CN117023950B - Device for producing glass products - Google Patents

Abstract

The invention discloses a device for manufacturing glass products, and belongs to the technical field of glass material production. The device for manufacturing the glass product comprises a manufacturing table and a melting manufacturing device, wherein a mold shaping device is arranged in the middle of the manufacturing table, the melting manufacturing device is installed on the mold shaping device, the manufacturing table comprises a glass manufacturing channel and a movable connecting pipe, the glass manufacturing channel is movably connected with a limiting part, the limiting part and the glass shaping channel are respectively connected with an air guide device, and the air guide device is fixedly connected with a braking device. In the invention, the automatic control components are arranged in the aspects of glass softening, transferring and forming, and are mutually connected in a device manner to form linkage, thereby effectively improving the manufacturing efficiency and saving a great deal of labor time and energy.

Description

Device for producing glass products

Technical Field

The present invention relates to the technical field of glass material production, and more particularly to an apparatus for manufacturing glass products.

Background

Glass product making is a complex process involving glass materials, not only making simple transparent glass single products from glass raw materials including silica, alkali and alkaline earth oxides, oxidized metals, and additives, but also creating various beautiful, practical, and decorative glass products by plastic working.

Many existing glass production processes still need to rely on manual blowing and manual rotation to control the glass shape, which requires high skill and tolerance of operators, but even with high glass processing skills and levels, softening and transferring the glass. The molding and post-processing require a lot of labor time and do not result in much improvement in glass production efficiency.

Disclosure of Invention

The present invention aims to provide a device for manufacturing glass products, which solves the problems set forth in the background art: many existing glass manufacturing processes still need to rely on manual blowing and manual rotation to control the shape of the glass, and this approach requires high skill and tolerance for operators, but even with high glass processing skills and levels, significant worker time is required in softening, transferring, shaping and post-processing the glass, and the glass production efficiency is not improved much.

The device for manufacturing glass products comprises a manufacturing table and two connecting plates, wherein the manufacturing table comprises a supporting frame and two connecting plates, each connecting plate consists of a horizontal plate and a perforated vertical plate, a mold shaping device is arranged between the perforated vertical plates of each connecting plate, each mold shaping device comprises a left shaping arc plate and a right shaping arc plate, the lower ends of the shaping arc plates are provided with telescopic structures, the bottom surfaces of the telescopic structures are fixedly connected with the supporting frame, the melting manufacturing device is arranged on the horizontal plate of each connecting plate and positioned on the front side of the whole device, each perforated vertical plate of each connecting plate is fixedly connected with a glass manufacturing channel and positioned on the rear side of the whole device, each perforated vertical plate of each connecting plate is fixedly connected with a movable connecting pipe, each glass manufacturing channel is movably connected with a limiting part, each movable connecting pipe is connected with a glass shaping channel, each limiting part is internally and each glass shaping channel is internally connected with an air guide device, and each air guide device is fixedly connected with a braking device.

Preferably, the melting manufacturing device comprises a melting box and a transfer channel, the top of the melting box is provided with a box door, the bottom of the melting box is connected with the transfer channel, the melting box and the transfer channel are both provided with inner cavity channels, the upper end of the transfer channel is provided with a movable baffle, lifting rods are fixedly connected to the front side and the rear side of the melting box, lugs are arranged on the front side and the rear side of the transfer channel, the lifting rods are connected with the lugs in a penetrating manner, and the melting box and the mould shaping device are connected through the transfer channel so that glass raw materials can be quickly transferred to the mould shaping device after melting, and the efficiency of glass manufacturing is effectively improved.

Preferably, the mould setting device includes the shaping arc board, shaping arc board lower extreme is provided with extending structure, shaping arc board lower extreme fixedly connected with connecting block, extending structure left and right sides is provided with the telescopic link, just extending structure passes through the telescopic link is connected the connecting block, the right-hand member the connecting hole has been seted up to shaping arc board bottom, the left end shaping arc board bottom is provided with the connecting rod, realizes the rapid prototyping to glass smelting article through the shaping arc board that sets for in advance, can control the shaping scope size simultaneously, realizes having limited control.

Preferably, the support frame is in front and back both sides fixed connection two connecting plates, glass preparation passageway is hollow design, the removal groove has been seted up to glass preparation passageway surface left and right sides, connects the vertical board outside surface of connecting plate trompil of glass preparation passageway is provided with location trigger, just location trigger sets up glass preparation passageway left and right sides, the movable connecting pipe circumference is provided with cross link, and connects the vertical board outside surface of connecting plate trompil of movable connecting pipe is provided with the flame gun, the flame gun sets up the movable connecting pipe left and right sides, and be located the whole device rear end the plastic blunt sword is installed to the connecting plate horizontal plate bottom surface, and the glass preparation passageway that the preparation platform set up is used for making basic glass board, helps control the glass ball shape when the gas guide shaping stage for after the glass ball is expanded and is spread out and is more neatly shaped, and the movable connecting pipe that the preparation platform set up through with the glass shaping passageway, can carry out shape processing to the glass ball after the gas guide for produce various glass handicraft, improved the functional of device.

Preferably, the limiting component comprises a movable main shaft and a disc baffle, one end of the movable main shaft, which is close to the mold shaping device, is fixedly connected with the disc baffle, one end of the movable main shaft, which is far away from the mold shaping device, is provided with a ring-shaped groove, the left side and the right side of the movable main shaft are fixedly connected with sliding columns, the two sliding columns are respectively connected with a positioning rod, the limiting component is used for connecting an air guide device and is used as a limiting carrier of the air guide device, the air guide device is ensured to stably rotate when contacting a glass smelting product, the thickness of glass balls is ensured to be the same, and the quality of the glass balls generated next is improved.

Preferably, the glass shaping channel comprises a straight pipe and a connector, the front end of the straight pipe is fixedly connected with the connector, a cross chute is formed in the inner wall of the connector, a rectangular groove is formed in the upper end of a straight pipe body, round grooves are formed in the left end and the right end of the straight pipe body, a gas guide device is used for moving a glass semi-finished product after gas guide from a movable connecting pipe to the straight pipe, a braking device is combined for rotation to manufacture glass balls, a fire gun is combined for spraying high-temperature flame to soften the surface of the glass balls, and a plastic blunt knife is used for contacting the surface of the softened glass balls, so that the shape of the glass balls is changed, and the manufacturing creativity is improved.

Preferably, the air guide device comprises a blowing pipe, a positioning block is fixedly connected to the blowing pipe, the blowing pipe is of a hollow design, a metal needle is connected in the blowing pipe, one surface of the positioning block, which is close to the limiting part, is of an annular design and is used for being connected with an annular groove, so that the blowing pipe is prevented from being inserted into the die shaping device to be damaged too deeply when the blowing pipe moves into the die shaping device, and the blowing pipe is prevented from being inserted by lifting the metal needle before air guide.

Preferably, the braking device comprises a hydraulic rod and a conveying structure, the front end of the hydraulic rod is fixedly connected with an annular box, the conveying structure is arranged in the annular box and comprises a ring gear and a spur gear, the spur gear of the conveying structure is connected with the upper end and the lower end of the ring gear, the spur gear at the upper end of the conveying structure is fixedly connected with a rotating motor, the rotating motor is fixedly connected with the front end of the upper surface of the hydraulic rod, the spur gear at the lower end of the conveying structure is fixedly connected with the front end of the air guide device, the maneuverability and the accuracy of the air guide device are improved by the aid of the braking device, and meanwhile, the labor time and energy are greatly saved.

Compared with the prior art, the invention has the advantages that:

(1) In the invention, the automatic control components are arranged in the aspects of glass softening, transferring and forming, and are mutually connected in a device manner to form linkage, thereby effectively improving the manufacturing efficiency and saving a great deal of labor time and energy.

(2) According to the invention, the melting box and the mould shaping device are connected through the transfer channel, so that glass raw materials can be quickly transferred into the mould shaping device after smelting, the efficiency of glass manufacturing is effectively improved, the glass smelting products can be quickly shaped through the shaping arc plate which is set in advance, and meanwhile, the size of the shaping range can be controlled, so that limited control is realized.

(3) According to the invention, the base glass plate is manufactured by the manufacturing table through the arranged glass manufacturing channel, and the shape of the glass ball in the air guide forming stage is controlled by the glass manufacturing channel, so that the shape of the glass ball after being unfolded and laid is more neat and more regular, and the movable connecting pipe is further arranged on the manufacturing table, and the shape of the glass ball after air guide can be processed through the glass forming channel, so that various glass artware can be generated, and the functionality of the device is improved.

(4) In the invention, when the glass manufacturing channel is used for manufacturing simple glass sheets, a positioning trigger effect is provided, and after the positioning rod contacts the positioning trigger, the positioning trigger can send a signal to a rotating motor in the braking device, so that the air guiding device is controlled to rotate, and the automatic control of the device is realized.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall right-view structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure of the melt fabrication apparatus according to the present invention;

FIG. 3 is an enlarged schematic view of the structure of the mold shaping device of the present invention;

FIG. 4 is an enlarged schematic view of a portion of the structure of the fabrication table of the present invention;

FIG. 5 is an enlarged schematic view of a portion of the structure of the fabrication table of the present invention;

FIG. 6 is an enlarged schematic view of a portion of the structure of the fabrication table of the present invention;

FIG. 7 is an enlarged schematic view of the limiting member according to the present invention;

FIG. 8 is an enlarged schematic view of a glass shaping channel structure according to the present invention;

fig. 9 is an enlarged schematic view of the structure of the air guide device and the brake device of the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

1. a manufacturing table; 101. a support frame; 102. a connecting plate; 103. a glass manufacturing channel; 104. a movable connecting pipe; 105. a flame gun; 106. a plastic blunt knife; 107. positioning a trigger; 108. a moving groove; 2. a mold shaping device; 201. a telescopic structure; 202. a connecting block; 203. shaping an arc plate; 204. a connecting rod; 205. a connection hole; 3. a limiting member; 301. moving the main shaft; 302. a sliding column; 303. a positioning rod; 304. a ring-shaped groove; 305. a disc baffle; 4. a glass shaping channel; 401. a straight pipe; 402. a circular groove; 403. rectangular grooves; 404. a connector; 5. an air guide device; 501. a blow pipe; 502. a metal needle; 503. a positioning block; 6. a braking device; 601. a hydraulic rod; 602. a rotating electric machine; 603. a transfer structure; 604. an annular box; 7. a melt-producing device; 701. a melting box; 702. a door; 703. moving the baffle; 704. a lifting rod; 705. ear handles; 706. and a transfer channel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1, 3 and 4, the apparatus for manufacturing glass products includes a manufacturing table 1 and a melting manufacturing apparatus 7, the manufacturing table 1 includes a supporting frame 101 and two connecting plates 102, the connecting plates 102 are composed of horizontal plates and open-pore vertical plates, a mold shaping apparatus 2 is disposed between the open-pore vertical plates of the two connecting plates 102, the mold shaping apparatus 2 includes left and right shaping arc plates 203, the lower end of the shaping arc plates 203 is provided with a telescopic structure 201, the bottom surface of the telescopic structure 201 is fixedly connected with the supporting frame 101, the melting manufacturing apparatus 7 is mounted on the horizontal plates of the connecting plates 102, the open-pore vertical plates located at the front side of the whole apparatus are fixedly connected with glass manufacturing channels 103, the open-pore vertical plates located at the rear side of the whole apparatus are fixedly connected with movable connecting pipes 104, the glass manufacturing channels 103 are movably connected with limiting members 3, the movable connecting pipes 104 are connected with glass shaping channels 4, the limiting members 3 and the glass shaping channels 4 are respectively connected with air guide devices 5, and the air guide devices 5 are fixedly connected with brake devices 6.

In this embodiment, as shown in fig. 2, the melt manufacturing device 7 includes a melting box 701 and a transfer channel 706, a box door 702 is disposed at the top of the melting box 701, the bottom end of the melting box 701 is connected with the transfer channel 706, the melting box 701 and the transfer channel 706 are both provided with an inner cavity channel, a moving baffle 703 is disposed at the upper end of the transfer channel 706, lifting rods 704 are fixedly connected to the front and rear sides of the melting box 701, lugs 705 are disposed at the front and rear sides of the transfer channel 706, and the lifting rods 704 penetrate through the lugs 705, wherein the bottom of the lifting rods 704 is fixedly connected to the upper surface of a water plate in the connecting plate 102, the bottom of the transfer channel 706 is movably connected to the top of the mold shaping device 2, and the moving baffle 703 is used for carrying glass raw materials, so that the glass raw materials are melted in the melting box 701, and after the melting is finished, the melted materials smoothly enter the mold shaping device 2 through drawing the moving baffle 703, and the glass raw materials are quickly transferred to the mold shaping device 2 after the melting through the transfer channel 706, so that the efficiency of glass manufacturing is effectively improved.

As shown in fig. 3, in this embodiment, the mold shaping device 2 includes a shaping arc plate 203, a telescopic structure 201 is disposed at the lower end of the shaping arc plate 203, a connecting block 202 is fixedly connected to the lower end of the shaping arc plate 203, telescopic rods are disposed at the left and right sides of the telescopic structure 201, the telescopic structure 201 is connected to the connecting block 202 through the telescopic rods, a connecting hole 205 is formed in the bottom of the shaping arc plate 203 at the right end, a connecting rod 204 is disposed at the bottom of the shaping arc plate 203 at the left end, separation and closing of two shaping arc plates 203 can be realized through the telescopic structure 201, the radius of the shaping arc plate 203 is the same as that of a vertical hole formed in the connecting plate 102, and in addition, in a closed state, the connecting rod 204 is connected with the connecting hole 205, in addition, the lowest end of the two shaping arc plates 203 is just tightly attached to the telescopic structure 201, and the front and rear sides of the two shaping arc plates 203 are tightly attached to the vertical hole plates of the connecting plate 102.

Specifically, the box door 702 is opened to pour glass raw materials into the melting box 701, glass is melted at a high temperature, the movable baffle 703 is opened after the melting is finished, a glass melting product enters the opened mold shaping device 2, the melting box 701 is lifted by the lifting rod 704, the telescopic structure 201 is controlled to enable the shaping arc plate 203 to be closed, and rapid transfer after glass melting is completed.

As shown in fig. 4, fig. 5 and fig. 6, in this embodiment, the support frame 101 is fixedly connected with two connecting plates 102 at the front and rear sides, the glass manufacturing channel 103 is of a hollow design, the left and right sides of the outer surface of the glass manufacturing channel 103 are provided with moving grooves 108, the outer side surfaces of the connecting plates 102 perforated with vertical plates connected with the glass manufacturing channel 103 are provided with positioning triggers 107, the positioning triggers 107 are arranged at the left and right sides of the glass manufacturing channel 103, the movable connecting pipes 104 are circumferentially provided with cross connecting frames, the outer side surfaces of the connecting plates 102 perforated with vertical plates connected with the movable connecting pipes 104 are provided with flame guns 105, the flame guns 105 are arranged at the left and right sides of the movable connecting pipes 104, the bottom surfaces of the connecting plates 102 horizontal plates positioned at the rear ends of the whole device are provided with plastic blunt cutters 106, wherein when the limiting part 3 enters the glass manufacturing channel 103, the sliding columns 302 move along the moving grooves 108, the positioning triggers 107 are combined with positioning rods 303, when the glass shaping channel 4 is connected with the movable connecting pipes 104, the cross sliding grooves formed in the inner walls of the connecting heads 404 of the glass shaping channel 4 are just combined with the connecting frames circumferentially arranged at the left and right sides of the movable connecting pipes 104, the blunt cutters 106 are of the cross cutters, the blunt cutters 106 are of the design, the glass shaping channel 104, the glass shaping channel is used for forming a shape by using the shape of the glass forming device, and the glass forming device is more smooth after the glass forming process, and the glass forming device is provided with a smooth shape, and the glass forming device is provided with a glass ball, and the glass forming device is provided with a shape, and the glass forming base, and the glass forming device is provided with a shape, and has a shape and a plastic ball shape, and a glass forming device.

In this embodiment, as shown in fig. 7, the limiting component 3 includes a moving main shaft 301 and a disc baffle 305, one end of the moving main shaft 301 close to the mold shaping device 2 is fixedly connected with the disc baffle 305, one end of the moving main shaft 301 far away from the mold shaping device 2 is provided with a ring-shaped groove 304, the left side and the right side of the moving main shaft 301 are fixedly connected with sliding columns 302, the two sliding columns 302 are respectively connected with a positioning rod 303, wherein the moving main shaft 301 is of a hollow design, the radius of the disc baffle 305 is identical to the inner diameter of the glass making channel 103, and just has the same size as the opening of the vertical plate with the opening in the connecting plate 102, the positioning rod 303 and the positioning trigger 107 are on the same horizontal line, and when the two are contacted, the positioning trigger 107 sends a signal to a rotating motor 602 in the braking device 6, and the limiting component 3 is used for connecting the air guide device 5 and serving as a limiting carrier of the air guide device 5, ensuring that the air guide device 5 can rotate stably when contacting glass smelted products, ensuring the thickness of glass balls to be identical, and improving the quality of the glass balls generated subsequently.

In this embodiment, as shown in fig. 8, the air guiding device 5 includes a blow pipe 501, a positioning block 503 is fixedly connected to the blow pipe 501, the blow pipe 501 is hollow, a metal needle 502 is connected to the blow pipe 501, the blow pipe 501 is connected to a professional air guiding device during air guiding, the trouble of manual air blowing is replaced, one surface of the positioning block 503, which is close to the limiting component 3, is annular and is used for connecting with an annular groove 304, so that when the blow pipe 501 moves into the mold shaping device 2, a too deep damage device is inserted, and the metal needle 502 is lifted before air guiding to insert the blow pipe 501, thereby avoiding the blocking of the blow pipe 501.

As shown in fig. 9, in this embodiment, the braking device 6 includes a hydraulic rod 601 and a transmission structure 603, the front end of the hydraulic rod 601 is fixedly connected with an annular box 604, the transmission structure 603 is disposed in the annular box 604, the transmission structure 603 includes a ring gear and a spur gear, the spur gear of the transmission structure 603 is connected to the upper and lower ends of the ring gear, the spur gear located at the upper end of the transmission structure 603 is fixedly connected with a rotating motor 602, the rotating motor 602 is fixedly connected to the front end of the upper surface of the hydraulic rod 601, the spur gear located at the lower end of the transmission structure 603 is fixedly connected to the front end of the air guide 5, the air guide 5 is driven to rotate by the operation of the rotating motor 602, and the air guide 5 can be driven to move back and forth by the hydraulic rod 601, the maneuverability and accuracy of the air guide 5 are improved by using the braking device 6, and meanwhile, the manual labor time and effort are greatly saved.

Specifically, the hydraulic rod 601 is used to drive the air guide device 5 to move towards the mould shaping device 2, the air guide device 5 is inserted into the moving main shaft 301, after the positioning rod 303 contacts the positioning trigger 107, the positioning trigger 107 sends a signal to the rotating motor 602 in the braking device 6, then the rotating motor 602 is started, the rotating motor 602 drives the blowing pipe 501 to rotate, so that glass smelting products are wound on the blowing pipe 501, then the blowing pipe 501 is conducted by the metal needle 502, and air blowing is performed through the externally connected professional air guide device to form glass balls, then the glass balls rotate along the glass manufacturing channel 103, the size of the glass balls is controlled, the thickness of the glass balls is guaranteed to be the same, then the glass balls are sent into the melting box 701 again to be softened and cut, and the glass balls are flattened by using a wood plate.

In this embodiment, as shown in fig. 8, the glass shaping channel 4 includes a straight pipe 401 and a connector 404, the front end of the straight pipe 401 is fixedly connected with the connector 404, the inner wall of the connector 404 is provided with a cross chute, the upper end of the pipe body of the straight pipe 401 is provided with a rectangular groove 403, the left and right ends of the pipe body of the straight pipe 401 are provided with round grooves 402, wherein the connector 404 is used for connecting with a movable connecting pipe 104, the connector 404 and the straight pipe 401 are both hollow, when the glass shaping channel 4 is connected with the movable connecting pipe 104 through the connector 404, the rectangular groove 403 provided on the straight pipe 401 is located under a plastic blunt knife 106, and the round groove 402 provided on the straight pipe 401 is opposite to a flame gun 105, the connector 404 and the movable connecting pipe 104 are designed into a movable connection mode, so that the glass shaping channel 4 with different straight pipe radii can be conveniently replaced, but the size of the connector 404 is unchanged, the changed only radius of the pipe 401, the air guide device 5 is used for moving the air guide glass semi-finished product from the movable connecting pipe 104 to the straight pipe 401, the glass semi-finished product is rotated by a combining brake device 6 to form a glass ball, and then the glass ball is combined with the high flame gun 105 to make the glass ball soft, and the glass ball is softened by the glass ball surface of the glass ball, and the glass ball is softened by the glass ball surface of the glass soft surface part, and the glass ball is softened by the high flame part, and the glass ball surface is softened, and the glass ball surface is soft, and the glass surface is soft.

Specifically, the glass shaping channel 4 is connected with the movable connecting pipe 104 through the connector 404, then is connected with the air guide device 5, and the air guide device 5 is utilized to move the air guide semi-finished glass product from the movable connecting pipe 104 to the straight pipe 401, then the high-temperature flame is sprayed out by the flame gun 105 to soften the surface of the glass ball part according to the shape requirement, and the plastic blunt knife 106 is utilized to contact the softened glass ball part surface, so that the glass ball changes shape, and finally, the glass ball is cooled and formed.

The working principle of the invention is as follows: the box door 702 is opened to pour glass raw materials into the melting box 701, glass is melted at high temperature, the movable baffle 703 is opened after the melting is finished, a glass melting product enters the opened mould shaping device 2, then the melting box 701 is lifted by the lifting rod 704, the shaping arc plate 203 is closed by the telescopic structure 201, the rapid transfer after the glass melting is completed, when a glass sheet with simple manufacture is required, the air guide device 5 is driven to move towards the mould shaping device 2 by the hydraulic rod 601, the air guide device 5 is inserted into the movable main shaft 301, the positioning rod 303 contacts the positioning trigger 107, the positioning trigger 107 sends a signal to the rotating motor 602 in the braking device 6, the rotating motor 602 is started, the blowing pipe 501 is driven to rotate by the rotating motor 602, the glass melting product is wound on the blowing pipe 501, the blowing pipe 501 is conducted by the metal needle 502, and the glass ball is formed by blowing through an external professional air guide device, then the glass ball rotates along the glass manufacturing channel 103, the size of the glass ball is controlled, the thickness of the glass ball is ensured to be the same, then the glass ball is sent into the melting box 701 again for softening and cutting, the glass ball is paved by using a wood plate, when a glass product with a certain shape is required to be manufactured, the glass shaping channel 4 is connected with the movable connecting pipe 104 through the connector 404, then the air guide device 5 is connected, the air guide device 5 is utilized to move the air guide semi-finished glass product from the movable connecting pipe 104 into the straight pipe 401, then the high-temperature flame is sprayed out by the flame spraying gun 105 according to the shape requirement to soften the surface of the glass ball part, the plastic blunt knife 106 is used for contacting the softened surface of the glass ball part, so that the glass ball changes the shape, and finally the glass ball is cooled and then molded.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. Device for producing glass articles, comprising a production station (1) and a melt production device (7), characterized in that: the manufacturing table (1) comprises a supporting frame (101) and two connecting plates (102), each connecting plate (102) consists of a horizontal plate and a perforated vertical plate, a die shaping device (2) is arranged between the perforated vertical plates of each connecting plate (102), each die shaping device (2) comprises a left shaping arc plate and a right shaping arc plate (203), the lower ends of the shaping arc plates (203) are provided with telescopic structures (201), the bottom surfaces of the telescopic structures (201) are fixedly connected with the supporting frame (101), the perforated vertical plates of the connecting plates (102) are fixedly connected with glass manufacturing channels (103) which are positioned on the front side of the whole device, the perforated vertical plates of the connecting plates (102) are fixedly connected with movable connecting pipes (104) which are positioned on the rear side of the whole device, limiting parts (3) are movably connected with limiting parts (104), cross connecting frames are arranged on the periphery of the outer sides of the movable connecting pipes (104), the limiting parts (3) and the glass shaping channels (4) are respectively connected with air guide devices (5), and the air guide devices (6) are fixedly connected with the air guide devices (6);

the melting manufacturing device (7) comprises a melting box (701) and a transfer channel (706), wherein a box door (702) is arranged at the top of the melting box (701), the bottom end of the melting box (701) is connected with the transfer channel (706), an inner cavity channel is formed in both the melting box (701) and the transfer channel (706), a movable baffle (703) is arranged at the upper end of the transfer channel (706), lifting rods (704) are fixedly connected to the front side and the rear side of the melting box (701), lugs (705) are arranged on the front side and the rear side of the transfer channel (706), and the lifting rods (704) are connected with the lugs (705) in a penetrating mode;

the mold shaping device (2) comprises a shaping arc plate (203), wherein a telescopic structure (201) is arranged at the lower end of the shaping arc plate (203), a connecting block (202) is fixedly connected to the lower end of the shaping arc plate (203), telescopic rods are arranged on the left side and the right side of the telescopic structure (201), the telescopic structure (201) is connected with the connecting block (202) through the telescopic rods, a connecting hole (205) is formed in the bottom of the shaping arc plate (203) at the right end, and a connecting rod (204) is arranged at the bottom of the shaping arc plate (203) at the left end;

the utility model discloses a glass manufacturing device, including support frame (101), movable connecting pipe (104), glass manufacturing passageway (103), support frame (101) are in both sides fixed connection around two connecting plates (102), glass manufacturing passageway (103) are hollow design, removal groove (108) have been seted up to glass manufacturing passageway (103) left and right sides, connect connecting plate (102) trompil vertical board outside surface of glass manufacturing passageway (103) is provided with location trigger (107), just location trigger (107) set up glass manufacturing passageway (103) left and right sides, movable connecting pipe (104) circumference is provided with cross link, and connects connecting plate (102) trompil vertical board outside surface of movable connecting pipe (104) is provided with flame gun (105), flame gun (105) set up movable connecting pipe (104) left and right sides, and be located the whole device rear end connecting plate (102) horizontal plate bottom surface installs plastic blunt sword (106).

2. The apparatus for making glass articles according to claim 1, wherein: limiting component (3) are including setting up removal main shaft (301) and disc baffle (305) in glass preparation passageway (103), remove main shaft (301) and be close to mould setting device (2) one end fixed connection disc baffle (305), remove main shaft (301) and keep away from mould setting device (2) one end and seted up annular groove (304), just remove main shaft (301) left and right sides fixedly connected with slip post (302), two slip post (302) are connected with locating lever (303) respectively, just locating lever (303) contact location trigger (107).

3. The apparatus for making glass articles according to claim 1, wherein: the glass shaping channel (4) comprises a straight pipe (401) and a connector (404) which are connected to a movable connecting pipe (104), the front end of the straight pipe (401) is fixedly connected with the connector (404), a cross sliding groove is formed in the inner wall of the connector (404), a rectangular groove (403) is formed in the upper end of the pipe body of the straight pipe (401), circular grooves (402) are formed in the left end and the right end of the pipe body of the straight pipe (401), the circular grooves (402) are right opposite to the flame spraying gun (105), and the cross sliding groove formed in the inner wall of the connector (404) is combined with a cross connecting frame which is circumferentially arranged on the movable connecting pipe (104).

4. The apparatus for making glass articles according to claim 1, wherein: the air guide device (5) comprises a blowing pipe (501), wherein a positioning block (503) is fixedly connected to the blowing pipe (501), the blowing pipe (501) is of a hollow design, and a metal needle (502) is connected to the blowing pipe (501).

5. The apparatus for making glass articles according to claim 1, wherein: the braking device (6) comprises a hydraulic rod (601) and a conveying structure (603), wherein the front end of the hydraulic rod (601) is fixedly connected with an annular box (604), the conveying structure (603) is arranged in the annular box (604), the conveying structure (603) comprises a ring gear and a spur gear, the spur gear of the conveying structure (603) is connected to the upper end and the lower end of the ring gear, the spur gear of the conveying structure (603) is fixedly connected with a rotating motor (602), the rotating motor (602) is fixedly connected to the front end of the upper surface of the hydraulic rod (601), and the spur gear of the lower end of the conveying structure (603) is fixedly connected to the front end of the air guide device (5).