CN114605056A

CN114605056A - Blowing mould for producing glass thermos bottle

Info

Publication number: CN114605056A
Application number: CN202210404375.9A
Authority: CN
Inventors: 梅小勤; 刘德云; 陈用华; 苏卫东; 李新财
Original assignee: Chongqing Tianjia Commodity Industry Co ltd
Current assignee: Chongqing Tianjia Commodity Industry Co ltd
Priority date: 2022-04-18
Filing date: 2022-04-18
Publication date: 2022-06-10

Abstract

The invention provides a blowing mould for producing glass vacuum bottles, which relates to the technical field of glass product blowing moulds and comprises blowing mould bodies, wherein one side surface of each blowing mould body is fixedly provided with a reinforcing plate, the upper surfaces of the two blowing mould bodies are fixedly provided with a semicircular fixed seat through bolts, a transmission motor in a parallel opening and closing mechanism is started to be matched with a first spur gear to drive a first tooth to move, the first tooth is arranged on one side surface of a tooth movable block, the tooth movable block drives a rectangular movable platform to move, the rectangular movable platform drives an L-shaped connecting plate to expand outwards through being matched with two oval movable rods in the moving process, the L-shaped connecting plate drives half blowing mould bodies to open respectively, and then glass products to be processed are placed inside, the drive motor is then reversed, turned off and blowing is then carried out.

Description

Blowing mould for producing glass thermos bottle

Technical Field

The invention relates to the technical field of glass product blowing molds, in particular to a blowing mold for producing a glass vacuum flask.

Background

The glass bottle is a traditional packaging container in China, and has the characteristics of no toxicity, no odor, transparency, beauty, good barrier property, no air permeability, abundant and common raw materials, low price and repeated turnover use, so that the glass bottle is widely applied to daily life of people, for example, a blowing mold with the application number of CN202010582883.7 comprises a feed inlet, a buckle, a forming mold seat, a locking plate and an air outlet pipe, the buckle is fixedly arranged at the outer side of the feed inlet, a blown product is completed, at the moment, two template blocks are slightly separated, then a long connecting plate is moved by pressing a pressing block, an aluminum sheet on the left side of a moving ball is pushed out of the inside of a sealing mechanism, the aluminum sheet is abutted against the outer wall of a cavity bottle body, the cavity bottle body is slowly separated from the inner wall of the template blocks, the outer wall of the cavity bottle body is more uniformly stressed, the cavity bottle body is prevented from being pulled and deformed, and the magnetic blocks on the corrugated plates at the upper end and the lower end are used for opposite absorption, the side of fold board forms the horizontal plane, seals closed chamber, guarantees the smoothness of body outer wall, and the pole of squeezing simultaneously carries out the return for the expansion hose extends, takes out the atmospheric pressure of closed intracavity portion through inhaling pressure mouth, ensures that two fold boards tightly laminate and keep motionless, improves the leakproofness, prevents that molten plastic from taking place to leak.

However, in the technical scheme, in the process of blowing and forming the glass product, the glass product needs to be placed in a blowing mould for blowing and forming, and the blowing mould is formed by combining two symmetrical half moulds of a left mould and a right mould, so that in the process of blowing, one person needs to operate the glass product, and the other person needs to perform opening and closing operation of the blowing mould, so that the labor cost is increased, and the blowing mould for producing the glass vacuum flask is improved.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a blowing mold for producing a glass vacuum flask, which solves the problems that in the blowing molding process of glass products, the glass products need to be placed in the blowing mold for blowing molding, and because the blowing mold is formed by combining two symmetrical half molds, namely a left mold and a right mold, the blowing mold needs to be operated by one person, and the other person performs the opening and closing operation of the blowing mold, so that the labor cost is increased.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a blowing mould for producing glass vacuum bottles comprises a blowing mould body, wherein a reinforcing plate is fixedly arranged on one side surface of the blowing mould body, a semicircular fixed seat is fixedly arranged on the upper surfaces of the two blowing mould bodies through bolts, a semicircular limiting shell is fixedly arranged on the upper surfaces of the two semicircular fixed seats in a welding manner, a vent pipe is arranged inside one end, far away from the semicircular limiting shell, of each of the two blowing mould bodies, a ventilating and demoulding mechanism is arranged inside one end, near the blowing mould body, of each of the two vent pipes, the two blowing mould bodies are connected through a parallel opening and closing mechanism, a protective shell is fixedly arranged on the outer surface of the parallel opening and closing mechanism, the ventilating and demoulding mechanism comprises a circular fixed block, the circular fixed block is fixedly arranged inside one end, near the blowing mould body, of each vent pipe, the parallel opening and closing mechanism comprises an oval limiting block, and the oval limiting block is fixedly installed inside the protective shell through a support.

Preferably, a hexagonal sliding groove is formed in the surface of one side of the circular fixing block, a plurality of second limiting columns are arranged on the circumference of the hexagonal sliding groove, each second limiting column is arranged on the inner portion of the hexagonal sliding groove, one blocking block is fixedly arranged at one end of each second limiting column, and each first limiting column is fixedly arranged on one side, far away from the second limiting column, of each blocking block.

Preferably, each first limiting column is movably mounted in an oval chute at one end far away from the blocking block, the oval chute is arranged in the movable disc, and the movable disc and the center of the circular fixing block are provided with a through groove.

Preferably, the outer surface of the movable disc is provided with a plurality of second teeth, the second teeth are engaged with a second spur gear, the second spur gear is fixedly mounted on an output shaft of a micro-motor, and the micro-motor is fixedly mounted on the lower surface of the blowing mold body.

As preferred, oval stopper one side both ends have all seted up a first I-shaped spout, every the equal movable mounting in inside of first I-shaped spout has a first I-shaped slider, two a side fixed surface of first I-shaped slider installs rectangle movable platform, rectangle movable platform is close to one side center fixed mounting of first I-shaped slider has tooth movable block, oval spout is passed in one side activity of tooth movable block, oval spout is seted up at the center of oval stopper.

Preferably, a plurality of first teeth are formed in one side surface, penetrating through the oval sliding groove, of the tooth movable block, the first teeth are meshed with the first spur gear, one side of the first spur gear is fixedly installed on an output shaft of the transmission motor, the transmission motor is fixedly installed between the two rectangular fixing plates, and the rectangular fixing plates are fixedly installed on one side surface of the oval limiting block.

Preferably, the rectangle movable platform is kept away from one side both ends of tooth movable block and all has an oval movable rod, every through rotation axis movable mounting oval movable rod keeps away from one end of rectangle movable platform and all has an L type connecting plate through rotation axis movable mounting, L type connecting plate and one side fixed connection of blowing mould body.

Preferably, one end, far away from the oval movable rod, of each L-shaped connecting plate is fixedly provided with an L-shaped connecting rod through a bolt, and one end, far away from the L-shaped connecting plate, of each L-shaped connecting rod is fixedly arranged on one side surface of one C-shaped sliding block through a bolt.

Preferably, each C-shaped sliding block is movably arranged in a C-shaped sliding groove, two ends of each C-shaped sliding groove are fixedly provided with a limiting baffle, and each C-shaped sliding groove is arranged on one side of a second I-shaped sliding block.

Preferably, each second I-shaped sliding block is movably mounted inside one second I-shaped sliding groove, and the second I-shaped sliding groove is formed in one end, far away from the rectangular fixing plate, of the oval limiting block.

(III) advantageous effects

The invention provides a blowing mould for producing a glass vacuum flask. The method has the following beneficial effects:

firstly, a transmission motor in a parallel opening and closing mechanism is started to be matched with a first spur gear to drive a first tooth to move, the first tooth is arranged on one side surface of a tooth movable block, the tooth movable block drives a rectangular movable platform to move, the rectangular movable platform is matched with two oval movable rods to drive an L-shaped connecting plate to expand outwards in the moving process, the L-shaped connecting plate drives half of a blowing mold body to open the blowing mold body respectively, then a glass product to be processed is placed into the blowing mold, the transmission motor rotates reversely to close the blowing mold, and then blowing is carried out without a plurality of workers to make equipment;

the L-shaped connecting rods can be respectively driven to move when the oval movable rods drive the L-shaped connecting plates to move, the L-shaped connecting rods can be limited in the moving process due to the fact that the L-shaped connecting rods are fixedly arranged on one sides of the C-shaped sliding blocks, swinging is prevented, and the second I-shaped sliding grooves are matched with the second I-shaped sliding blocks to provide maximum displacement when the C-shaped sliding blocks move;

when the blowing mold is opened, the vent pipe is matched with an air pump to input air into the blowing mold body to be demolded, and glass products are prevented from being adhered to the inside of the blowing mold body, so that defective products are prevented from being increased;

therefore, a plurality of persons are not required to make one device at the same time in the glass product blow molding process, the increase of defective products is reduced, and the labor cost is reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of the front face of the present invention;

FIG. 2 is a schematic view of the back side of the present invention;

FIG. 3 is a schematic bottom view of the present invention;

FIG. 4 is a front view of the parallel opening/closing mechanism of the present invention;

FIG. 5 is a schematic bottom view of the parallel opening and closing mechanism of the present invention;

fig. 6 is a front view of the air-vent demolding mechanism in the present invention;

fig. 7 is a schematic side view of the vented demolding mechanism according to the present invention;

FIG. 8 is a schematic structural view of the cross-section A-A of FIG. 7 according to the present invention;

FIG. 9 is a schematic structural view of the cross-section B-B of FIG. 7 according to the present invention.

In the figure, 1, a semicircular limiting shell; 2. a semicircular fixed seat; 3. a reinforcing plate; 4. blowing the die body; 5. a parallel opening and closing mechanism; 501. a rectangular movable platform; 502. an elliptical movable bar; 503. an L-shaped connecting plate; 504. an elliptical chute; 505. a tooth moving block; 506. a first I-shaped chute; 507. a first I-shaped slider; 508. a C-shaped sliding block; 509. a C-shaped chute; 510. a second I-shaped chute; 511. a second I-shaped slider; 512. a first spur gear; 513. a first tooth; 514. an L-shaped connecting rod; 515. a rectangular fixing plate; 516. a drive motor; 517. an oval-shaped limiting block; 6. a ventilating and demolding mechanism; 601. a movable disc; 602. a second tooth; 603. a second spur gear; 604. a micro motor; 605. an elliptical chute; 606. a first limit post; 607. a blocking block; 608. a round fixed block; 609. a second limit post; 610. a hexagonal chute; 7. a breather pipe; 8. a protective housing.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b):

as shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, and 9, an embodiment of the present invention provides a blowing mold for producing a glass vacuum flask, which includes a blowing mold body 4, a reinforcing plate 3 is fixedly mounted on a side surface of the blowing mold body 4, a semicircular fixing seat 2 is fixedly mounted on an upper surface of each of the two blowing mold bodies 4 through a bolt, a semicircular limiting housing 1 is fixedly mounted on an upper surface of each of the two semicircular fixing seats 2 by welding, a vent pipe 7 is mounted inside one end of each of the two blowing mold bodies 4 away from the semicircular limiting housing 1, a vent demolding mechanism 6 is mounted inside one end of each of the two vent pipes 7 close to the blowing mold body 4, the two blowing mold bodies 4 are connected through a parallel opening and closing mechanism 5, and a protective housing 8 is fixedly mounted on an outer surface of the parallel opening and closing mechanism 5, the ventilation and demolding mechanism 6 comprises a circular fixing block 608, the circular fixing block 608 is fixedly installed inside one end, close to the blowing mold body 4, of the vent pipe 7, the parallel opening and closing mechanism 5 comprises an oval limiting block 517, and the oval limiting block 517 is fixedly installed inside the protective shell 8 through a support.

It can be understood, in this application, hexagon spout 610 has been seted up to a side surface of circular fixed block 608, the inside movable mounting of hexagon spout 610 has the spacing post 609 of second that a plurality of is the circumference installation, every the equal fixed mounting of one end of the spacing post 609 of second has one to block piece 607, every block the equal fixed mounting in one side that the spacing post 609 of second was kept away from to piece 607 and have a first spacing post 606, can cooperate through blocking piece 607, the spacing post 609 of second removes along hexagon spout 610 to open, make breather pipe 7 cooperate the air pump with gas input into blow mould body 4 and make it carry out the drawing of patterns, prevent that glassware from gluing in the inside of blow mould body 4, lead to the wastrel increase.

It can be understood that, in this application, every the one end that blocks piece 607 is kept away from to first spacing post 606 is all movable mounting in the inside of an oval chute 605, oval chute 605 is seted up in the inside of activity disc 601, logical groove has all been seted up with the center of circular fixed block 608 to activity disc 601, and oval chute 605 through can cooperating inside the seting up when activity disc 601 rotates drives first spacing post 606 and removes, and first spacing post 606 is because fixed mounting is in a side surface of blocking piece 607.

It can be understood that, in this application, a plurality of second teeth 602 have been seted up to the surface of activity disc 601, second tooth 602 meshes second spur gear 603, second spur gear 603 fixed mounting is on the output shaft of micro motor 604, micro motor 604 fixed mounting is at the lower surface of blowing mould body 4, starts through micro motor 604 in the ventilation demoulding mechanism 6 of breather pipe 7 one end installation after the blowing completion, and micro motor 604 can cooperate second spur gear 603 and second tooth 602 to drive activity disc 601 and rotate.

It can be understood, in this application, a first I-shaped spout 506, every have all been seted up at oval stopper 517 one side both ends the equal movable mounting in inside of first I-shaped spout 506 has a first I-shaped slider 507, two a side fixed surface of first I-shaped slider 507 installs rectangle movable platform 501, rectangle movable platform 501 is close to one side center fixed mounting of first I-shaped slider 507 has tooth movable block 505, oval spout 504 is passed in one side activity of tooth movable block 505, oval spout 504 is seted up at oval stopper 517's center, can drive rectangle movable platform 501 through tooth movable block 505 and remove, and rectangle movable platform 501 can cooperate two oval movable rods 502 to drive an L type connecting plate 503 respectively and outwards expand at the in-process that removes.

It can be understood that, in this application, a side surface that oval spout 504 was passed in tooth activity piece 505 activity has seted up a plurality of first tooth 513, first tooth 513 meshes first spur gear 512, one side fixed mounting of first spur gear 512 is on the output shaft of drive motor 516, drive motor 516 fixed mounting is between two rectangle fixed plates 515, rectangle fixed plate 515 fixed mounting is on a side surface of oval stopper 517, can cooperate first spur gear 512 to drive first tooth 513 through drive motor 516 and move, and first tooth 513 is owing to set up a side surface at tooth activity piece 505.

It can be understood, in this application, one side both ends that tooth movable block 505 was kept away from to rectangle movable platform 501 all have an oval movable rod 502, every through rotation axis movable mounting at one side both ends that rectangle movable platform 501 was kept away from to oval movable rod 502 all have an L type connecting plate 503 through rotation axis movable mounting, L type connecting plate 503 and one side fixed connection of blowing mould body 4 can drive half blowing mould body 4 respectively through L type connecting plate 503 and make it open, then the glassware that will process will need to be put into inside, then transmission motor 516 reverses, closes it, then blows, does not need a plurality of workers just to do an equipment.

It can be understood that, in this application, each the one end that oval movable rod 502 was kept away from to L type connecting plate 503 all has an L type connecting rod 514 through bolt fixed mounting, every the one end that L type connecting rod 514 was kept away from to L type connecting plate 503 all passes through bolt fixed mounting at a side surface of a C word slider 508, can drive L type connecting rod 514 respectively and remove when driving L type connecting plate 503 to remove through oval movable rod 502.

It can be understood that, in this application, each C word slider 508 is all movable mounting in the inside of a C word spout 509, every the both ends of C word spout 509 all fixed mounting have a limit baffle, every C word spout 509 all sets up in one side of a second i slider 511, through at L type connecting rod 514 because fixed mounting is in one side of C word slider 508, can provide spacing for it at the in-process that removes, prevents that swing.

It can be understood that, in the present application, each second i-shaped sliding block 511 is movably mounted inside one second i-shaped sliding slot 510, the second i-shaped sliding slot 510 is disposed at one end of the oval limiting block 517, which is far away from the rectangular fixing plate 515, and the second i-shaped sliding slot 510 and the second i-shaped sliding block 511 provide maximum displacement when the C-shaped sliding block 508 moves.

The working principle is as follows:

firstly, a transmission motor 516 in the parallel opening and closing mechanism 5 is started to be matched with a first straight gear 512 to drive a first tooth 513 to move, the first tooth 513 is arranged on one side surface of a tooth movable block 505, the tooth movable block 505 drives a rectangular movable platform 501 to move, the rectangular movable platform 501 drives an L-shaped connecting plate 503 to expand outwards in the moving process by being matched with two oval movable rods 502, the L-shaped connecting plate 503 drives half of a blowing mold body 4 to open the blowing mold body, then a glass product to be processed is placed inside the blowing mold, the transmission motor 516 rotates reversely to close the blowing mold, and then blowing is carried out without a plurality of workers to make equipment;

when the elliptical movable rod 502 drives the L-shaped connecting plate 503 to move, the L-shaped connecting rod 514 is driven to move, the L-shaped connecting rod 514 is fixedly mounted on one side of the C-shaped sliding block 508, so that a limit is provided for the L-shaped connecting rod 514 in the moving process, and the L-shaped sliding groove 510 and the second i-shaped sliding block 511 are matched to provide maximum displacement when the C-shaped sliding block 508 moves;

when the micro motor 604 in the ventilation and demolding mechanism 6 installed at one end of the vent pipe 7 is started after blowing is completed, the micro motor 604 can be matched with the second spur gear 603 and the second tooth 602 to drive the movable disc 601 to rotate, when the movable disc 601 rotates, the movable disc 601 can be matched with the oval chute 605 formed in the movable disc to drive the first limiting column 606 to move, the first limiting column 606 is fixedly installed on one side surface of the blocking block 607, at the moment, the blocking block 607 can be matched with the second limiting column 609 to move along the hexagonal chute 610, so that the movable disc is opened, the vent pipe 7 is matched with the air pump to input air into the blowing mold body 4 to perform demolding, and glass products are prevented from being stuck inside the blowing mold body 4 to increase defective products;

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and it will be obvious to those skilled in the art that other variations and modifications can be made on the basis of the above description, and all embodiments cannot be exhaustive, and obvious variations and modifications may be made within the scope of the present invention.

Claims

1. The utility model provides a glass thermos production is with blowing mould, includes blowing mould body (4), its characterized in that: the blow-moulding mould is characterized in that a reinforcing plate (3) is fixedly mounted on the surface of one side of each blow-moulding mould body (4), a semicircular fixed seat (2) is fixedly mounted on the upper surface of each blow-moulding mould body (4) through a bolt, a semicircular limiting shell (1) is fixedly mounted on the upper surface of each semicircular fixed seat (2), a vent pipe (7) is mounted inside one end, away from the semicircular limiting shell (1), of each blow-moulding mould body (4), a ventilation demoulding mechanism (6) is mounted inside one end, close to each blow-moulding mould body (4), of each vent pipe (7), the two blow-moulding mould bodies (4) are connected through a parallel opening and closing mechanism (5), a protective shell (8) is fixedly mounted on the outer surface of the parallel opening and closing mechanism (5), and the ventilation demoulding mechanism (6) comprises a circular fixed block (608), circular fixed block (608) fixed mounting is inside breather pipe (7) is close to the one end of blowing mould body (4), parallel mechanism (5) that opens and shuts includes oval stopper (517), oval stopper (517) are through the inside of pillar fixed mounting at protecting sheathing (8).

2. The blowing mold for producing a glass vacuum flask according to claim 1, characterized in that: hexagonal spout (610) have been seted up to a side surface of circular fixed block (608), the inside movable mounting of hexagonal spout (610) has second spacing post (609) that a plurality of is the circumference installation, every the equal fixed mounting in one end of the spacing post (609) of second has one to block piece (607), every block that one side that spacing post (609) of second was kept away from in piece (607) equal fixed mounting has one first spacing post (606).

3. The blowing mold for producing a glass vacuum flask according to claim 2, characterized in that: one end, far away from the blocking block (607), of each first limiting column (606) is movably mounted inside one oval chute (605), the oval chute (605) is arranged inside the movable disc (601), and through grooves are formed in the centers of the movable disc (601) and the circular fixing block (608).

4. The blowing mold for producing a glass vacuum flask according to claim 3, characterized in that: the outer surface of the movable disc (601) is provided with a plurality of second teeth (602), the second teeth (602) are meshed with a second spur gear (603), the second spur gear (603) is fixedly installed on an output shaft of a micro motor (604), and the micro motor (604) is fixedly installed on the lower surface of the blowing mold body (4).

5. The blowing mold for producing a glass vacuum flask according to claim 1, characterized in that: oval stopper (517) one side both ends have all seted up a first I-shaped spout (506), every the equal movable mounting in inside of first I-shaped spout (506) has a first I-shaped slider (507), two one side fixed surface of first I-shaped slider (507) installs rectangle movable platform (501), one side center fixed mounting that rectangle movable platform (501) are close to first I-shaped slider (507) has tooth movable block (505), oval spout (504) are passed in one side activity of tooth movable block (505), the center at oval stopper (517) is seted up in oval spout (504).

6. The blowing mold for producing a glass vacuum flask according to claim 5, characterized in that: a plurality of first teeth (513) are arranged on one side surface of the tooth moving block (505) which penetrates through the oval sliding groove (504), the first teeth (513) are meshed with the first spur gear (512), one side of the first spur gear (512) is fixedly installed on an output shaft of a transmission motor (516), the transmission motor (516) is fixedly installed between two rectangular fixing plates (515), and the rectangular fixing plates (515) are fixedly installed on one side surface of the oval limiting block (517).

7. The blowing mold for producing a glass vacuum flask according to claim 5, characterized in that: rectangle movable platform (501) keep away from one side both ends of tooth movable block (505) and all have an oval movable rod (502), every through rotation axis movable mounting oval movable rod (502) the one end that rectangle movable platform (501) were kept away from in oval movable rod (502) all has an L type connecting plate (503) through rotation axis movable mounting, one side fixed connection of L type connecting plate (503) and blowing mould body (4).

8. The blowing mold for producing a glass vacuum flask according to claim 7, characterized in that: each L-shaped connecting plate (503) is far away from one end of the oval movable rod (502) and is fixedly provided with an L-shaped connecting rod (514) through a bolt, and each L-shaped connecting rod (514) is far away from one end of the L-shaped connecting plate (503) and is fixedly arranged on one side surface of a C-shaped sliding block (508) through a bolt.

9. The blowing mold for producing a glass vacuum flask according to claim 8, characterized in that: each C word slider (508) all movable mounting is in the inside of a C word spout (509), every the both ends of C word spout (509) all fixed mounting have a limit baffle, every C word spout (509) all set up the one side at a second I slider (511).

10. The blowing mold for producing a glass vacuum flask according to claim 9, characterized in that: each second I-shaped sliding block (511) is movably mounted inside one second I-shaped sliding groove (510), and the second I-shaped sliding grooves (510) are formed in one end, far away from the rectangular fixing plate (515), of the oval limiting block (517).