CN209481470U - Heating device and glass charging & discharging machine - Google Patents

Abstract

The utility model discloses a kind of heating device and glass charging & discharging machine, the heating device includes gas chamber group and the heating chamber for accommodating glass；The heating chamber is connected to the gas chamber group, and the gas chamber group is connected to external heating gas source, and heat gas is imported in the heating chamber；The heating chamber offers the exhaust outlet (4B) for the heat gas to be discharged.The heating device of the utility model can play the role of being evenly heated, keep the temperature to glass, the glass charging & discharging machine high degree of automation and mold can be made to remain at high temperature, to realize the purpose for improving production efficiency, reducing energy consumption.

Description

Heating device and glass charging & discharging machine

Technical field

The utility model relates to bend glass deep process technology fields, above and below a kind of heating device and glass Material machine.

Background technique

Currently, the method for glass (such as bend glass) hot bending forming is usually that the glass under room temperature is loaded into mould manually Then mold is heated to the temperature of glass softening point temperature or more together with glass, and applies pressure forming to glass by tool, most Mold and glass are gradually cooled to the glass that forming is further taken out after room temperature afterwards.But the method for this glass bending forming is deposited In following problems: mold needs to be heated to the temperature of glass softening point temperature or more, is cooled back to room temperature, is then added again Heat, cooling recycle repeatedly, that is to say, that this method not only needs to heat glass, will also repeatedly to mold into Row heating, therefore, energy consumption is big, high production cost.If in advance by preheating glass to glass softening point a certain higher temperatures below Degree, then refills and is downloaded in die material, and this process is all completed by machine, can thus reduce energy consumption, reduces Production cost mitigates the labor intensity of worker, improves production efficiency.

Utility model content

The purpose of this utility model is to overcome problem of the existing technology, provide on a kind of heating device and glass Blanking machine, the heating device can play the role of being evenly heated, keep the temperature to glass, the glass charging & discharging machine high degree of automation And mold can be made to remain at high temperature, to realize the purpose for improving production efficiency, reducing energy consumption.

To achieve the goals above, on the one hand the utility model provides a kind of heating device, and the heating device includes gas Room group and heating chamber for accommodating glass；The heating chamber is connected to the gas chamber group, and the gas chamber group adds with external Hot gas source connection, heat gas is imported in the heating chamber；The heating chamber is offered for the heat gas to be discharged Exhaust outlet.

Preferably, the gas chamber group includes upper chamber and lower chamber；The upper chamber include for the heating gas The upper air interface that source is connected to and the upper vent hole for being connected to the top of the heating chamber, the lower chamber include being used for The lower intake interface being connected to the heating gas source and the lower venthole for being connected to the bottom of the heating chamber.

Preferably, the heating device includes the upper cover frame liner of the upper cover plate liner of plate and the groove profile of upper end opening, The upper cover plate liner is set to the upper end open-mouth of the upper cover frame liner so that the upper cover plate liner and the upper cover frame Liner limits the upper chamber jointly.

Preferably, the heating device includes the pedestal liner of the lower frame liner of plate and the groove profile of lower end opening, described The lower end open-mouth of the pedestal liner is arranged in for lower frame liner so that the pedestal liner and the lower frame liner limit jointly The lower chamber out.

Preferably, the bottom surface of the upper cover frame liner and the top surface of the lower frame liner limit the heating chamber jointly, The upper cover frame liner offers the upper vent hole, and the lower frame liner offers the lower venthole.

Preferably, the heating device includes upper cover plate, upper cover frame, pedestal and lower frame；The upper cover plate and it is described on Lid frame forms lid, and the upper cover plate liner is installed on the upper cover plate, and the upper cover frame liner is installed on the upper cover frame；Institute State pedestal and lower frame composition cabinet, the pedestal liner is installed on the pedestal, the lower frame liner be installed on it is described under Frame.

Preferably, the heating device includes for providing the locating ring of positioning, the locating ring setting to the glass In the heating chamber.

Preferably, the exhaust outlet sequentially passes through the locating ring, the lower frame liner and the lower frame and described will add Hot chamber is in communication with the outside.

Preferably, the heating device includes the soft bolster being set in the heating chamber.

The utility model second aspect provides a kind of glass charging & discharging machine, and the glass charging & discharging machine includes above-mentioned heating Device.

Through the above technical solutions, keeping the heat gas of external heating gas source first when needing to provide heating to glass Advanced air inlet chamber group, then enters back into heating chamber and heats to glass, and heat gas can be discharged by exhaust outlet later. Therefore, the heating device of the utility model can play the role of being evenly heated, keep the temperature to glass.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the preferred embodiment of the glass charging & discharging machine of the utility model；

Fig. 2 is the structural schematic diagram of the preferred embodiment of the support assembly of the utility model；

Fig. 3 is the left view perspective view of Fig. 2；

Fig. 4 is the right parallax stereogram of Fig. 2；

Fig. 5 is the cross-sectional view of the heating cabinet of the support assembly of the utility model；

Fig. 6 is the cross-sectional view of the feed bin up and down of the support assembly of the utility model；

Fig. 7 is the bottom view of Fig. 2；

Fig. 8 is the structural schematic diagram of the preferred embodiment of the mold transfer device of the utility model；

Fig. 9 is the right parallax stereogram of Fig. 8；

Figure 10 is the rear perspective view of Fig. 8；

Figure 11 is the structural schematic diagram of the preferred embodiment of the slice getting device of the utility model；

Figure 12 is the cross-sectional view of the route bearing support of the slice getting device of the utility model；

Figure 13 is the perspective view of the slice getting device of the utility model；

Figure 14 is the cross-sectional view for taking piece sucker disk seat of the slice getting device of the utility model；

Figure 15 is the structural schematic diagram of the preferred embodiment of the heating device of the utility model；

Figure 16 is the transverse sectional view of Figure 15；

Figure 17 is the longitudinal sectional view of Figure 15；

Figure 18 is the structural representation of the preferred embodiment of the shifting sheet devices of the utility model.

Specific embodiment

Specific embodiment of the present utility model is described in detail below in conjunction with attached drawing.It should be understood that herein Described specific embodiment is only used for describing and explaining the present invention, and is not intended to limit the utility model.

Fig. 1~18 show the structural schematic diagram and glass charging & discharging machine of the preferred embodiment of glass charging & discharging machine The structural schematic diagram of multiple components.

Need exist for that first some appended drawing references are explained: 1A is the moving conduit of slice getting device on top cover 108, 1B is the moving conduit of upper left transfer assembly, and 1C is the moving conduit of upper sheet devices, and 1D is the moving conduit of upper right transfer assembly, 1E is mold, and 1F is the moving conduit of lower-left transfer assembly, and 1G is positioning device mounting hole, and 1H is the movement of bottom right transfer assembly Channel.

Explanation is explained in detail to the heating device of glass charging & discharging machine first in the utility model.

As seen in figs. 15-17, the heating device of the utility model includes gas chamber group and the heating for accommodating glass Chamber；Heating chamber is connected to gas chamber group, and gas chamber group is connected to external heating gas source, and heat gas is imported in heating chamber；Add Hot chamber offers the exhaust outlet 4B for heat gas to be discharged.Through the above technical solutions, when needing to provide heating to glass, So that the heat gas of external heating gas source is initially entered gas chamber group, then enters back into heating chamber and glass is heated, it Heat gas can be discharged by exhaust outlet 4B afterwards.Therefore, the heating device of the utility model, which can play glass, uniformly adds Heat, the effect kept the temperature.

In order to enable heat gas equably all to heat to the upper and lower surface of glass, it is preferable that gas chamber group includes Upper chamber and lower chamber；Upper chamber include for the upper air interface 4D that is connected to of heating gas source and for heating chamber The upper vent hole 4G of top connection, lower chamber include for the lower intake interface 4C that be connected to of heating gas source and be used for and heating The lower venthole 4F of the bottom connection of chamber.Enable heat gas and all stomata is set in the top and bottom of heating chamber Glass is heated simultaneously above and below glass, to improve the uniformity coefficient and heating efficiency of heating.

It should be understood that upper chamber can be set to diversified forms, as long as heating chamber can be provided to heat gas In, in preferred embodiments of the present invention, heating device includes the upper cover plate liner 402 and upper end opening of plate Groove profile upper cover frame liner 404, upper cover plate liner 402 is set to the upper end open-mouth of upper cover frame liner 404 so that upper cover plate Liner 402 and upper cover frame liner 404 limit upper chamber jointly.

Equally, lower chamber may be set to be diversified forms, as long as heat gas can be provided in heating chamber, Preferably, heating device includes the pedestal liner 407 of the lower frame liner 408 of plate and the groove profile of lower end opening, lower frame liner 408 The lower end open-mouth of pedestal liner 407 is set so that pedestal liner 407 and lower frame liner 408 limit lower chamber jointly.

And in preferred embodiments of the present invention, in order to further save installation space, and further increase The heating efficiency of heat gas, it is preferable that the bottom surface of upper cover frame liner 404 and the top surface of lower frame liner 408 limit jointly and add Hot chamber, upper cover frame liner 404 offer upper vent hole 4G, and lower frame liner 408 offers lower venthole 4F.That is, upper cover The bottom surface of frame liner 404 and the top surface of lower frame liner 408 are respectively formed the top and bottom of heating chamber, so as to shorten heating gas The flowing time of body, improves heating efficiency.

In order to make upper chamber, lower chamber and heating chamber obtain more stable support, it is preferable that heating device includes upper Cover board 401, upper cover frame 403, pedestal 406 and lower frame 409；Upper cover plate 401 and upper cover frame 403 form lid, upper cover plate liner 402 are installed on upper cover plate 401, and upper cover frame liner 404 is installed on upper cover frame 403；Pedestal 406 and lower frame 409 form cabinet, pedestal Liner 407 is installed on pedestal 406, and lower frame liner 408 is installed on lower frame 409.

For the state for making the glass being placed in heating chamber keep stable, it is preferable that heating device includes for glass Glass provides the locating ring 405 of positioning, and locating ring 405 is arranged in heating chamber.As can be seen that locating ring 405 defines glass Placement location.

In some embodiments, the side wall of heating chamber is arranged in exhaust outlet 4B, and at this moment if placement positioning circle 405, Exhaust outlet 4B may be blocked and cause the failure that heat gas can not be discharged, in order to solve this problem, it is preferable that row Port 4B sequentially passes through locating ring 405, lower frame liner 408 and lower frame 409 and heating chamber is in communication with the outside.

Glass heating chamber when being placed into heating chamber may cause to scratch to the surface of glass in order to prevent, it is preferable that Heating device includes the soft bolster 4E being set in heating chamber.It is soft slow in preferred embodiments of the present invention Stamping 4E is nylon hair.

As shown in Figure 1, the utility model also provides a kind of glass charging & discharging machine, glass charging & discharging machine includes support assembly 100, mold transfer device 200, slice getting device 300, warmer, heater and shifting sheet devices 500；Support assembly 100 is arranged Between the outlet and entrance of hot-bending machine, for providing the mold transfer passage including loading and unloading station to mold 1E；Mold moves Device 200 is sent to be configured for moving mold 1E between outlet, loading and unloading station and entrance；Warmer and heater are equal It is arranged in mold transfer passage；Slice getting device 300 is configured for formed glass being moved to warmer from mold 1E；It moves Sheet devices 500 are configured for unshaped glass being moved to mold 1E from heater.

It should be noted that loading and unloading station mentioned here is the feed bin up and down for being located at support assembly 100.

Through the above technical solutions, being directly entered the mould of support assembly 100 after mold 1E comes out from the outlet of hot-bending machine Have in transfer passage, mold transfer passage provides heat preservation to mold 1E；The going out from hot-bending machine by mold 1E of mold transfer device 200 Mouth is moved to loading and unloading station, and the upper and lower mould of mold 1E is opened, by slice getting device 300 by formed glass from mold 1E's Lower die is moved in warmer；Then, sheet devices 500 are moved by unshaped glass from the lower die that heater is moved to mold 1E, Upper mold is closed, mold transfer device 200 continues the entrance that mold 1E is moved to hot-bending machine from loading and unloading station, thus on completing Blanking work.Since mold 1E remains at the condition of high temperature in the mold transfer passage of support assembly 100, solve The problem of heating repeatedly to mold 1E is needed in the prior art, to realize the purpose for improving production efficiency, reducing energy consumption.

It should be understood that heater and warmer can be designed as diversified forms, as long as glass offer can be heated, Heat preservation, in preferred embodiments of the present invention, heater and warmer use identical structure, that is, on glass Blanking machine includes two heating devices 400, and one of heating device 400 is warmer, another heating device 400 is heating Device.Also, identical heating temperature can be set as the heating device of heater 400 and the heating device 400 as warmer Degree, also can be set different heating temperatures.

Below by the support assembly 100 of the glass charging & discharging machine to the utility model, mold transfer device 200, take it is on chip It sets 300 and moves sheet devices 500 and carry out detailed explanation respectively.

As shown in Fig. 2~7, the support assembly of the utility model includes with the mould being extended along mold 1E moving direction Has the shell of transfer passage, mold transfer passage includes upper and lower feed bin, thermal insulation barn and heating cabinet；Upper and lower feed bin is configured for Lower material space is provided to the formed glass being located in mold 1E, and provides upper material space to unshaped glass；Thermal insulation barn is matched It is set to for providing cooling keeping warmth space to the formed glass Jing Guo blanking；Heating cabinet be configured for will feeding not Molding glass provides heating space.

The intracorporal mold transfer of shell of support assembly is just directly entered after coming out due to mold 1E from the outlet of hot-bending machine Channel, and mold transfer passage also provides the feed bin up and down for mold 1E open mold, loading and unloading, also, mold transfer passage Thermal insulation barn cooling keeping warmth space can be provided to the formed glass Jing Guo blanking, and heating cabinet can to will feeding not Molding glass provides heating space, this allows for mold 1E and needs not move through cooling and can take again in the case where keeping high temperature The entrance for entering hot-bending machine with the unshaped glass by heating is processed, to reduce mold 1E heating, cooling repeatedly Required energy consumption, and Automation of Manufacturing Process, alleviate labor intensity.

In order to optimize the movement routine of mold 1E, it is preferable that upper and lower feed bin, thermal insulation barn and heating cabinet setting are moved in mold The middle position in channel is sent, thermal insulation barn edge is adjacent perpendicular to the length direction of mold transfer passage and upper and lower feed bin, heating cabinet edge The length direction and thermal insulation barn of mold transfer passage are adjacent.It is directly entered that is, mold 1E comes out from the outlet of hot-bending machine The left end of mold transfer passage, moves along a straight line to the right i.e. reachable loading and unloading storehouse later, passes through blankers in upper and lower feed bin Sequence and upper material process and then the secondary right end for moving along a straight line i.e. reachable mold transfer passage to the right, then immediately proceed to The entrance of hot-bending machine is processed.

It should be understood that shell can be integrally formed or split type structure, in the preferred reality of the utility model Apply in mode, for the ease of later maintenance and maintenance, it is preferable that shell include left upper cover 101, top cover 108, upper right lid 112, It sealing plate 113, left front sealing plate 120, left side sealing plate 130, rear sealing plate 124, right side sealing plate 149, bottom plate 143 and can be opened and closed before the right side Middle door 122, left-hand door 128, partition door 144, right door 137, left front door 119 and right front door 117；Left upper cover 101, top cover 108, upper right Lid 112, right preceding sealing plate 113, left front sealing plate 120, left side sealing plate 130, rear sealing plate 124, right side sealing plate 149 and bottom plate 143 limit Make mold transfer passage；Middle door 122, left-hand door 128, rear sealing plate 124, partition door 144, top cover 108 and bottom plate 143 can limit Feed bin above and below out；Middle door 122, left side sealing plate 130, left front door 119, top cover 108 and bottom plate 143 can limit thermal insulation barn； Middle door 122, right side sealing plate 149, right front door 117, top cover 108 and bottom plate 143 can limit heating cabinet.It needs exist for illustrating , in the present invention, formed glass is the warmer realization heat insulation function by being arranged in thermal insulation barn, and not Molding glass is to realize heating function by the heater that is arranged in heating cabinet, that is to say, that glass carry out heat preservation or Heating is not thermal insulation barn or heating cabinet itself, and therefore, the utility model does not limit the company between thermal insulation barn and heating cabinet Relationship is connect, for example, in some embodiments, in order to simplify device structure as much as possible, be connected between thermal insulation barn and heating cabinet, That is, thermal insulation barn and heating cabinet can be considered an entirety storage warehouse, warmer and heater are arranged in the storage warehouse, this Have no effect on the use of warmer and heater.And in other embodiments, pass through partition between thermal insulation barn and heating cabinet Separate, the benefit being arranged in this way is that if warmer or heater break down, needs are repaired, and the effect of partition is as far as possible Interference, influence caused by another one when reducing maintenance warmer or heater.

In order to make mold 1E that can open and close upper die and lower die automatically in upper and lower feed bin, it is preferable that support assembly includes Loading and unloading sucking disc mechanism for opening and closing the upper die and lower die of mold 1E, loading and unloading sucking disc mechanism include lifting straight line mould group seat 104, the first lifting straight line mould group 105, loading and unloading sucker disk seat 145 and loading and unloading sucker 141, lifting straight line mould group seat 104 are fixed On shell, the first lifting straight line mould group 105 is mounted on lifting straight line mould group seat 104, and loading and unloading sucker 141 is installed on first liter Straight line mould group 105 drops, can be gone up and down by the first lifting straight line mould group 105 to pass in and out feed bin up and down.

In order to make the warmer of glass charging & discharging machine being capable of automatic open-close lid in keeping warmth space, it is preferable that rack is total At including heat preservation sucking disc mechanism for opening and closing the lid for the warmer being placed in keeping warmth space, heat preservation sucking disc mechanism includes protecting Wet cylinder 109, heat preservation sucker disk seat 131, heat preservation sucker 142 and heat preservation cylinder block 146, heat preservation cylinder block 146 are fixed on shell, Heat preservation cylinder 109 is installed on heat preservation cylinder block 146, and heat preservation sucker 142 is mounted on heat preservation cylinder 109 and can be by keeping the temperature gas Cylinder 109 is flexible and passes in and out keeping warmth space.

In order to make the heater of glass charging & discharging machine being capable of automatic open-close lid in heating space, it is preferable that rack is total At including heating sucking disc mechanism for opening and closing the lid for the heater being placed in heating space, heating sucking disc mechanism include plus Hot gas cylinder seat 110, heating cylinder 111, heating sucker disk seat 147 and heating sucker 140, heating cylinder block 110 are fixed on shell, Heating cylinder 111 is installed on heating cylinder block 110, and heating sucker 140 is mounted on heating cylinder 111 and can be by heating gas Cylinder 111 is flexible and passes in and out heating space.

In general, feed bin will do it cleaning works after carrying out blanking work with by impurity, the dust in mold 1E up and down It cleans up, at this moment, impurity, dust enter other warehouses because of cleaning works in order to prevent, it is preferable that support assembly includes position It middle door 122 between upper and lower feed bin and thermal insulation barn and opens and closes for door 122 in controlling so that middle door 122 is being connected to loading and unloading The middle door drive mechanism that the open position and partition of storehouse and thermal insulation barn are moved between feed bin and the closed position of thermal insulation barn up and down.Tool Body, middle door drive mechanism includes middle gate seat 121, middle door cylinder 123 and middle door cylinder seat 129；Middle door cylinder seat 129 is fixed On left upper cover 101, the cylinder body of middle door cylinder 123 is mounted on middle door cylinder seat 129, and middle gate seat 121 is fixed on left side sealing plate On 130, in one end insertion of middle door 122 in gate seat 121, the other end is connect with the piston rod of middle door cylinder 123.

Likewise, impurity, dust enter heating cabinet because of cleaning works in order to prevent, it is preferable that support assembly includes position It partition door 144 between upper and lower feed bin and heating cabinet and opens and closes for controlling partition door 144 so that partition door 144 is being connected to loading and unloading The partition door driving mechanism that the communicating position and partition of storehouse and heating cabinet move between feed bin and the blocking position of heating cabinet up and down.Tool Body, partition door driving mechanism includes partition door cylinder block 106 and partition door cylinder 107；Partition door cylinder block 106 is mounted on top cover 108, The cylinder body of partition door cylinder 107 is mounted on partition door cylinder block 106, and the piston rod of partition door cylinder 107 is connect with partition door 144, partition door 144 protrude into mold transfer passage.

In order to keep the motion track of mold 1E more stable, it is preferable that support assembly includes being arranged in mold transfer passage The interior mold guide rail 139 to be oriented to mold 1E offer.That is, horizontally disposed being parallel to each other by two Mold guide rail 139 limits the movement routine of mold 1E.

Feeding is carried out in mold 1E and when blanking, in order to guarantee the condition of high temperature of mold 1E, it is preferable that support assembly includes Between thermal insulation barn and the external world and the left front door 119 that can open and close, and between heating cabinet and the external world and it can open and close Right front door 117.That is, made and closing left front door 119 and right front door 117 up and down feed bin, insulating layer and Heating cabinet is isolated from the outside and enhances heat insulation effect.In preferred embodiments of the present invention, support assembly includes being used for The left front door drive mechanism that control left front door 119 opens and closes and the right front door driving mechanism for controlling the folding of right front door 117.Tool Body, left front door drive mechanism includes left front door guide rail 118, left front door cylinder block 132 and left front door cylinder 133；Left front door gas Cylinder seat 132 is fixed on top cover 108, and the cylinder body of left front door cylinder 133 is mounted on left front door cylinder block 132, left front door guide rail 118 are fixed on shell along the vertical direction；It is movably inserted along the length direction of left front door guide rail 118 one end of left front door 119 Enter left front door guide rail 118, the other end is connect with the piston rod of left front door cylinder 133.Right front door driving mechanism includes right front door gas Cylinder 114, right front door guide rail 115 and right front door cylinder block 116；Right front door cylinder block 116 is fixed on top cover 108, right front door gas The cylinder body of cylinder 114 is mounted on right front door cylinder block 116, and right front door guide rail 115 is fixed on shell along the vertical direction；Right front door 117 one end is removably inserted within right front door guide rail 115, the other end and right front door gas along the length direction of right front door guide rail 115 The piston rod of cylinder 114 connects.

Likewise, when mold 1E enters feed bin up and down, it is also necessary to close left-hand door 128 and right door 137 with further Enhance heat insulation effect, therefore, support assembly include for control left-hand door 128 folding left-hand door driving mechanism and for controlling the right side The right door drive mechanism of 137 folding of door.Specifically, left-hand door driving mechanism includes that left-hand door bracket 102, left-hand door guide rail 103, left-hand door are straight Line guide rail 125, left-hand door cylinder block 126 and left-hand door cylinder 127；After left-hand door linear guide 125 and left-hand door cylinder block 126 are fixed on On sealing plate 124, left-hand door guide rail 103 is fixed on the sealing plate 130 of left side, and left-hand door bracket 102 is mounted on and 125 phase of left-hand door linear guide It is connect on the sliding block of cooperation and with left-hand door 128, left-hand door 128 is removably inserted within left-hand door along the length direction of left-hand door guide rail 103 and leads Rail 103, the cylinder body of left-hand door cylinder 127 are mounted on left-hand door cylinder block 126, and 127 piston rod of left-hand door cylinder and left-hand door bracket 102 connect It connects.And right door drive mechanism includes right door linear guide 134, right door bearing frame 135, right door cylinder 136, right 138 and of door guide rail Right door cylinder seat 148；Right door linear guide 134 and right door cylinder seat 148 are fixed on the sealing plate 149 of right side, right door bearing frame 135 are mounted on the sliding block matched with right door linear guide 134 and connect with right door 137, and right door 137 is along right door guide rail 138 Length direction be removably inserted within right door guide rail 138, the cylinder body of right door cylinder 136 is mounted on right door cylinder seat 148, right door The piston rod of cylinder 136 is connect with right door bearing frame 135.

As shown in figs. 8-10, the mold transfer device of the utility model include bottom right transfer mechanism, upper right transfer mechanism, Lower-left transfer mechanism and upper left transfer mechanism；Upper left transfer mechanism is configured to mold 1E from the outlet of hot-bending machine (i.e. in Fig. 2 Position one) be moved to the first middle position (i.e. position two in Fig. 2) of glass charging & discharging machine；Lower-left transfer mechanism is configured to Mold 1E is moved to the feed bin up and down (i.e. position three in Fig. 2) of glass charging & discharging machine from the first middle position；Upper right transfer Mechanism is configured to for mold 1E to be moved to the second middle position (i.e. position in Fig. 2 of glass charging & discharging machine from upper and lower feed bin Four)；Bottom right transfer mechanism is configured to for mold 1E to be moved to entrance (the i.e. position in Fig. 2 of hot-bending machine from the second middle position Five).

Through the above technical solutions, being moved by upper left transfer mechanism, lower-left transfer mechanism, upper right transfer mechanism and bottom right Mold 1E is successively passed through the first middle position, upper and lower feed bin and from the exit of hot-bending machine by the successively movement of mounted mechanism After two middle positions, reaches the inlet of hot-bending machine and processed into hot-bending machine, whole work process the degree of automation Height saves manpower.

Specifically, bottom right transfer mechanism includes that bottom right shift fork 202, the bottom right lifters for capableing of vertical shift and setting exist Bottom right transfer part between second middle position and the entrance of hot-bending machine, bottom right lifters are installed on bottom right transfer part, and bottom right is dialled Fork 202 is connect with bottom right lifters；Bottom right transfer part includes bottom right transfer cylinder 201, bottom right fixed plate 206 and bottom right cylinder Seat 217, bottom right cylinder block 217 are fixedly installed, and the cylinder body of bottom right transfer cylinder 201 is installed on bottom right cylinder block 217, and bottom right is fixed Plate 206 is set to the sliding block of bottom right transfer cylinder 201, and bottom right shift fork 202 is connected by bottom right lifters and bottom right fixed plate 206 It connects.Certainly, bottom right transfer part can also be using other forms such as ball screw arrangement, hydraulic cylinder structures.

It should be understood that bottom right lifters can be designed as diversified forms, such as ball screw arrangement, hydraulic cylinder knot Structure, electric cylinders structure etc., in preferred embodiments of the present invention, bottom right lifters include bottom right shift fork slide 203, bottom right Lifting air cylinder seat 204 and bottom right lifting cylinder 205；Bottom right lifting air cylinder seat 204 is fixed on bottom right fixed plate 206, bottom right shift fork Slide 203 is mounted on along the vertical direction in bottom right fixed plate 206, and the cylinder body of bottom right lifting cylinder 205 is installed on bottom right lifting air Cylinder seat 204, bottom right shift fork 202 are installed on the piston rod of bottom right lifting cylinder 205 and are cooperatively connected with bottom right shift fork slide 203.

Equally, upper right transfer mechanism includes upper right shift fork 218, the upper right lifters for capableing of vertical shift and is arranged upper Upper right transfer part between blanking bin and the second middle position, upper right lifters are installed on upper right transfer part, upper right shift fork 218 with The connection of upper right lifters；Upper right transfer part includes that upper right transfer cylinder 221, upper right transfer air cylinder fixed plate 224 and upper right are solid Fixed board 220；Upper right transfer air cylinder fixed plate 224 is fixedly installed, and the cylinder body of upper right transfer cylinder 221 is installed on upper right transfer cylinder Fixed plate 224, upper right fixed plate 220 are set to the sliding block of upper right transfer cylinder 221, and upper right shift fork 218 passes through upper right lifters It is connect with upper right fixed plate 220.Certainly, upper right transfer part can also be using other shapes such as ball screw arrangement, hydraulic cylinder structures Formula.

It should be understood that upper right lifters can be designed as diversified forms, such as ball screw arrangement, hydraulic cylinder knot Structure, electric cylinders structure etc., in preferred embodiments of the present invention, upper right lifters include upper right shift fork linear guide 219, Upper right lifting air cylinder seat 222 and upper right lifting cylinder 223；Upper right lifting air cylinder seat 222 is fixed on upper right fixed plate 220, right Upper shift fork linear guide 219 is mounted on along the vertical direction in upper right fixed plate 220, and the cylinder body of upper right lifting cylinder 223 is installed on Upper right lifting air cylinder seat 222, upper right shift fork 218 are installed on the piston rod of upper right lifting cylinder 223 and lead with upper right shift fork straight line Rail 219 is cooperatively connected.

Equally, lower-left transfer mechanism includes lower-left shift fork 207, the lower-left lifters for capableing of vertical shift and setting the Lower-left transfer part between one middle position and upper and lower feed bin, lower-left lifters are installed on lower-left transfer part, lower-left shift fork 207 with The connection of lower-left lifters；Lower-left transfer part includes lower-left transfer cylinder block 209, lower-left transfer cylinder 210 and lower-left fixed plate 225；Lower-left transfer cylinder block 209 is fixedly installed, and the cylinder body of lower-left transfer cylinder 210 is installed on lower-left transfer cylinder block 209, left Bottom plate 225 is set to the sliding block of lower-left transfer cylinder 220, and lower-left shift fork 207 passes through lower-left lifters and lower-left fixed plate 225 connections.Certainly, lower-left transfer part can also be using other forms such as ball screw arrangement, hydraulic cylinder structures.

It should be understood that lower-left lifters can be designed as diversified forms, such as ball screw arrangement, hydraulic cylinder knot Structure, electric cylinders structure etc., in preferred embodiments of the present invention, lower-left lifters include lower-left shift fork slide 228, lower-left Lifting air cylinder seat 227 and lower-left lifting cylinder 226；Lower-left lifting air cylinder seat 227 is fixed on lower-left fixed plate 225, and lower-left is dialled Fork slide 228 is mounted on along the vertical direction in lower-left fixed plate 225, and the cylinder body of lower-left lifting cylinder 226 is installed on lower-left lifting Cylinder block 227, lower-left shift fork 207, which is installed on the piston rod of lower-left lifting cylinder 226 and cooperates with lower-left shift fork slide 228, to be connected It connects.

Likewise, upper left transfer mechanism includes that upper left shift fork 213, the upper left lifters for capableing of vertical shift and setting exist Upper left transfer part between the outlet of hot-bending machine and the first middle position, upper left lifters are installed on upper left transfer part, and upper left is dialled Fork 213 is connect with upper left lifters；Upper left transfer part includes that upper left transfer cylinder block 212, upper left transfer cylinder 211 and upper left are solid Fixed board 208；Upper left transfer cylinder block 212 is fixedly installed, and the cylinder body of upper left transfer cylinder 211 is installed on upper left transfer cylinder block 212, upper left fixed plate 208 is set to the sliding block of upper left transfer cylinder 211, and upper left shift fork 213 passes through upper left lifters and upper left Fixed plate 208 connects.Certainly, upper left transfer part can also be using other forms such as ball screw arrangement, hydraulic cylinder structures.

It should be understood that upper left lifters can be designed as diversified forms, such as ball screw arrangement, hydraulic cylinder knot Structure, electric cylinders structure etc., in preferred embodiments of the present invention, upper left lifters include upper left shift fork slide 214, upper left Lifting air cylinder seat 216 and upper left lifting cylinder 215；Upper left lifting air cylinder seat 216 is fixed on upper left fixed plate 208, and upper left is dialled Fork slide 214 is mounted on along the vertical direction in upper left fixed plate 208, and the cylinder body of upper left lifting cylinder 215 is installed on upper left lifting Cylinder block 216, upper left shift fork 213, which is installed on the piston rod of upper left lifting cylinder 215 and cooperates with upper left shift fork slide 214, to be connected It connects.

As shown in Figure 11~14, the slice getting device of the utility model includes moving horizontally straight line mould group 305, route bearing support 308 and take piece sucker 310；Move horizontally the prolonging between feed bin and thermal insulation barn up and down in glass charging & discharging machine of straight line mould group 305 Setting is stretched, moving horizontally straight line mould group 305 includes the horizontal displacement member that can be moved along its length；Take piece sucker 310 logical It crosses route bearing support 308 to be mounted on horizontal displacement member, the lower end of piece sucker 310 is taken to be equipped with vacuum suction slot 3H, route bearing Frame 308 is equipped with the vacuum passage 3O being connected to external vacuum source, and vacuum suction slot 3H is connected to vacuum passage 3O.

Through the above technical solutions, when needing that formed glass is taken out from mold 1E and is moved in warmer, Starting move horizontally straight line mould group 305 drive take piece sucker 310 to be moved to mold 1E (upper mold of mold 1E at this time is moved Walk) top, starting vacuum source adsorb vacuum suction slot 3H by formed glass, then controlled level move straight line The drive of mould group 305 takes piece sucker 310 to be moved to warmer together with formed glass (upper cover of warmer has been removed at this time) Top, close vacuum source be placed in formed glass in warmer.In this way, can automatic Picking and movable glass, Working efficiency is greatly improved, and reduces hand labor cost.

In order to reduce the heat that formed glass loses during being moved to warmer from mold 1E, it is preferable that take Sheet devices include heat generating component and insulating assembly, heat generating component with take piece sucker 310 to connect with to take piece sucker 310 provide plus Heat, insulating assembly are set to heat generating component and move horizontally between straight line mould group 305 with trap heat.Such benefit is, Molding glass can also keep its temperature in mold 1E when being moved in warmer substantially, be not in because temperature drops suddenly It is low and generate slight crack, it is broken phenomena such as.

In the formed glass of movement, formed glass is damaged in order to avoid taking as far as possible, put down movement, is needed Make to restart vacuum source after taking piece sucker 310 to be positioned as close to formed glass, therefore, in order to make to take piece sucker 310 It can be in the vertical direction close to and far from formed glass, it is preferable that slice getting device includes that fulcrum bearing 306, second is gone up and down Straight line mould group 304, transition plates 301, link block 302 and take piece sucker disk seat 309；Fulcrum bearing 306 is fixedly disposed, and is moved horizontally Straight line mould group 305 is installed on fulcrum bearing 306；Second lifting straight line mould group 304 is installed on horizontal displacement member by transition plates 301, Second lifting straight line mould group 304 includes the lifting moving part that can be moved along the vertical direction, and route bearing support 308 passes through link block 302 are installed on lifting moving part.

In addition, in order to more effectively reduce heat generating component to the second lifting straight line mould group 304 and move horizontally straight Line mould group 305 impacts.Take piece sucker 310 by taking piece sucker disk seat 309 to be installed on route bearing support 308；Insulating assembly packet Include thermal insulation board 303 and heat insulating mattress 311；Heat generating component be installed on take piece sucker disk seat 309 with to take piece sucker 310 provide heating, every Hot plate 303 is arranged between link block 302 and route bearing support 308, and the setting of heat insulating mattress 311 is in route bearing support 308 and takes piece Between sucker disk seat 309.

It should be understood that heat generating component can be designed as diversified forms, it is practical at this as long as being capable of providing fever In novel preferred embodiment, heat generating component includes heating tube, and it is respectively that heating tube goes out that route bearing support 308, which is equipped with both ends, The heating cable passage 3I of line mouth 3M and heating long cable section of ingoing line mouth 3B, take piece sucker disk seat 309 to offer heating tube mounting hole 3F, add Heat pipe protrudes into heating tube mounting hole 3F, and the cable of heating tube enters heating electricity from external power supply from heating long cable section of ingoing line mouth 3B Cable channel 3I is simultaneously connect after heating tube line outlet 3M extraction with heating tube.

Calorific value in order to control heat generating component needs to be monitored heat generating component within the scope of reasonable, It is therefore preferred that slice getting device includes thermocouple 312, route bearing support 308 is equipped with the heat that one end is thermocouple incoming line 3A Galvanic couple cable passage 3J, thermocouple 312, which is installed on, to be taken piece sucker disk seat 309 and is connected to thermocouple cable channel 3J, thermocouple 312 Cable from external electrical control gear from thermocouple incoming line 3A enter thermocouple cable channel 3J after with thermocouple 312 Connection.That is, it can be made to measure the temperature of heat generating component by the way that thermocouple 312 is arranged, and temperature signal is converted into Thermo-electromotive force signal passes to external control system, to achieve the purpose that monitoring, regulation heating component.

In order to reduce cable and the cable of thermocouple 312 of heating tube will not using the longevity due to exposure Life, and at the same time improving beautiful effect, it is preferable that slice getting device includes matching with route bearing support 308 to cover route First cover board 307 of bearing support 308.That is, the heating on route bearing support 308 will be arranged in by the first cover board 307 The cable of pipe and the cable of thermocouple 312 all cover, so that it is outer to be not exposed to cable.

In general, after formed glass is removed from the lower die of mold 1E, need to the lower die of mold 1E and upper mold into Row cleans, it is therefore preferred that route bearing support 308 is equipped with high pressure draught channel 3P and is connected to down with high pressure draught channel 3P Gas hole 3K, the first cover board 307 are equipped with and high pressure draught channel 3P the high-pressure air source interface 3C being connected to and upper gas hole 3E, high pressure Gas source interface 3C is connect with external high-pressure air source.Air-flow is sprayed by mold 1E's by lower gas hole 3K and upper gas hole 3E The impurity of lower die and upper mold, dust are removed clean.

In some embodiments, vacuum suction slot 3H can be connected to by pipeline with external vacuum source, still, this Sample setting is impossible to that pipeline is made to occupy installation space with avoiding, and during taking piece sucker 310 mobile, pipeline is also It may wind, therefore, preferred embodiments of the present invention are by vacuum suction slot 3H by being arranged in route bearing support 308 connect with the channel of the first cover board 307 with external vacuum source, and specifically, the first cover board 307 is equipped with and vacuum passage 3O The vacuum source interface 3D of connection takes piece sucker disk seat 309 to be equipped with the vacuum way group being connected to vacuum passage 3O, vacuum suction slot 3H is connected to by vacuum passage 3O and vacuum way group with vacuum source interface 3D.Setting just can be avoided above-mentioned use in this way The drawbacks of embodiment of pipeline.

If desired piece sucker 310 is taken to be evenly distributed the adsorption capacity of formed glass, to further realize stable Absorption, it is preferable that along taking the arranged circumferentially spaced of piece sucker 310 to have multiple vacuum suction slot 3H, vacuum way group includes cross To vacuum way 3G and vertical vacuum way 3L, lateral vacuum way 3G is horizontally extending and passes through vertical vacuum way 3L It is connected to vacuum passage 3O, multiple vacuum suction slot 3H are connected to lateral vacuum way 3G.

As shown in figure 18, the shifting sheet devices 500 of the utility model include longitudinal straight line mould group 501, lateral straight line mould group 503 And move piece sucker 507；Longitudinal straight line mould group 501 is installed on external rack and indulges including what can be moved along its length To moving member, lateral straight line mould group 503 is installed on longitudinal movement part；Lateral straight line mould group 503 includes can be along its length Mobile transverse shifting part moves piece sucker 507 and connect with transverse shifting part.Through the above technical solutions, when needing unshaped Glass starts lateral straight line mould group 503 and longitudinal 501 band of straight line mould group from when taking out and be moved in mold 1E in heater The dynamic top moved piece sucker 507 and be moved to heater, control move piece sucker 507 and the absorption of unshaped glass are got up, then controls Lateral straight line mould group 503 and longitudinal straight line mould group 501 are moved to the top of mold 1E for piece sucker 507 is moved, then pass through control It moves piece sucker 507 and discharges unshaped glass, be placed in unshaped glass in mold 1E.In this way, can automatic Picking simultaneously Movable glass greatly improves working efficiency, and reduces hand labor cost.

In mobile unshaped glass, unshaped glass is damaged in order to avoid taking as far as possible, put down movement, is needed Make to move after piece sucker 507 is positioned as close to unshaped glass and it is adsorbed or is discharged again, therefore, is inhaled to make to move piece Disk 507 can be in the vertical direction close to and far from unshaped glass, it is preferable that moving sheet devices includes vertical line mould group 505, vertical line mould group 505 vertically moves part including what can be moved along the vertical direction, and vertical line mould group 505 is installed on cross To moving member, moves piece sucker 507 and connect with part is vertically moved.

In order to improve the stability for moving piece sucker 507 and vertically moving part and connect, it is preferable that moving sheet devices includes vertically directly Line mould group gusset piece 508, vertical line mould group gusset piece 508, which is fixedly installed on, vertically moves part, and shifting piece sucker 507 is installed on vertical Straight straight line mould group gusset piece 508.

In order to improve the stability that lateral straight line mould group 503 is connect with longitudinal movement part, it is preferable that it includes vertical for moving sheet devices To mould group gusset piece 502, longitudinal mould group gusset piece 502 is fixedly installed on longitudinal movement part, and lateral straight line mould group 503 is installed on vertical To mould group gusset piece 502.

In order to improve the stability moving piece sucker 507 and connecting with transverse shifting part, it is preferable that it includes laterally straight for moving sheet devices Line mould group gusset piece 504, lateral straight line mould group gusset piece 504 are fixedly installed on transverse shifting part, move piece sucker 507 and transverse direction is straight Line mould group gusset piece 504 connects.

More stable support is obtained to make to move piece sucker 507, it is preferable that moving sheet devices includes moving piece suction cup carrier 506, moves piece Suction cup carrier 506 is installed on transverse shifting part, moves piece sucker 507 and is set to shifting piece suction cup carrier 506.

In some embodiments, it moves piece suction cup carrier 506 to be arranged along the vertical direction completely, and moves piece sucker 507 and be installed on The problem of moving the bottom end of piece suction cup carrier 506, being arranged in this way is, once the position of heater or mold 1E change, such as One end distance is moved in the horizontal direction, at this moment can only ensure to move by adjusting the stroke of longitudinal movement part and transverse shifting part Piece sucker 507 can be moved to correct operating position, and adjust the stroke of longitudinal movement part and transverse shifting part either from Mechanical angle or electronically controlled angle be all it is more troublesome, therefore, in order to solve this problem, it is preferable that move piece Suction cup carrier 506 includes the vertical section that extends along the vertical direction and connect with vertical section and horizontally extending horizontal segment, It moves piece sucker 507 and is installed on horizontal segment.That is, after the position of heater or mold 1E changes, it is only necessary to logical Crossing replacement, there is the shifting piece suction cup carrier 506 of the horizontal segment of different length can ensure that moving piece sucker 507 can be moved to correctly Operating position, to greatly improve work efficiency.

In some embodiments, due to there is spacer (such as rack between the position of mold 1E and the position of heater The middle door 122 of assembly 100), in order to get around spacer, it is preferable that longitudinal straight line mould group 501 and the equal edge of lateral straight line mould group 503 It is horizontally arranged and be mutually perpendicular to.

In addition, in order to keep it in the condition of high temperature, being reduced as far as when unshaped glass takes out from heater Influence of the extraneous low temperature to it, it is preferable that moving sheet devices includes heat-generating pipe, and heat-generating pipe is installed on shifting piece sucker 507 and is used for shifting Piece sucker 507 provides heating, and heat-generating pipe is connect with external power supply.That is, by the continuous heating of heat-generating pipe to not at Shape glass provides insulation effect in the process of moving.

It makes explanations explanation to the course of work of the preferred embodiment of the glass charging & discharging machine of the utility model below:

In work original state, loading and unloading sucking disc mechanism, heat preservation sucking disc mechanism, the heating sucking disc mechanism of support assembly 100 Sucker be at closed state, middle door 122, left-hand door 128, partition door 144 all in top, left front door 119 and right front door 117 And right door 137, all in opening state, the unshaped glass placed in heater has been heated to preset temperature, and warmer is in Blank state.

When the mold 1E for being loaded with formed glass comes out from the outlet of hot-bending machine, it is directly entered the mold of support assembly 100 The left end of transfer passage, i.e. position one in Fig. 2, at this moment the upper left shift fork 213 of mold transfer device 200, which stretches out, simultaneously pushes mould Tool 1E is moved to the first middle position of mold transfer passage, i.e. position two in Fig. 2, then upper left shift fork 213 is retracted and answered Position.

Lower-left shift fork 207 stretches out and mold 1E is pushed to be moved to the feed bin up and down of mold transfer passage later, i.e. in Fig. 2 Position three, then lower-left shift fork 207 is retracted and is resetted.

At this moment left-hand door 128 and right door 137 are closed, so that upper and lower feed bin, thermal insulation barn and heating cabinet is all isolated from the outside, starts Loading and unloading sucking disc mechanism lifts loading and unloading sucker 141 by the upper mold of mold 1E, completes die sinking, and then slice getting device 300 controls Piece sucker 310 is taken to be moved to the top of the lower die of mold 1D and lift the formed glass absorption in mold 1E.

Later, the heat preservation sucker 142 for keeping the temperature sucking disc mechanism lifts the lid of warmer, and the control of slice getting device 300 takes piece Formed glass is moved in warmer by sucker 310, i.e. position six in Fig. 2, keeps the temperature sucker 142 again by the lid of warmer It puts down, so that formed glass be made to realize heat preservation cooling in warmer.

When formed glass leaves the lower die of mold 1E, middle door 122 and partition door 144 are closed, by loading and unloading warehouse receipt solely every From at this moment starting high-pressure air source makes the lower gas hole 3K and upper gas hole 3E of slice getting device 300 spray air-flow respectively by mold 1E Lower die and upper mold clean up, open again later in door 122 and partition door 144.

It completes in cleaning works, heats the heating sucker 140 of sucking disc mechanism for the lid of heater (i.e. position seven in Fig. 2) Body lifts, move sheet devices 500 control move piece sucker 507 the unshaped glass in heater is moved in mold 1E, move back Piece sucker 507 resets, and the upper mold of mold 1E is put down realization molding by the loading and unloading sucker 141 of loading and unloading sucking disc mechanism.Later, it beats Left-hand door 128 and right door 137 are opened, the upper right shift fork 218 of control mold transfer device 200 stretches out and mold 1E is pushed to move from position three It moves to the second middle position of mold transfer passage, i.e. position four in Fig. 2, upper right shift fork 218, which retracts, later simultaneously resets.

Then, bottom right shift fork 202 stretches out and mold 1E is pushed to be moved to the inlet of hot-bending machine from position four, i.e. in Fig. 2 Position five, then bottom right shift fork 202 retract and reset, mold 1E can enter hot-bending machine in is processed.

In addition, after the temperature of the glass in warmer and heater reaches set temperature, be separately turned on left front door 119 and Right front door 117 carries out blanking work to glass formed in warmer, and provides the feeding work of unshaped glass to heater Make, closes left front door 119 and right front door 117 later.

It is the complete course of work of the glass charging & discharging machine of the utility model above, it can be seen that due to mold 1E Always the condition of high temperature is kept in mold transfer passage, therefore does not need that cooling, heating is repeated, to improve production effect Rate reduces energy consumption.

Preferred embodiments of the present invention, still, the utility model and unlimited are described in detail in conjunction with attached drawing above In this.In the range of the technology design of the utility model, a variety of simple variants can be carried out to the technical solution of the utility model, In order to avoid unnecessary repetition, no further explanation will be given to various combinations of possible ways for the utility model.But these simple changes Type and combination equally should be considered as content disclosed in the utility model, belong to the protection scope of the utility model.

Claims (10)

1. a kind of heating device, which is characterized in that the heating device includes gas chamber group and the heating chamber for accommodating glass；

The heating chamber is connected to the gas chamber group, and the gas chamber group is connected to external heating gas source, and heat gas is led Enter in the heating chamber；The heating chamber offers the exhaust outlet (4B) for the heat gas to be discharged.

2. heating device according to claim 1, which is characterized in that the gas chamber group includes upper chamber and lower chamber； The upper chamber includes for the upper air interface (4D) that is connected to of heating gas source and for the top with the heating chamber The upper vent hole (4G) of portion's connection, the lower chamber include for the lower intake interface (4C) that is connected to of heating gas source and Lower venthole (4F) for being connected to the bottom of the heating chamber.

3. heating device according to claim 2, which is characterized in that the heating device includes the upper cover plate liner of plate (402) it is set in the upper cover frame with the upper cover frame liner (404) of the groove profile of upper end opening, the upper cover plate liner (402) Described in the upper end open-mouth of (404) being served as a contrast so that the upper cover plate liner (402) and the upper cover frame liner (404) limit jointly Upper chamber.

4. heating device according to claim 3, which is characterized in that the heating device includes the lower frame liner of plate (408) it is arranged with the pedestal liner (407) of the groove profile of lower end opening, the lower frame liner (408) in the pedestal liner (407) Lower end open-mouth so that the pedestal liner (407) and the lower frame liner (408) limit the lower chamber jointly.

5. heating device according to claim 4, which is characterized in that the bottom surface of the upper cover frame liner (404) and described The top surface of lower frame liner (408) limits the heating chamber jointly, and the upper cover frame liner (404) offers the upper vent hole (4G), the lower frame liner (408) offer the lower venthole (4F).

6. heating device according to claim 4, which is characterized in that the heating device includes upper cover plate (401), upper cover Frame (403), pedestal (406) and lower frame (409)；The upper cover plate (401) and the upper cover frame (403) form lid, described Upper cover plate liner (402) is installed on the upper cover plate (401), and the upper cover frame liner (404) is installed on the upper cover frame (403)；The pedestal (406) and the lower frame (409) form cabinet, and the pedestal liner (407) is installed on the pedestal (406), the lower frame liner (408) is installed on the lower frame (409).

7. heating device according to claim 6, which is characterized in that the heating device includes for mentioning to the glass For the locating ring (405) of positioning, the locating ring (405) is arranged in the heating chamber.

8. heating device according to claim 7, which is characterized in that the exhaust outlet (4B) sequentially passes through the locating ring (405), the heating chamber is in communication with the outside by the lower frame liner (408) and the lower frame (409).

9. heating device according to claim 1, which is characterized in that the heating device includes being set to the heating chamber In soft bolster (4E).

10. a kind of glass charging & discharging machine, which is characterized in that the glass charging & discharging machine includes any one of claim 1-9 The heating device.