exchanger 4; Absorbent wool block 15 has the groove 16 with belt 17 frictional fit.

Glass 18 is in the process transmitted, and contact with the flexible thermal conductive silicone band 7 of belt 17, direct heat exchange, plant factor is high.Fill cooling fluid in flexible thermal conductive silicone band 7, upper surface is soft, and contact fully with glass 18, the thermal conductivity of heat conductive silica gel is high, can heat exchange fully in the process transmitted, the temperature of reduction glass 18.The temperature-fall period of glass 18, can not secondary pollution not by airflow influence.

In the present embodiment, can in the temperature of the end installation infrared temperature sensor measurement glass 18 of belt conveyor 2, the temperature according to measuring has three kinds of adjustment modes:

1, the chilled(cooling) water supply (CWS) flow of cooling water heat exchanger 4, the temperature of the final glass 18 of temperature change is adjusted.

2, according to the production slice speed of streamline, the belt conveyor 2 of customization different lengths, can extend or reduce the duration of contact of glass 18 and belt 17 like this.

3, according to the production slice speed of streamline, the travelling speed of adjustment belt conveyor 2, can extend or reduce the duration of contact of glass 18 and belt 17 like this.

Flexible thermal conductive silicone band 7 inner isolated one-tenth a series of independently heat exchange storehouse 11, cooling fluid crossfire in cavity 9 can be prevented like this, ensure the heat exchanger effectiveness between flexible thermal conductive silicone band 7 and cooling water heat exchanger 4, between flexible thermal conductive silicone band 7 and glass 18.

In use, the water coolant of the continuous logical cocycle of cooling water heat exchanger 4, belt conveyor 2 starts and is immersed in water coolant below rear belt 17 the present embodiment, and flexible thermal conductive silicone band 7 and cooling water heat exchange temperature reduce.After starting for some time, all heat exchange storehouse 11 temperature all reduce.Now glass can be transmitted.

Glass 18 is sent to after on belt 17, rides on flexible thermal conductive silicone band 7, and roll with rubber roller 12 and coordinate in top, the made of soft of flexible thermal conductive silicone band 7 own, and its inner filling cooling fluid, carry out heat exchange so fully can contact with glass 18.

Due to mechanical vibration and action of gravity, the water coolant that belt 17 adheres to just can come off totally before entering horizontality, the water coolant that absorbent wool block 15 can wiping belt 17 adhere to, and ensures cleaning of glass further.

Due in the present embodiment, water coolant directly contacts with belt 17, may also touch glass 18, in order to ensure the clean of glass 18, uses the water coolant after deionization as refrigerant on the one hand as far as possible; To change water coolant every for some time or filter on the other hand, reduce the impurity of its mixing.

Claims (4)

1. a sheet glass production line refrigerating unit, is characterized in that: the drive-motor (3) of the belt conveyor (2) on frame (1) top that comprises frame (1), is arranged on the belt conveyor (2) of frame (1) bottom, is arranged on; Cooling water heat exchanger (4) is installed immediately below belt conveyor (2); The left and right sides of cooling water heat exchanger (4) installs a guide wheel (5) respectively; The lower belt (17) of belt conveyor (2) is through cooling water heat exchanger (4) and walk around from two guide wheels (5); Described belt (17) is made up of belt matrix (6), flexible thermal conductive silicone band (7); The middle part of belt matrix (6) is provided with groove (8); Flexible thermal conductive silicone band (7) is fitted in groove (8); Flexible thermal conductive silicone band (7) inside is provided with cavity (9); Cavity is filled with cooling fluid in (9).

2. sheet glass production line refrigerating unit according to claim 1, is characterized in that: be evenly provided with dividing plate (10) in cavity (9); Cavity (9) is evenly completely cut off separate heat exchange storehouse (11) by dividing plate (10) in cavity (9).

3. sheet glass production line refrigerating unit according to claim 1, is characterized in that: be provided with at least one row's rubber roller (12) directly over belt conveyor (2); Each rubber roller (12) is installed on a supporting leg (13); Supporting leg (13) in the vertical direction is provided with spring shock absorber (14).

4. sheet glass production line refrigerating unit according to claim 1, is characterized in that: two belt exits of cooling water heat exchanger (4) are all provided with absorbent wool block (15); The bottom of absorbent wool block (15) extends to the inner chamber top of cooling water heat exchanger (4); Absorbent wool block (15) has the groove (16) with belt (17) frictional fit.