CN213506595U - Device for manufacturing vacuum glass in batches - Google Patents

Abstract

The utility model discloses a device for manufacturing vacuum glass in batches, include unsettled furnace body and the evacuation system that is supported by the stand, evacuation system includes a plurality of evacuation heads, and evacuation head divides two equidistance dislocation to arrange and set up respectively in furnace body axis both sides and respectively with crisscross vertical vacuum glass group's of putting intercommunication, still includes heated air circulation device and guiding device, the beneficial effects of the utility model are that evacuation system can once only accomplish banding, welded tube, the evacuation of multiunit vacuum glass group and seal the operation, evacuation system and multiunit vacuum glass group alternately dislocation intercommunication increase evacuation system's the space of placing, the operation of being convenient for improves the productivity, through heated air circulation device, makes hot-blast in the same direction as vacuum glass group puts the direction and flows, makes vacuum glass group be heated evenly, and the yield is high.

Description

Device for manufacturing vacuum glass in batches

Technical Field

The utility model belongs to the technical field of the vacuum glass makes technique and specifically relates to a device for manufacturing vacuum glass in batches is related to.

Background

In the prior art, the vacuum glass manufacturing process is low in efficiency, and particularly becomes a bottleneck restricting production due to long heat preservation time, long material loading time, small processing quantity and the like in the edge sealing and vacuumizing stages.

The application numbers are: 201910093553.9 discloses a vacuum glass vertical vacuum-pumping vehicle, a vacuum-pumping device, a preparation method and vacuum glass, wherein the vacuum glass vertical vacuum-pumping vehicle comprises a heat-insulating carrier platform with rollers at the bottom, a supporting mechanism arranged on the carrier platform and used for supporting and positioning a plurality of groups of vacuum glass groups and enabling the vacuum glass groups to be vertically arranged at intervals, sealing joints used for being correspondingly connected with the vacuum-pumping heads of the vacuum glass groups, a vacuum-pumping main pipe arranged below the carrier platform and correspondingly communicated with the sealing joints, and a vacuum pump system communicated with the vacuum-pumping main pipe. However, the vacuum glass vertical vacuum-pumping vehicle, the vacuum-pumping device, the preparation method and the vacuum-pumping device in the vacuum glass are single vacuum systems, the vacuum glass groups are arranged in parallel and connected with the vacuum systems at the same side, the vacuum-pumping efficiency is low, the placing space of the vacuum systems is small, the operation is difficult, the productivity is low, hot air cannot flow along the placing direction of the vacuum glass groups, the vacuum glass groups are heated unevenly, and the yield is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a device for manufacturing vacuum glass in batches.

In order to achieve the above object, the present invention provides a technical solution:

the utility model provides a device for manufacturing vacuum glass in batches, includes unsettled furnace body and the vacuum pumping system that is supported by the stand, vacuum pumping system includes a plurality of evacuation heads, and the evacuation head divide two equidistance dislocation arrangements and sets up respectively in furnace body axis both sides and in order to communicate with crisscross vertical vacuum glass group of putting respectively.

The furnace body is a single furnace, and the vacuumizing heads are arranged on two sides of the furnace body and correspond to the bottoms of two side edges of the vacuum glass group.

The furnace body is a tunnel type heating furnace, the vacuumizing system is arranged on the inner side of the furnace wall below the furnace body through a carrying platform, and the vacuumizing heads are arranged on two sides of the furnace body and the carrying platform and correspond to two end parts of the bottom edge of the vacuum glass group.

The furnace body is a box-type heating furnace, the vacuumizing system is arranged on the inner side of the furnace wall below the furnace body through a carrying platform, the vacuumizing heads are arranged on the two sides of the furnace body and the carrying platform and correspond to the two end parts of the bottom edge of the vacuum glass group, air cylinders are arranged on the two sides below the carrying platform, channel steel is arranged at the output ends of the air cylinders, and rock wool is arranged inside the channel steel.

The vacuumizing system comprises a vacuum pump, a vacuumizing main pipe communicated with the vacuum pump and a plurality of vacuumizing branch pipes arranged on the vacuumizing main pipe, a vacuumizing head is communicated with the vacuumizing branch pipes, the vacuumizing head is placed at a position in the furnace parallel to the bottom edge of the vacuum glass group, or at a position in the furnace vertical to the bottom edge of the vacuum glass group, or at a position below the furnace bottom and vertical to the bottom edge of the vacuum glass group, and vacuumizing cover heads are placed on the plane of the vacuum glass group, wherein the number of the vacuumizing main pipes is two.

The vacuumizing head enables the holes or the glass tubes on the vacuum glass group to be respectively connected with the vacuumizing head through the fixing head so as to support and position the vacuumizing head relative to the vacuum glass group.

Still include heated air circulation device, heated air circulation device is including being used for vacuum glass organizes the heating band that provides the heat, be used for right vacuum glass organizes the air-cooler that provides the cooling to and be used for with the produced heat of heating band be in carry out the circulating fan that circulates between the vacuum glass group.

The vacuum glass group is characterized by further comprising a flow guide device, wherein the flow guide device comprises a flow guide plate corresponding to the vacuum glass group.

The furnace body is connected with the carrying platform in a sealing mode through a buckle, the buckle comprises an access board and a clamping board, the access board is arranged on the inner wall of the furnace body, and the clamping board is arranged on two sides of the carrying platform corresponding to the access board.

The vacuumizing head is communicated with the vacuumizing branch pipe in a sealing mode through a sealing joint.

The utility model has the advantages that:

the double-vacuum system can finish the operations of edge sealing, pipe welding and vacuumizing sealing of a plurality of groups of vacuum glass groups at one time, the double-vacuum system is communicated with the plurality of groups of vacuum glass groups in a crossed and staggered manner, the placing space of the double-vacuum system is increased, the operation is convenient, the productivity is improved, hot air flows along the placing direction of the vacuum glass groups through the hot air circulating device, the vacuum glass groups are heated uniformly, and the yield is high.

Drawings

FIG. 1 is a schematic diagram of an overall structure of an embodiment of the present invention;

FIG. 2 is a first schematic view of the vacuum head and vacuum glass assembly of the present invention;

FIG. 3 is a schematic view showing the position of the vacuum head and the vacuum glass assembly according to the present invention;

FIG. 4 is a third schematic view of the vacuum head and vacuum glass assembly of the present invention;

FIG. 5 is a fourth schematic view of the position of the vacuum head and vacuum glass assembly of the present invention;

FIG. 6 is a schematic view of the overall structure of the second embodiment of the present invention;

FIG. 7 is a cross-sectional view of a second stage and a vacuum glass set in accordance with an embodiment of the present invention;

fig. 8 is a schematic diagram of the overall structure of the embodiment of the invention.

In the figure: 1. a furnace body; 2. a vacuum glass group; 3. a vacuum pumping system; 4. a stage; 5. a vacuum pump; 6. vacuumizing the main pipe; 7. vacuumizing a branch pipe; 8. a fixed head; 9. a hot air circulating device; 10. heating the tape; 11. an air cooler; 12. a circulating fan; 13. a flow guiding device.

Detailed Description

The invention will be described in further detail with reference to the accompanying drawings,

the first embodiment is as follows:

the utility model provides a device for batch production vacuum glass, includes unsettled furnace body and the vacuum pumping system that is supported by the stand, and vacuum pumping system includes a plurality of evacuation head, and evacuation head divides two equidistance dislocation arrangements and sets up respectively in furnace body axis both sides and with respectively with crisscross vertical vacuum glass group's of putting intercommunication, the utility model discloses an overall structure schematic diagram is shown in figure 1.

Wherein, vacuum glass group includes glass, glass powder and glass bordures and the evacuation head, and glass has two, and two glass set up side by side, and the glass powder coating is in the side that two glass are relative, and glass bordures the setting around the glass ring, and vacuum glass group has a plurality of groups, and a plurality of groups vacuum glass group sets up inside the furnace body side by side, and vacuum glass group limit portion side welding glass pipe, direction perpendicular to ground, and the direction of glass pipe butt joint evacuation head or glass pipe is on a parallel with the glass base butt joint evacuation head of putting immediately downwards.

The furnace body is a single furnace, the bottom of the furnace body is integrally sealed, the vacuumizing heads are arranged at two sides of the furnace body and correspond to the bottoms of two side edges of the vacuum glass group, the vacuumizing system is arranged on the furnace body and fixedly connected with the furnace body, the vacuumizing system can be arranged at the inner side of the furnace wall or at the outer side of the furnace wall, the vacuumizing system comprises a vacuum pump, a vacuumizing main pipe communicated with the vacuum pump, vacuumizing branch pipes which are uniformly arranged on the vacuumizing main pipe in a staggered manner and communicated with the vacuumizing main pipe, the vacuumizing branch pipes are provided with a plurality of vacuumizing heads or vacuumizing cover heads which are arranged at one end of the vacuum glass group at intervals and are crossed corresponding to the vacuumizing branch pipes, the vacuumizing heads are arranged at positions parallel to the bottom edge of the vacuum glass group in the furnace or at positions vertical to the bottom edge of the vacuum glass group under the furnace, the position schematic diagrams of the vacuum-pumping head and the vacuum glass group are shown in figures 2-5, the vacuum-pumping cover head is placed on the plane of the vacuum glass group, the vacuum-pumping main pipes are two, the two vacuum-pumping main pipes are arranged on the side surface of the furnace body and are respectively connected with two independent vacuum pumps, the two vacuum-pumping main pipes are positioned on two sides of the furnace body, the vacuum-pumping branch pipes are corrugated pipes, the furnace body is provided with through holes corresponding to the vacuum-pumping branch pipes, the vacuum-pumping branch pipes penetrate through the furnace body through the through holes, the vacuum-pumping head is a glass pipe, the upper end of the vacuum-pumping head extends into the vacuum glass group and can be arranged at the corner part, the middle part or any set part of the vacuum glass group, for example, the vacuum-pumping head is positioned by correspondingly arranging positioning grooves or notches on the vertical glass, the vacuum glass group is stored in a vertical position, the processing capacity, and realizing synchronous vacuum pumping operation of batches.

Wherein, the female pipe of evacuation sets up respectively in the furnace body both sides, and the tip design of staggering of two adjacent vacuum glass group and evacuation branch pipe intercommunication, reduce the volume of evacuation head or evacuation cover head to the influence of vacuum glass group interval, improve overall arrangement density, and the width that can make full use of furnace body, guarantee the heating effect of side portion, two female pipes of evacuation can be by same vacuum pump evacuation simultaneously or round evacuation, perhaps respectively by the speed of a vacuum pump evacuation in order to improve the evacuation, perhaps the mode of evacuation is in order to improve vacuum step by step, the productivity is double than unilateral stringing.

When the vacuumizing head is adopted, one end of the vacuumizing head is arranged between two pieces of glass and communicated with the space formed between the two pieces of glass, the vacuumizing head is communicated with the vacuumizing branch pipe in a sealing mode through the sealing joint, and the sealing joint can guarantee the sealing performance of the vacuumizing head.

When the vacuumizing cover head is adopted, the vacuumizing cover head is arranged on the side face of the vacuum glass group and is in adsorption communication with the vacuum glass group, the vacuumizing cover head is in sealing communication with the vacuumizing branch pipe, the vacuum glass group is provided with an air exhaust hole corresponding to the vacuumizing cover head, and after vacuumizing is completed, the vacuumizing cover head can seal the air exhaust hole in a surface mounting mode.

It is fixed for vacuum glass group to organize through the fixed head with the evacuation head, prevents that the evacuation head from organizing to remove and leading to the evacuation head to break for vacuum glass, and the fixed head setting is on the evacuation head, and the fixed head can adopt one or several kinds in fixation clamp or fixed sucking disc or the fixed jackscrew to fix vacuum glass group, wherein, does not set up the fixed head and still can carry out the evacuation operation, sets up the fixed head and can promote the stability between evacuation head and the vacuum glass group.

Example two:

the utility model provides a device for batch production vacuum glass, includes unsettled furnace body and the vacuum pumping system that is supported by the stand, and vacuum pumping system includes a plurality of evacuation head, and evacuation head divides two equidistance dislocation arrangements and sets up respectively in furnace body axis both sides and with respectively with crisscross vertical vacuum glass group's of putting intercommunication, the utility model discloses two overall structure schematic diagrams are shown in fig. 6.

Wherein, vacuum glass group is including glass, glass powder and glass bordure and evacuation head, and glass has two, and two glass set up side by side, and the glass powder coating is in the relative side of two glass, and glass bordures the setting at the glass ring week, and vacuum glass group has a plurality of groups, and a plurality of groups vacuum glass group sets up inside the furnace body side by side.

The furnace body is a tunnel type heating furnace, the vacuumizing system is arranged on the inner side of the furnace wall below the furnace body through a carrying platform, the vacuumizing heads are arranged on two sides of the furnace body and the carrying platform and correspond to two end portions of the bottom edge of the vacuum glass group, rollers are arranged below the carrying platform, sliding rails are arranged on the inner side of the furnace body and correspond to the rollers, the furnace body and the carrying platform are connected in a sealing mode through buckles, each buckle comprises an access board and a clamping board, the access boards are arranged on the inner wall of the furnace body, the clamping boards correspond to the access boards and are arranged on two sides of the carrying platform.

The vacuumizing system comprises a vacuum pump, a vacuumizing main pipe communicated with the vacuum pump, a plurality of vacuumizing branch pipes which are uniformly arranged on the vacuumizing main pipe in a staggered manner and communicated with the vacuumizing main pipe, and vacuumizing heads or vacuumizing cover heads which are arranged at one end of a vacuum glass group at intervals and are crossed corresponding to the vacuumizing branch pipes, wherein the vacuumizing heads are arranged at the positions parallel to the bottom edge of the vacuum glass group in the furnace, or at the positions vertical to the bottom edge of the vacuum glass group at the bottom outside the furnace, the vacuumizing cover heads are arranged on the plane of the vacuum glass group, the vacuumizing main pipes are two, the two vacuumizing main pipes are arranged at two sides below the carrying platform, the vacuum pump is arranged at the lower end of the carrying platform, the two vacuumizing main pipes are arranged at two sides of the vacuum pump, the vacuumizing branch pipes are corrugated pipes, and the carrying platform is provided with through holes corresponding to the vacuumizing, the vacuumizing branch pipe penetrates through the carrier platform through the through hole, the vacuumizing head is a glass pipe, the upper end of the vacuumizing head extends into the vacuum glass group, the vacuumizing head can be arranged at the corner part, the middle part or a randomly set place of the vacuum glass group, for example, the positioning is realized by correspondingly arranging a positioning groove or a notch on the vertical glass, the vacuum glass group is stored in a vertical position, the processing capacity is increased, the processing efficiency is effectively improved, the sealing joint corresponding to the vacuumizing branch pipe is utilized to realize the sealing butt joint with the vacuumizing branch pipe, the batch synchronous vacuumizing operation is realized, the roller is arranged below the carrier platform, the inner side of the furnace body is provided with a sliding rail corresponding to the carrier platform, one side of the furnace body is provided with an openable sealing door, the roller moves on the sliding rail to enable the carrier platform to enter and exit the furnace body, the carrier operates in the furnace and heats, the carrier, in the operation process of the carrying platform, the furnace body is heated and warmed, hot air passes through the space between the adjacent vacuum glass groups, and the beat of the furnace door is opened according to the setting of the edge sealing temperature gradient, and the combined cross-sectional view of the two carrying platforms and the vacuum glass groups is shown in figure 7.

Wherein, the female pipe of evacuation sets up respectively in the furnace body both sides, and the tip design of staggering of two adjacent vacuum glass group and evacuation branch pipe intercommunication, reduce the volume of evacuation head or evacuation cover head to the influence of vacuum glass group interval, improve overall arrangement density, and the width that can make full use of furnace body, guarantee the heating effect of side portion, two female pipes of evacuation can be by same vacuum pump evacuation simultaneously or round evacuation, perhaps respectively by the speed of a vacuum pump evacuation in order to improve the evacuation, perhaps the mode of evacuation is in order to improve vacuum step by step, the productivity is double than unilateral stringing.

When the vacuumizing head is adopted, one end of the vacuumizing head is arranged between two pieces of glass and communicated with the space formed between the two pieces of glass, the vacuumizing head is communicated with the vacuumizing branch pipe in a sealing mode through the sealing joint, and the sealing joint can guarantee the sealing performance of the vacuumizing head.

When the vacuumizing cover head is adopted, the vacuumizing cover head is arranged on the side face of the vacuum glass group and is in adsorption communication with the vacuum glass group, the vacuumizing cover head is in sealing communication with the vacuumizing branch pipe, the vacuum glass group is provided with an air exhaust hole corresponding to the vacuumizing cover head, and after vacuumizing is completed, the vacuumizing cover head can seal the air exhaust hole in a surface mounting mode.

It is fixed for vacuum glass group to organize through the fixed head with the evacuation head, prevents that the evacuation head from organizing to remove and leading to the evacuation head to break for vacuum glass, and the fixed head setting is on the evacuation head, and the fixed head can adopt one or several kinds in fixation clamp or fixed sucking disc or the fixed jackscrew to fix vacuum glass group, wherein, does not set up the fixed head and still can carry out the evacuation operation, sets up the fixed head and can promote the stability between evacuation head and the vacuum glass group.

Still include heated air circulation device, heated air circulation device is including being used for organizing the heating band that provides the heat for vacuum glass, the heating band sets up in the furnace body both sides, be used for organizing providing refrigerated air-cooler to vacuum glass, the air-cooler setting in the furnace body top and with the inside intercommunication of furnace body, and be used for carrying out the circulating fan that circulates with the produced heat of heating band between vacuum glass group, circulating fan sets up in the furnace body top and communicates with the furnace body, heated air circulation device can make hot-blast passing through between adjacent two sets of vacuum glass group.

The heating belt has a temperature gradient, the temperature gradient is set in a segmented mode that a baffle is arranged on a carrying platform and the carrying platforms are connected to form an independent chamber, or the electric power of a local chamber of the furnace body is increased or reduced to form a staged temperature gradient, and when the furnace body adopts a tunnel-type heating furnace, a plurality of vertical gate plates can be set in a segmented mode to isolate or each independent chamber according to the temperature gradient, and the temperature is controlled respectively.

The vacuum glass group air-conditioning system is characterized by further comprising a flow guide device, wherein the flow guide device comprises a flow guide plate corresponding to the vacuum glass group, the flow guide plate is located on the outer side of the vacuum glass group, and the flow guide device can guide hot air through the flow guide plate so as to enable the hot air to be fully circulated among the multiple groups of vacuum glass groups.

Example three:

replace the furnace body in embodiment two for box heating furnace to set up the cylinder in microscope carrier below both sides, the output of cylinder sets up the channel-section steel, and the channel-section steel is inside to be equipped with the rock wool, and other parts are the same with embodiment two.

The vacuum pumping system passes through the microscope carrier setting and is in furnace body below oven inboard, the vacuum pumping head setting is in furnace body and microscope carrier both sides and corresponding with the both ends on vacuum glass group base, and the microscope carrier below is equipped with the gyro wheel, and the inboard gyro wheel that corresponds of furnace body is equipped with the slide rail, and furnace body and microscope carrier extrusion seal, when the microscope carrier motion is to the stove in, the cylinder holds up the channel-section steel and accomplishes extrusion seal with the furnace body coupling, and this kind of structure is convenient for whole car processing to prevent that the heat of cluster from burning out vacuum pumping system down in the stove, the utility model discloses a three structure schematics are as shown in.

Example four:

the method for manufacturing the vacuum glass in batches comprises the following steps:

a. arranging one end of the prefabricated vacuum glass group provided with the vacuum pumping head or one end provided with the vacuum pumping cover head in the furnace body in a crossed mode at intervals;

b. communicating the vacuum glass group with a vacuum branch pipe through a vacuum head or a vacuum cover head;

c. heating and sealing edges in the furnace body and starting a vacuumizing step;

d. and thermally fusing the vacuumizing head or sealing the opening through a vacuumizing cover head patch after edge sealing is finished.

In step a, the fixing head can adopt a fixing clamp to clamp and fix the vacuum glass group, or adopt a fixing sucker to adsorb and fix the vacuum glass group, or adopt a fixing jackscrew to jack the vacuum glass group, wherein the vacuum pumping operation can still be carried out without the fixing head, and the stability between the vacuum pumping head and the vacuum glass group can be improved by the fixing head.

In the step a, the vacuumizing cover head is arranged on the outer side of the corner of the vacuum glass group, and the vacuum glass group is provided with an air suction hole corresponding to the vacuumizing cover head.

In step b, wherein the vacuumizing cover head is placed between two groups of glass in a hanging mode, when vacuumizing is needed, the vacuumizing cover head is driven by a mechanical device to be close to the surface of the glass, vacuumizing is started, the surface mount is heated to melt glass powder when sealing is needed, the surface mount is plugged on an opening hole to complete hole sealing under the driving of the mechanical device, or a glass tube vertically placed on the bottom edge of a vacuum glass group placed vertically is pulled down, the butt joint vacuumizing head is locked, and after vacuumizing, the glass tube sealing is melted through electric heating.

The prefabricated vacuum glass group is formed by coating edge sealing glass powder on a single piece of glass, placing a vacuumizing head or adsorbing a vacuumizing cover head on one side of the vacuum glass group after the surface layer of the edge sealing glass powder is solidified and is not adhered, and combining the glass sheets and ensuring that edge sealing materials are arranged between the vacuumizing head and the two pieces of glass to clamp the vacuum glass group.

And pre-vacuumizing the softened glass powder under the pressure lower than one atmospheric pressure to ensure that the softened glass powder is fully leveled, is maintained at the pressure and is heated, and is continuously vacuumized to seal after the glass powder is cooled to be solidified.

The beneficial effects of the utility model are that the banding, welded tube, the evacuation that multiunit vacuum glass group can once only be accomplished to two vacuum system seal the operation, and two vacuum system and multiunit vacuum glass group alternately dislocation intercommunication increase two vacuum system's the space of placing, and the operation of being convenient for improves the productivity, through heated air circulation device, makes hot-blast in the same direction as vacuum glass group puts the direction and flows, makes vacuum glass group be heated evenly, and the yield is high.

While one embodiment of the present invention has been described in detail, the present invention is only a preferred embodiment of the present invention, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (10)

1. The utility model provides a device for batch production vacuum glass, its characterized in that includes unsettled furnace body (1) and vacuum pumping system (3) that are supported by the stand, vacuum pumping system (3) include a plurality of evacuation heads, and the evacuation head divides two equidistance dislocation arrangements and sets up respectively in furnace body axis both sides and communicates with crisscross vertical vacuum glass group (2) of putting respectively.

2. The apparatus for manufacturing vacuum glass in batch according to claim 1, wherein the furnace body (1) is a single furnace, and the vacuum pumping heads are disposed at both sides of the furnace body (1) and correspond to bottoms of both sides of the vacuum glass group (2).

3. The apparatus for manufacturing vacuum glass in batch according to claim 1, wherein the furnace body (1) is a tunnel furnace, the vacuum-pumping system (3) is disposed inside a lower furnace wall of the furnace body (1) through a stage (4), and vacuum-pumping heads are disposed on both sides of the furnace body (1) and the stage (4) and correspond to both end portions of the bottom edge of the vacuum glass group (2).

4. The apparatus for manufacturing vacuum glass in batches according to claim 1, characterized in that the furnace body (1) is a box-type heating furnace, the vacuum-pumping system (3) is arranged inside the furnace wall below the furnace body (1) through a carrying platform (4), the vacuum-pumping heads are arranged on both sides of the furnace body (1) and the carrying platform (4) and correspond to both end portions of the bottom edge of the vacuum glass group (2), air cylinders are arranged on both sides below the carrying platform, the output ends of the air cylinders are provided with channel steel, and rock wool is arranged inside the channel steel.

5. An apparatus for manufacturing vacuum glass in batches according to claim 2, 3 or 4, characterized in that the vacuum-pumping system (3) comprises a vacuum pump (5), a vacuum-pumping main pipe (6) connected to the vacuum pump (5), a plurality of vacuum-pumping branch pipes (7) provided on the vacuum-pumping main pipe (6), a vacuum-pumping head connected to the vacuum-pumping branch pipes (7), the vacuum-pumping head being placed in the furnace in parallel with the bottom edge of the vacuum glass group, or in a position perpendicular to the bottom edge of the vacuum glass group under the furnace, and the vacuum-pumping head being placed in the plane of the vacuum glass group, wherein there are two vacuum-pumping main pipes (6).

6. An apparatus for manufacturing vacuum glass in batches according to claim 5, characterized in that the vacuum head connects the openings or glass tubes, respectively, of the group of vacuum glass to the vacuum head via a fixing head (8) for holding it in position relative to the group of vacuum glass (2).

7. The apparatus for manufacturing vacuum glass in batch according to claim 1, further comprising a hot air circulating device (9), wherein the hot air circulating device (9) comprises a heating belt (10) for supplying heat to the vacuum glass groups (2), a cold air blower (11) for cooling the vacuum glass groups (2), and a circulating air blower (12) for circulating the heat generated by the heating belt (10) between the vacuum glass groups (2).

8. The apparatus for manufacturing vacuum glass in batch according to claim 7, further comprising a deflector (13), wherein the deflector (13) comprises a deflector disposed corresponding to the vacuum glass group (2).

9. The apparatus for manufacturing vacuum glass in batches according to claim 3, characterized in that the furnace body is connected with the carrying platform in a sealing manner by a buckle, the buckle comprises an access board and a clamping board, the access board is arranged on the inner wall of the furnace body (1), and the clamping board is arranged on two sides of the carrying platform (4) corresponding to the access board.

10. An apparatus for manufacturing vacuum glass in batch according to claim 5, wherein the vacuum head is in sealed communication with the vacuum branch pipes (7) through a sealing joint.

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