CN105712615A - Full-automatic eight-station bus-glass continuous drying bending furnace and forming technology - Google Patents

Abstract

The invention discloses a full-automatic eight-station bus-glass continuous drying bending furnace and a forming technology. The full-automatic eight-station bus-glass continuous drying bending furnace comprises an upper layer, a lower layer and a left-right-combination furnace body, a lining board shaped like a Chinese character 'kou' is adopted for circulating continuous heating and a draught fan is adopted fro forced annealing cooling; a single-chamber hot bending furnace independently-improving mode is adopted in a forming area, so that convenience is brought to operation and observeing; trolley horizontally-conveying-and-positioning devices are arranged in an assembling and disassembling area and a transferring area of the furnace body, a lifting table for containing a feeding trolley is arranged inside the forming area, a driving motor for driving the lifting table is arranged at the top of the forming area, and a forced-air cooling device is arranged in a furnace-body forced cooling area. According to the full-automatic eight-station bus-glass continuous drying bending furnace and the forming technology, as the single production mode of the drying bending furnace is improved to a multi-station continuous production mode, all temperature intervals are separated through different stations, production efficiency is improved, and electric energy is saved; as the production process is uniformly controlled through an operating table, the product quality can be effectively guaranteed; meanwhile, the safety risk factors in the bus-glass deep-processing process can be decreased, and the production cost of an enterprise can be saved.

Description

Full-automatic eight station big bus glass continuous bending furnace and moulding processs

Technical field

The present invention relates to the technical field of process of glass, relate to a kind of full-automatic eight station big bus glass continuous bending furnace and moulding processs concretely.

Background technology

In the production process of big bus glass, glass is carried out drying roll forming by wherein more important production process exactly, the baking roll forming of glass is completed by big bus one-way fired furnace, and it is mainly made up of chassis, body of heater, main lifting device, and specific works flow process is that the glass to process is placed on the mould of chassis, then it is transported to below body of heater, main lifting device promotes chassis, makes chassis and body of heater Guan Bi, heats to glass baking o ing, progressively cooling down again, puts down chassis and takes out the big bus glass shaped.Such technological process makes the cooling that is heated to of glass all complete in a stove, not only overlong time and also make the heat in body of heater be dispersed into outside body of heater in a large number and be directly entered workshop, waste heat energy, also because all adopting manually operated single chamber baking and bending furnace in automobile big bus glass post-processing field in the past, it once can only dry a curved folder, and difficult quality is guaranteed.

Summary of the invention

It is an object of the invention to overcome deficiency of the prior art to provide a kind of each temperature section heated and cool down to separating, improve production efficiency, and production process is operated by platform and is uniformly controlled, product quality can be effectively ensured, it also reduces the security risk coefficient in big bus glass post-processing process simultaneously, the full-automatic eight station big bus glass continuous bending furnaces of production cost can be saved for enterprise.

The object of the present invention is achieved like this:

A kind of full-automatic eight station big bus glass continuous bending furnaces, it includes a left side, right side is the combination body of heater of circulation in hollow, at the charging chassis that combination stove body-internal-circulation is moved, trolley track, loading place and be arranged on the operating board of body of heater side, described trolley track is arranged on the bottom of combination body of heater, described loading place is arranged on the outer front end of combination body of heater, the first preheating zone it is followed successively by from front to back on the left of described combination body of heater, second preheating zone, bilevel shaping area, treat transfer district, transfer district, it is followed successively by the first annealed zone from rear to front on the right side of described body of heater, second annealed zone, cooling zone, treat discharge zone, described shaping area is provided with the lifting platform for placing charging chassis, described lifting platform top is provided with frequency conversion braking motor, described charging chassis side is provided with removable transparent windows.

Above-mentioned full-automatic eight station big bus glass continuous bending furnaces, described charging chassis is made up of lower floor's vehicle frame and the casing being installed on lower floor's vehicle frame top, and described body side is provided with concave block.

Above-mentioned full-automatic eight station big bus glass continuous bending furnaces, described charging chassis is internally provided with the glass auxiliary support frame and auxiliary heater with elevating function, described glass auxiliary support frame is arranged in the middle part of charging chassis, and described auxiliary heater is separately positioned on glass auxiliary support frame two ends.

Above-mentioned full-automatic eight station big bus glass continuous bending furnaces, are provided with heat-insulation layer outside described shaping area, described heat-insulation layer adopts import Finland UNIFAX aluminosilicate fiberboard.

Above-mentioned full-automatic eight station big bus glass continuous bending furnaces, described the first preheating zone, the second preheating zone and top, shaping area are provided with heating furnace silk, and described top, shaping area is additionally provided with the longitudinal heater being freely lifted.

Above-mentioned full-automatic eight station big bus glass continuous bending furnaces, described longitudinal heater is designed as 12 groups, is separately positioned on both sides, shaping area, places side for every 6 groups.

Above-mentioned full-automatic eight station big bus glass continuous bending furnaces, described loading place is provided with the suspension bracket that can make vertical motion, the concave block of described suspension bracket and loading platform box body side with the use of.

Above-mentioned full-automatic eight station big bus glass continuous bending furnaces, described charging chassis one end is provided with for pushing the transport trolley that charging chassis all around moves.

A kind of full-automatic eight station big bus glass continuous bending furnace moulding processs, above-mentioned charging chassis sequentially enters the first preheating zone of body of heater, the second preheating zone, shaping area, treats transfer district, transfer district, the first annealed zone, the second annealed zone, cooling zone, treat discharge zone, loading place, complete all processes that big bus glass baking is curved, first charging chassis is entered the first preheating zone by loading place, being 450 seconds in the first preheating zone time of staying, temperature range controls at 240 DEG C 260 DEG C；Entering the second preheating zone, be 450 seconds in the second preheating zone time of staying, temperature range controls at 380 DEG C 400 DEG C；Entering shaping area, be the 450-550 second at upper strata, shaping area heating dwell times, temperature range controls at 550 DEG C 620 DEG C；Charging chassis out enters shaping area lower floor afterwards after upper strata, shaping area is heated, and 450 seconds shaping area lower floor time of staying, is directly entered the first annealed zone, is 450 seconds in the first annealed zone time of staying, and temperature range controls at 380 DEG C 400 DEG C；Entering the second annealed zone, be 450 seconds in the second annealed zone time of staying, temperature controls at 240 DEG C 260 DEG C；Enter cooling zone, it it is 450 seconds in the time of staying of cooling zone, adopt strong wind cooling, the chassis that feeds after cooling enters treats discharge zone, enter loading place when the previous charging chassis treating wait loading place, discharge zone moves to next station and carry out feeding charging, be again introduced into the first preheating zone and start new heat cycles.

Present invention have the advantage that the full-automatic eight station big bus glass continuous bending furnaces of the present invention, adopt multistation Sequential Production, effectively reduce energy consumption, improve production efficiency, this big bus glass continuous bending furnace reasonable in design is brief, labor strength can be alleviated while ensureing operation safety, adopt operating board to be heated and transmission controls, and observation window sight glass molding can be passed through, can provide for product quality and ensure, bring income for enterprise.

Accompanying drawing explanation

Fig. 1 is the front view of the present invention；

Fig. 2 is the left view of the present invention；

Fig. 3 is the top view of the present invention；

Fig. 4 is the shaping area stove silk scattergram of the present invention；

Fig. 5 is loading platform car owner's view of the present invention；

Fig. 6 is the charging chassis left view of the present invention；

Fig. 7 is the charging chassis top view of the present invention；

Fig. 8 is the glass auxiliary support frame structure chart of the present invention；

Fig. 9 is the loading place side view of the present invention；

Figure 10 is the transfer district top view of the present invention.

In figure: 1-body of heater, 2-feeds chassis, 3-trolley track, 4-loading place, 5-operating board, 6-the first preheating zone, 7-the second preheating zone, 8-shaping area, 9-treats transfer district, 10-transfer district, 11-the first annealed zone, 12-the second annealed zone, 13-cooling zone, 14-treats discharge zone, 15-lifting platform, 16-frequency conversion braking motor, 17-may move transparent windows, 18-transport trolley, 19-vehicle frame, 20-casing, 21-concave block, 22-glass auxiliary support frame, 23-auxiliary heater, 24-heating furnace silk, 25-longitudinal direction heater, 26-suspension bracket, 27-servomotor.

Detailed description of the invention

Such as Fig. 1, 2, 3, shown in 4, a kind of full-automatic eight station big bus glass continuous bending furnaces, it includes a left side, right side adopts the combination body of heater 1 of hollow circulating working mode, at the charging chassis 2 that combination body of heater 1 internal recycle moves, the outside high-quality high-purity import Finland UNIFAX aluminosilicate fiberboard arranging 80mm thickness of above-mentioned charging chassis 2 makes external thermal insulation, trolley track 3, loading place 4 and be arranged on the operating board 5 of body of heater side, described operating board 5 is the computer with PLC control program, described trolley track 3 is arranged on the bottom of combination body of heater 1, described loading place 4 is arranged on the outer front end of combination body of heater 1, the first preheating zone 6 it is followed successively by from front to back on the left of described combination body of heater 1, second preheating zone 7, bilevel shaping area 8, shaping area 8 is set to two-layer and is easy to observe in the process of heating, big bus glass carries out on upper strata drying o ing, treat transfer district 9, transfer district 10, it is followed successively by the first annealed zone 11 from rear to front on the right side of described body of heater 1, second annealed zone 12, cooling zone 13, treat discharge zone 14, described shaping area 8 is provided with the lifting platform 15 for placing charging chassis 2, described lifting platform 15 top is provided with frequency conversion braking motor 16, described charging chassis 2 side is provided with removable transparent windows 17, during work, there is charging chassis 2 loading place 4, when the charging chassis 2 of loading place 4 enters into the first preheating zone 6, left side charging chassis 2 within body of heater 1 moves toward next station successively, then next charging chassis 2 is moved to loading place 4 and waits entrance work, adopt this multidigit Sequential Production, effectively reduce energy consumption, improve production efficiency.

As shown in Figure 5, described charging chassis 2 is made up of lower floor's vehicle frame 19 and the casing 20 being installed on lower floor's vehicle frame 19 top, described casing 20 side is provided with concave block 21, the described square that charging chassis 2 is rule, removable clear glass observation window 17 is set to two, is symmetrically arranged at the both sides of charging chassis 2, and concave block 21 is also two, it is symmetrically arranged at the other both sides of charging chassis 2, convenient charging and feeding.

Such as Fig. 6, 7, shown in 8, described charging chassis 2 is internally provided with the glass auxiliary support frame 22 with elevating function for preventing deadweight fracture and auxiliary heater 23 before glass ware forming, described glass auxiliary support frame 22 is arranged in the middle part of charging chassis 2, described auxiliary heater 23 is separately positioned on glass auxiliary support frame 22 two ends, above-mentioned charging chassis 2 is internal arranges glass auxiliary support frame 22, only the glass horizontal support equipped with glass need to be transported to above glass auxiliary support frame 22, slowly lift support plays glass, pull away glass horizontal support again, during discharging, glass auxiliary support machine slowly raises jack-up big bus glass, again glass horizontal support is placed on below big bus glass, reduce on glass auxiliary support frame 22 to glass horizontal support, carefully remove glass horizontal support again, can be prevented effectively from and glass is manually carried away potential safety hazard, convenient laborsaving, charging chassis 2 arranges auxiliary heater 23, above-mentioned auxiliary heater 23 is by heating wire, high-temperature ceramic forms, it is placed on the glass left and right sides following, can help highly difficult glass sides forming process easily shapes and ensures excessively smooth and easy.

As shown in Figure 4, the outside heat-insulation layer that is provided with in described shaping area 8, described heat-insulation layer adopts import Finland UNIFAX aluminosilicate fiberboard, is prevented effectively from heat energy dissipation, and described shaping area 8 arranges heat-insulation layer, and insulation thickeies so that the energy is saved more.

As shown in Figure 4, described the 6, second preheating zone 7, the first preheating zone and top, shaping area 8 are provided with heating furnace silk 24, big bus glass is heated, described top, shaping area 8 is additionally provided with the longitudinal heater 25 being freely lifted, described longitudinal heater 25 is designed as 12 groups, is separately positioned on both sides, shaping area 8, places side for every 6 groups, can be freely lifted and make big bus glass form required curved shape, easy to operate.

Such as Fig. 9, shown in 10, described loading place 4 is provided with the suspension bracket 26 that can make vertical motion, the concave block 21 of described suspension bracket 26 and charging chassis 2 casing 20 side with the use of.

Such as Fig. 9, shown in 10, described charging chassis 2 one end is provided with for pushing the transport trolley 18 that charging chassis all around moves, above-mentioned loading place 4 is provided with charging chassis 2, trolley track 3, transport trolley 18, transport trolley 18 promotes charging chassis 2 to move left and right on trolley track 3 under the effect of servomotor 27, top, above-mentioned loading place 4 is provided with suspension bracket 26, suspension bracket 26 can do vertical elevating movement, during discharging, the concave block 21 of casing 20 side clamped downwards by suspension bracket 26, the vehicle frame 19 making casing 20 and charging chassis 2 then up separates, then transport trolley 18 promotes the vehicle frame 19 of chassis 2 bottom that feeds to move to the left side of loading place 4, complete take glass and place the operation of glass, then the right side of loading place 4 is moved to again, the new big bus glass placed is heated molding.

As shown in Figure 10, when charging chassis 2 is from treating that transfer district 9 moves to transfer district 10, charging chassis 2 moves under the propelling movement of transport trolley 18 and enters into the first annealed zone 11 on the right side of transfer district 10.

The full-automatic eight station big bus glass continuous bending furnace moulding processs of one of the present invention are: above-mentioned charging chassis 2 sequentially enters the 6, second preheating zone 7, the first preheating zone, the shaping area 8 of body of heater 1, treats transfer district 9, the 11, second annealed zone 12, the 10, first annealed zone, transfer district, cooling zone 13, treats discharge zone 14, loading place 15, complete all processes that big bus glass baking is curved, first charging chassis 2 is entered the first preheating zone 6 by loading place 4, being 450 seconds in first preheating zone 6 time of staying, temperature range controls at 260 DEG C；Entering the second preheating zone 7, be 450 seconds in second preheating zone 7 time of staying, temperature range controls at 400 DEG C；Entering shaping area 8, on upper strata, shaping area 8, heating dwell times is 450 seconds, and temperature range controls at 620 DEG C；Charging chassis 2 out enters shaping area 8 lower floor afterwards after upper strata, shaping area 8 is heated, and 450 seconds shaping area 8 lower floor's time of staying, is directly entered the first annealed zone 11, is 450 seconds in first annealed zone 11 time of staying, and temperature range controls at 400 DEG C；Entering the second annealed zone 12, be 450 seconds in second annealed zone 12 time of staying, temperature controls at 260 DEG C；Enter cooling zone 13, it it is 450 seconds in the time of staying of cooling zone 13, adopt strong wind cooling, force the type of cooling uniform and stable to ensure glass hard force, the chassis that feeds after cooling enters treats discharge zone 14, treating that discharge zone 14 waits that the previous charging chassis 2 of loading place 4 enters loading place 4 when moving to next station and carries out feeding charging, it is again introduced into the first preheating zone 6 and starts new heat cycles.

Above-mentioned charging chassis 2 sequentially enters the 6, second preheating zone 7, the first preheating zone, the shaping area 8 of body of heater 1, treats transfer district 9, the 11, second annealed zone 12, the 10, first annealed zone, transfer district, cooling zone 13, treats discharge zone 14, loading place 15, complete all processes that big bus glass baking is curved, first charging chassis 2 is entered the first preheating zone 6 by loading place 4, being 500 seconds in first preheating zone 6 time of staying, temperature range controls at 240 DEG C；Entering the second preheating zone 7, be 500 seconds in second preheating zone 7 time of staying, temperature range controls at 380 DEG C；Entering shaping area 8, on upper strata, shaping area 8, heating dwell times is 500 seconds, and temperature range controls at 550 DEG C；Charging chassis 2 out enters shaping area 8 lower floor afterwards after upper strata, shaping area 8 is heated, and 500 seconds shaping area 8 lower floor's time of staying, is directly entered the first annealed zone 11, is 500 seconds in first annealed zone 11 time of staying, and temperature range controls at 380 DEG C；Entering the second annealed zone 12, be 450 seconds in second annealed zone 12 time of staying, temperature controls at 240 DEG C；Enter cooling zone 13, it it is 500 seconds in the time of staying of cooling zone 13, adopt strong wind cooling, force the type of cooling uniform and stable to ensure glass hard force, the chassis that feeds after cooling enters treats discharge zone 14, treating that discharge zone 14 waits that the previous charging chassis 2 of loading place 4 enters loading place 4 when moving to next station and carries out feeding charging, it is again introduced into the first preheating zone 6 and starts new heat cycles.

Heating and driving control system in the full-automatic eight station big bus glass continuous bending furnaces of the present invention adopt computer and PLC control system to carry out automatic production procedure control, each glass size variety production parameter automatic Memory stores, the computer heating control parameter producing same size kind can be identical, thus it is consistent to be effectively ensured glass product molding situation, reduce personal error factor.

Claims (9)

1. full-automatic eight station big bus glass continuous bending furnaces, it is characterized in that: it includes a left side, right side is the combination body of heater of circulation in hollow, at the charging chassis that combination stove body-internal-circulation is moved, trolley track, loading place and be arranged on the operating board of body of heater side, described trolley track is arranged on the bottom of combination body of heater, described loading place is arranged on the outer front end of combination body of heater, the first preheating zone it is followed successively by from front to back on the left of described combination body of heater, second preheating zone, bilevel shaping area, treat transfer district, transfer district, it is followed successively by the first annealed zone from rear to front on the right side of described body of heater, second annealed zone, cooling zone, treat discharge zone, described shaping area is provided with the lifting platform for placing charging chassis, described lifting platform top is provided with frequency conversion braking motor, described charging chassis side is provided with removable transparent windows.

2. full-automatic eight station big bus glass continuous bending furnaces according to claim 1, it is characterised in that: described charging chassis is made up of lower floor's vehicle frame and the casing being installed on lower floor's vehicle frame top, and described body side is provided with concave block.

3. full-automatic eight station big bus glass continuous bending furnaces according to claim 1, it is characterized in that: described charging chassis is internally provided with the glass auxiliary support frame and auxiliary heater with elevating function, described glass auxiliary support frame is arranged in the middle part of charging chassis, and described auxiliary heater is separately positioned on glass auxiliary support frame two ends.

4. full-automatic eight station big bus glass continuous bending furnaces according to claim 1, it is characterised in that: being provided with heat-insulation layer outside described shaping area, described heat-insulation layer adopts aluminosilicate fiberboard.

5. full-automatic eight station big bus glass continuous bending furnaces according to claim 1, it is characterized in that: described the first preheating zone, the second preheating zone and top, shaping area are provided with heating furnace silk, and described top, shaping area is additionally provided with the longitudinal heater being freely lifted.

6. full-automatic eight station big bus glass continuous bending furnaces according to claim 5, it is characterised in that: described longitudinal heater is designed as 12 groups, is separately positioned on both sides, shaping area, places side for every 6 groups.

7. full-automatic eight station big bus glass continuous bending furnaces according to claim 1, it is characterised in that: described loading place is provided with the suspension bracket that can make vertical motion, the concave block of described suspension bracket and loading platform box body side with the use of.

8. full-automatic eight station big bus glass continuous bending furnaces according to claim 1, it is characterised in that: described charging chassis one end is provided with for pushing the transport trolley that charging chassis all around moves.

9. adopt the arbitrary described full-automatic eight station big bus glass continuous bending furnace moulding processs of claim 1-8, it is characterized in that: described charging chassis sequentially enters the first preheating zone of body of heater, the second preheating zone, shaping area, treats transfer district, transfer district, the first annealed zone, the second annealed zone, cooling zone, treat discharge zone, loading place, complete all processes that big bus glass baking is curved, first charging chassis is entered the first preheating zone by loading place, being the 450-500 second in the first preheating zone time of staying, temperature range controls at 240 DEG C 260 DEG C；Entering the second preheating zone, be the 450-500 second in the second preheating zone time of staying, temperature range controls at 380 DEG C 400 DEG C；Entering shaping area, be the 450-550 second at upper strata, shaping area heating dwell times, temperature range controls at 550 DEG C 620 DEG C；Charging chassis out enters shaping area lower floor afterwards after upper strata, shaping area is heated, and 450 seconds shaping area lower floor time of staying, is directly entered the first annealed zone, is the 450-500 second in the first annealed zone time of staying, and temperature range controls at 380 DEG C 400 DEG C；Entering the second annealed zone, be the 450-500 second in the second annealed zone time of staying, temperature controls at 240 DEG C 260 DEG C；Enter cooling zone, it it is the 450-500 second in the time of staying of cooling zone, adopt strong wind cooling, the chassis that feeds after cooling enters treats discharge zone, enter loading place when the previous charging chassis treating wait loading place, discharge zone moves to next station and carry out feeding charging, be again introduced into the first preheating zone and start new heat cycles.