CN207918702U - A kind of " n " shape continous way energy-saving type vacuum glass production device - Google Patents

Abstract

The utility model is related to vacuum glass technical field of processing equipment, specially a kind of " n " shape continous way energy-saving type vacuum glass production device, including " n " shape heating furnace；" n " shape heating furnace includes left end heating furnace, right end heating furnace and intermediate soldering furnace, it is machined with bin gate respectively on left end heating furnace and right end heating furnace, left end heating furnace side is provided with feeding platform, and right end heating furnace side is provided with outfeed platforms, adjustable fire door is provided in intermediate soldering furnace；Two groups of liter material devices disposed in parallel are provided in left end heating furnace, it rises material device rear end and is provided with transfer device, the utility model is by being arranged n shape heating furnaces, left end furnace temp rises naturally, bottom temp is low, product gradually rises after entering in stove, rises to just parallel with intermediate soldering furnace when top, and then product enters intermediate soldering furnace.

Description

A kind of " n " shape continous way energy-saving type vacuum glass production device

Technical field

The utility model is related to glass manufacturing apparatus technical fields, more particularly to a kind of " n " shape continous way energy-saving type vacuum Glass production device.

Background technology

The concept of vacuum glass is：Two panels plate glass is overlapped to and stayed 0.15-0.3 millimeters of gap, selects 0.5 millis of φ Rice support column separates two sheet glass, is vacuumized after glass surrounding is then welded edge sealing with glass powder with low melting point, vacuum Degree reaches 6X 10^-4Pa is got product；The product has excellent heat preservation and heat-proof quality, for heat-insulating property, than monolithic glass Glass is 7-8 times strong, 2-3 times stronger than now commonly used hollow (two layers of glass) glass, and the indexs such as Anti-dew Wind-Pressure Resistance are better than Existing hollow glass is building heat preservation sound-insulating energy-saving glass last word, there is wide development space, is countries in the world mesh Preceding sports are tried to be the first the forward position project of research；Vacuum glass in process, closes piece and is coated with welding compound, subsequently into heating device Heating welding is carried out, entire edge sealing process is completed, and current heating furnace all heats for line-styled, utilization rate is low in stove, wave Take thermal energy.

Invention content

The utility model overcomes above-mentioned the deficiencies in the prior art, provides a kind of " n " shape continous way energy-saving type vacuum glass Glass process units.The utility model is risen naturally by setting " n " shape heating furnace, left end furnace temp, and bottom temp is low, production Product gradually rise after entering in stove, rise to just parallel with intermediate soldering furnace when top, and then product enters intermediate soldering furnace, Product enters in right end heating furnace after the completion of welding, and stove inner top temperature is also just consistent with welding temperature, declines process gradually Cooling, temperature is approached and is come out of the stove with indoor temperature when dropping to lower part outlet.

The technical solution of the utility model：

A kind of " n " shape continous way energy-saving type vacuum glass production device, including " n " shape heating furnace；" n " the shape heating furnace Including left end heating furnace, right end heating furnace and intermediate soldering furnace, it is machined with respectively on the left end heating furnace and right end heating furnace Bin gate, the left end heating furnace side are provided with feeding platform, and the right end heating furnace side is provided with outfeed platforms, in described Between be provided with adjustable fire door in soldering furnace；Two groups of liter material devices disposed in parallel, the liter are provided in the left end heating furnace Material device rear end is provided with transfer device, the first axial transport device is provided on front side of the liter material device, described first laterally The second axial transport device is provided on the right side of transport device, the second axial transport device is arranged in the intermediate soldering furnace It is interior, it is provided with third axial transport device, the third axial transport device front end on the right side of the second axial transport device It is provided with one group of transfer device, the third axial transport device rear end is provided with two groups of drop material devices disposed in parallel.

Further, liter material device includes feeding motor, the feeding motor output shaft by right-angle reduction device with Feeding driving gear is fixedly connected, and the feeding driving gear is engaged by feeding driving chain with feeding driven gear, two groups It is equidistantly provided with several groups loading supporting plate on the feeding driving chain.

Further, drop material device includes blanking motor, the blanking motor output shaft by right-angle reduction device with Blanking driving gear is fixedly connected, and the blanking driving gear is engaged by blanking driving chain with blanking driven gear, two groups It is equidistantly provided with several groups blanking support plate on the blanking driving chain.

Further, the transfer device includes transhipment hydraulic cylinder, and the transhipment hydraulic cylinder movable end and transhipment push plate are solid Fixed connection.

Further, the first axial transport device, the second axial transport device and the third axial transport Device includes one group of horizontal drive motor, and the horizontal drive motor main shaft is connect with one group of laterally driven roller, the cross Connect to driving drum with lateral driven roller by one group of transverse onveyer, the lateral driven roller and described laterally driven Roller is arranged in parallel.

Further, the adjustable fire door includes adjusting cylinder, and the adjusting cylinder setting is in the intermediate welding furnace roof End, the adjusting cylinder movable end are fixedly connected with fire door, and the fire door processed on the intermediate soldering furnace is arranged in the fire door In sliding slot.

Further, the adjusting cylinder is rodless cylinder.

The utility model has the advantages that compared with the existing technology：

The utility model is risen naturally by setting " n " shape heating furnace, left end furnace temp, and bottom temp is low, product Into gradually rising after interior, rise to just parallel with intermediate soldering furnace when top, then product enters intermediate soldering furnace, welding Product enters in right end heating furnace after the completion, and stove inner top temperature is also just consistent with welding temperature, and decline process gradually cools down, Temperature is approached and is come out of the stove with indoor temperature when dropping to lower part outlet；

The utility model causes the principle ratio same industry that relative superiority or inferiority is low in temperature in stove using the natural rising of hot gas Line-styled device energy conservation performance is more preferable, and device fabrication is succinct, is given birth to convenient for quickly manufacture without wind turbine.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the partial top view of the utility model；

Fig. 3 is the structural schematic diagram of adjustable fire door.

In figure：1- " n " shape heating furnace；2- feeding platforms；3- outfeed platforms；4- is adjustable fire door；5- rises material device；6- is transported Device；7- drop material devices；8- horizontal drive motors；The laterally driven rollers of 9-；10- transverse onveyers；11- left end heating furnaces；12- Right end heating furnace；Soldering furnace among 13-；101- transverse direction driven rollers；41- adjusts cylinder；42- fire doors；51- feeding motors；52- Feeding drives gear；53- feeding driving chains；54- feeding driven gears；55- loading supporting plates；61- transports hydraulic cylinder；62- turns Transport push plate；71- blanking motors；72- blankings drive gear；73- blanking driving chains；74- blanking driven gears；Material torr under 75- Plate.

Specific implementation mode

The utility model is described in detail below with reference to attached drawing.

Show in conjunction with Fig. 1-Fig. 3, a kind of " n " shape continous way energy-saving type vacuum glass production device, packet disclosed in the present embodiment Include " n " shape heating furnace 1；" n " the shape heating furnace 1 includes left end heating furnace 11, right end heating furnace 12 and intermediate soldering furnace 13, institute It states and is machined with bin gate on left end heating furnace 11 and right end heating furnace 12 respectively, it is flat that 11 side of left end heating furnace is provided with charging Platform 2,12 side of right end heating furnace are provided with outfeed platforms 3, adjustable fire door 4, institute are provided in the intermediate soldering furnace 13 It states and is both provided with heating device in left end heating furnace 11 and the right end heating furnace 12, weldering is provided in the intermediate soldering furnace 13 Connection device, two groups of liters material devices 5 disposed in parallel are provided in the left end heating furnace 11, and 5 rear end of the liters material device is arranged There are transfer device 6,5 front side of liter material device to be provided with the first axial transport device, the first axial transport device right side It is provided with the second axial transport device, the second axial transport device is arranged in the intermediate soldering furnace 13, and described second Third axial transport device is provided on the right side of axial transport device, the third axial transport device front end is also equipped with one group and turns Shipping unit 6, the third axial transport device rear end are provided with two groups of drop material devices 7 disposed in parallel.

Specifically, the liter material device 5 includes feeding motor 51,51 output shaft of the feeding motor passes through right-angle reduction device It is fixedly connected with feeding driving gear 52, the feeding driving gear 52 passes through feeding driving chain 53 and feeding driven gear 54 It engages, several groups loading supporting plate 55 is equidistantly provided on feeding driving chain 53 described in two groups.

Specifically, the drop material device 7 includes blanking motor 71,71 output shaft of the blanking motor passes through right-angle reduction device It is fixedly connected with blanking driving gear 72, the blanking driving gear 72 passes through blanking driving chain 73 and blanking driven gear 74 It engages, several groups blanking support plate 75 is equidistantly provided on blanking driving chain 73 described in two groups.

Specifically, the transfer device 6 includes transhipment hydraulic cylinder 61,61 movable end of transhipment hydraulic cylinder and transhipment push plate 62 are fixedly connected.

Specifically, the first axial transport device, the second axial transport device and third axial transport dress It includes one group of horizontal drive motor 8 to set, and 8 main shaft of the horizontal drive motor is connect with one group of laterally driven roller 9, the cross It is connect to driving drum 9 with lateral driven roller 101 by one group of transverse onveyer 10, the transverse direction driven roller 101 and institute Laterally driven roller 9 is stated to be arranged in parallel.

Specifically, the adjustable fire door 4 includes adjusting cylinder 41, the adjusting cylinder 41 is arranged in the intermediate soldering furnace 13 tops, 41 movable end of adjusting cylinder are fixedly connected with fire door 42, and the fire door 42 is arranged in the intermediate soldering furnace 13 In the fire door sliding slot of upper processing.

Specifically, the adjusting cylinder 41 is rodless cylinder.

Above example is only to the exemplary description of this patent does not limit its scope of protection, people in the art Member can also be changed its part, as long as it does not exceed the essence of this patent, within the protection scope of the present patent.

Claims (7)

1. a kind of " n " shape continous way energy-saving type vacuum glass production device, it is characterised in that：Including " n " shape heating furnace (1)；Institute It includes left end heating furnace (11), right end heating furnace (12) and intermediate soldering furnace (13), the left end heating furnace to state " n " shape heating furnace (11) and on right end heating furnace (12) it is machined with bin gate respectively, left end heating furnace (11) side is provided with feeding platform (2), Right end heating furnace (12) side is provided with outfeed platforms (3), and adjustable fire door is provided in the intermediate soldering furnace (13) (4), heating device, the intermediate soldering furnace are both provided in the left end heating furnace (11) and the right end heating furnace (12) (13) it is provided with welder in, two groups of liter material devices (5) disposed in parallel are provided in the left end heating furnace (11), it is described It rises material device (5) rear end and is provided with transfer device (6), the first axial transport device, institute are provided on front side of the liter material device (5) It states and is provided with the second axial transport device on the right side of the first axial transport device, the second axial transport device is arranged in described Between in soldering furnace (13), third axial transport device is provided on the right side of the second axial transport device, the third is laterally transported Defeated device front end is also equipped with one group of transfer device (6), and the third axial transport device rear end is provided with two groups and is arranged in parallel Drop material device (7).

2. one kind " n " shape continous way energy-saving type vacuum glass production device according to claim 1, which is characterized in that institute It includes feeding motor (51) to state a liter material device (5), and feeding motor (51) output shaft is driven by right-angle reduction device and feeding Gear (52) is fixedly connected, and the feeding driving gear (52) is nibbled by feeding driving chain (53) and feeding driven gear (54) It closes, several groups loading supporting plate (55) is equidistantly provided on feeding driving chain (53) described in two groups.

3. one kind " n " shape continous way energy-saving type vacuum glass production device according to claim 1, which is characterized in that institute It includes blanking motor (71) to state drop material device (7), and blanking motor (71) output shaft is driven by right-angle reduction device and blanking Gear (72) is fixedly connected, and the blanking driving gear (72) is nibbled by blanking driving chain (73) and blanking driven gear (74) It closes, several groups blanking support plate (75) is equidistantly provided on blanking driving chain (73) described in two groups.

4. one kind " n " shape continous way energy-saving type vacuum glass production device according to claim 1, which is characterized in that institute It includes transhipment hydraulic cylinder (61) to state transfer device (6), and transhipment hydraulic cylinder (61) movable end is fixed with transhipment push plate (62) to be connected It connects.

5. one kind " n " shape continous way energy-saving type vacuum glass production device according to claim 1, which is characterized in that institute It includes one group of laterally drive to state the first axial transport device, the second axial transport device and the third axial transport device Dynamic motor (8), horizontal drive motor (8) main shaft are connect with one group of laterally driven roller (9), the laterally driven roller (9) connect with lateral driven roller (101) by one group of transverse onveyer (10), the lateral driven roller (101) and described Laterally driven roller (9) is arranged in parallel.

6. one kind " n " shape continous way energy-saving type vacuum glass production device according to claim 1, which is characterized in that institute It includes adjusting cylinder (41) to state adjustable fire door (4), and the adjusting cylinder (41) is arranged in intermediate soldering furnace (13) top, institute It states adjusting cylinder (41) movable end to be fixedly connected with fire door (42), the fire door (42) is arranged on the intermediate soldering furnace (13) In the fire door sliding slot of processing.

7. one kind " n " shape continous way energy-saving type vacuum glass production device according to claim 6, which is characterized in that institute It is rodless cylinder to state and adjust cylinder (41).