CN110776245A - Small-mouth bottle pressure-blowing mould of line machine - Google Patents

Abstract

The invention relates to the field of glass molds and discloses a narrow-mouth bottle pressure-blowing mold of a line and row machine, which comprises a rudiment mechanism and a forming mechanism, wherein the rudiment mechanism comprises a choke plug, a blank mold, a mouth mold assembly and a punching assembly from bottom to bottom in sequence, the punching assembly comprises a guide sleeve, a punch which can move along the guide sleeve is arranged in the guide sleeve, the punch can penetrate through the mouth mold assembly under the driving of a punching driving mechanism and extend into a forming cavity of the blank mold, and a cooler is further arranged in the inner cavity of the punch. The invention solves the problem that the existing line machine cannot produce the narrow-mouth glass bottles by using a pressure-blowing method due to lack of corresponding dies, so that the existing line machine can form the narrow-mouth bottles by using the pressure-blowing method, and the forming quality of the narrow-mouth bottles is improved.

Description

Small-mouth bottle pressure-blowing mould of line machine

Technical Field

The invention relates to the field of glass molds, in particular to a narrow-mouth bottle pressure blowing mold of a line and row machine.

Background

The glass bottle is generally formed by 2 methods according to the caliber size: blow-blow and pressure-blow processes. The blowing-blowing process includes blowing the glass paste blank in a primary mold to form the mouth and blowing to form the parison, and blowing the bottle body in a forming mold. The whole process of the blowing-blowing method is divided into two steps, the phenomenon of uneven thickness is easily caused when the bottle body is formed due to the fact that the temperature of material liquid is reduced in the processing process, the strength of the whole bottle depends on the weakest part, and the strength of the whole bottle is influenced. To achieve the design strength of the bottle, this is often accomplished by increasing the material thickness, resulting in a heavier bottle. The blow-blow method is suitable for manufacturing glass bottles with the caliber of less than 28 mm.

The other method is to manufacture the bottle by a pressing-blowing method, wherein the pressing-blowing method is to synchronously form the bottle body and the bottle mouth by pressing after the glass blank falls into a mold. The bottle body is relatively uniform, the phenomena of wrinkles and the like are not easy to appear, and the blown bottle has light weight which is 20 to 50 percent lighter than that of a bottle manufactured by a blowing-blowing method with the same strength. The common pressure-blowing method can not manufacture products with the bottle mouth less than 28 mm.

Because the existing line and column machine equipment such as four sets of line and column machines, six sets of line and column machines, eight sets of line and column machines, 8S \9S glass bottle forming machines and the like is not designed with the function of small-mouth pressure blowing when the machine is designed, the small-mouth pressure blowing in China is only used on part of double-drip machines and imported line and column machines at present, the domestic bottle making machines mostly adopt a blowing-blowing method to produce small-mouth bottles, and the quality of the small-mouth bottles is lower than that of the glass bottles formed by the pressure-blowing method.

Disclosure of Invention

Based on the technical problems, the invention provides a narrow-mouth bottle pressure-blowing mold of a line and row machine, which solves the problem that a small-mouth glass bottle cannot be produced by using a pressure-blowing method due to the lack of corresponding molds of the conventional line and row machine, so that the conventional line and row machine can form the narrow-mouth bottle by using the pressure-blowing method, and the forming quality of the narrow-mouth bottle is improved.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

the utility model provides a ranks machine osculum bottle pressure blow mould, includes rudiment mechanism and forming mechanism, rudiment mechanism from down to down be vexed head, parison mold, bush subassembly and punching press subassembly in proper order, and the punching press subassembly is including installing the guide sleeve in the frame, installs the drift that can follow the guide sleeve activity in the guide sleeve, and the drift can pass a mould subassembly and stretch into parison mold shaping intracavity under punching press actuating mechanism drives, and the drift inner chamber still is equipped with the cooler.

In the invention, in the process of forming the small-mouth bottle, the glass blank is firstly placed into a forming cavity of a blank die, a choke plug is sealed, a punch is driven by a stamping driving mechanism to penetrate through a mouth die and extend into the forming cavity of the blank die, and the glass blank can be pressed into a bottle mouth and a blank bottle blank by the punch. Then the parison is overturned and placed into a forming mechanism for blow forming, and the forming production of the narrow-mouth bottle is completed.

As a preferred mode, the cooler comprises a cooling pipe arranged in the inner cavity of the punch head, cooling gas is introduced into the cooling pipe, a plurality of exhaust holes are formed in the shell of the cooling pipe, and the outer wall of the cooling pipe and the inner wall of the punch head are arranged at intervals to leave a cooling gas flow passage.

As a preferable mode, the punch is connected with a punch joint through a clamping ring, and the punch joint is connected with a piston rod of the punching driving mechanism to drive the punch to move; the punch head joint is in butt joint communication with the cooling pipe through threads, and is provided with a channel communicated with the cooling gas flow channel for discharging cooling gas.

In a preferred embodiment, the die assembly comprises a die and a die sleeve disposed inside the die, and the upper portion of the die is connected to the blank mold.

As a preferable mode, the forming mechanism comprises a bottom die and a forming die, and an opening on the forming die can be butted with a blowing head to blow and form a parison bottle blank in a forming cavity of the forming die.

In a preferred embodiment, the punch has a tapered long shaft shape.

In a preferred embodiment, the press driving mechanism is an air cylinder.

Compared with the prior art, the invention has the beneficial effects that:

(1) the invention uses the small-mouth bottle pressure-blowing mould to make the line machine capable of adopting the pressure-blowing method to form the small-mouth bottle by modifying the prior common line machine, thereby replacing the prior blowing-blowing method to form the small-mouth bottle. The bottle of the narrow-mouth bottle produced by the pressing-blowing method has lighter weight, more uniform body, difficult occurrence of wrinkles and other phenomena, and improves the quality of the narrow-mouth bottle.

(2) According to the invention, the cooler is arranged in the punch, so that the adhesion between glass and the punch is increased along with the increase of the surface temperature of the punch, and the demoulding is difficult. And a cooler is additionally arranged in the punch head to cool the punch head, so that the surface temperature of the punch head is reduced, and the punch head can be smoothly separated from the small-mouth bottle blank after being pressed.

(3) According to the invention, the neck ring mold sleeve is arranged in the neck ring mold, so that the problems of flash, burr and the like generated after the neck ring mold sleeve is pressed and formed can be effectively prevented, and the forming quality of the neck ring bottle is improved.

Drawings

Fig. 1 is a schematic structural view of the material receiving state of the invention.

FIG. 2 is a schematic view of the stamping state structure of the present invention.

Fig. 3 is a schematic diagram of the structure of the flip state of the present invention.

FIG. 4 is a schematic structural view of the present invention in a molding state.

FIG. 5 is a drawing of the punch, cooling tube and punch adaptor assembly.

FIG. 6 is a schematic view of the die assembly configuration.

The device comprises a glass material blank 1, a choke plug 2, a blank die 3, a die assembly 4, a die 401, a die sleeve 402, a guide sleeve 5, a snap ring 6, a punch head joint 7, a punching driving mechanism 8, a cooling pipe 9, a punch head 10, a blow head 11, a forming die 12, a bottom die 13, an exhaust hole 14 and a passage 15.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be described clearly and completely with reference to the drawings of the embodiments of the present disclosure. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without any inventive step, are within the scope of protection of the disclosure.

Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of "first," "second," and similar terms in this disclosure is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Example 1:

referring to fig. 1-6, a ranks machine small-mouth bottle pressure blow mould, including rudiment mechanism and forming mechanism, rudiment mechanism is vexed head 2, parison mold 3, bush subassembly 4 and punching press subassembly from bottom to bottom in proper order, and the punching press subassembly is including installing guide sleeve 5 in the frame, installs the drift 10 that can follow guide sleeve 5 activity in guide sleeve 5, and drift 10 can pass bush subassembly 4 under the drive of punching press actuating mechanism 8 and stretch into parison mold 3 shaping intracavity, and drift 10 inner chamber still is equipped with the cooler.

In this embodiment, in the process of forming the narrow-mouth bottle, the glass blank 1 is first placed into the forming cavity of the blank mold 3, the bulkhead 2 is sealed, the punch 10 is driven by the punching driving mechanism 8 to penetrate through the opening mold 401 and extend into the forming cavity of the blank mold 3, and the punch 10 can press the glass blank 1 into the bottle mouth and the blank bottle blank. Then the parison is overturned and placed into a forming mechanism for blow forming, and the forming production of the narrow-mouth bottle is completed. By modifying the existing ordinary line machine, the line machine can adopt a pressure-blowing method to mold the narrow-mouth bottles by using the narrow-mouth bottle pressure-blowing mold, thereby replacing the existing blow-blowing method to mold the narrow-mouth bottles. The bottle of the narrow-mouth bottle produced by the pressing-blowing method has lighter weight, more uniform body, difficult occurrence of wrinkles and other phenomena, and improves the quality of the narrow-mouth bottle.

The guide sleeve 5 can limit the punch 10, so that the punching perpendicularity of the punch 10 is corrected, and the punch 10 can move vertically. And the three dies of the punch 10, the mouth die assembly 4 and the blank die 3 are accurately centered to ensure that the ideal blank bottle blank is obtained by fast punching.

Furthermore, the pressing time of the preform should be as short as possible, meaning that the contact time of the punch 10 with the glass preform 1 is as short as possible. For this reason, the moving speed of the punch 10 in the punching path from the receiving position to the pressing position must be accelerated, and the punching movement is required to be smooth and free from jumping; in addition to rapid, smooth punching, the time that the punch 10 stays in the pressing position is also as short as possible, rapidly returning to the reversed position. Therefore, the surface glass of the parison blank can not be cooled excessively, the average temperature is still high, the glass blank 1 has enough reheating capacity, the surface temperature can rise quickly, the parison blank which is turned over and conveyed to the forming mechanism can extend uniformly to touch the bottom die 13, and the finished product of the small-mouth bottle is uniform.

Example 2:

referring to fig. 1-6, a ranks machine small-mouth bottle pressure blow mould, including rudiment mechanism and forming mechanism, rudiment mechanism is vexed head 2, parison mold 3, bush subassembly 4 and punching press subassembly from bottom to bottom in proper order, and the punching press subassembly is including installing guide sleeve 5 in the frame, installs the drift 10 that can follow guide sleeve 5 activity in guide sleeve 5, and drift 10 can pass bush subassembly 4 under the drive of punching press actuating mechanism 8 and stretch into parison mold 3 shaping intracavity, and drift 10 inner chamber still is equipped with the cooler.

Furthermore, the cooler comprises a cooling pipe 9 arranged in the inner cavity of the punch 10, cooling gas is introduced into the cooling pipe 9, a plurality of exhaust holes 14 are formed in the shell of the cooling pipe 9, and the outer wall of the cooling pipe 9 and the inner wall of the punch 10 are arranged at intervals to leave a cooling gas flow passage.

After the cooling gas is introduced into the cooling pipe 9, the cooling gas is discharged from the vent hole 14 on the cooling pipe 9 into a cooling gas flow passage between the outer wall of the cooling pipe 9 and the inner wall of the punch 10, so that the heat of the punch 10 is taken away and discharged by the cooling gas. And the pressure, flow rate and duration of the gas supply to the cooler can be adjusted to control the temperature of the ram 10.

Furthermore, the punch 10 is connected with a punch joint 7 through a clamping ring 6, and the punch joint 7 is connected with a piston rod of a punching driving mechanism 8 so as to drive the punch 10 to move; the punch adaptor 7 is in threaded butt communication with the cooling tube 9, the punch adaptor 7 being provided with a passage 15 in communication with the cooling gas flow passage for discharging the cooling gas.

The punch joint 7 is used for connecting the punch 10 with the punching driving mechanism 8, the mechanism is simple, the connection is convenient, and the punch 10 can be conveniently dismounted and maintained. Meanwhile, a channel 15 is arranged on the punch joint 7 and used for discharging cooling gas so as to ensure the normal operation of the cooling pipe 9.

Further, the die assembly 4 is composed of a die 401 and a die sleeve 402 provided inside the die 401, and the upper portion of the die 401 is connected to the blank mold 3.

When the pressing and primary forming are carried out, the punching component can press the neck ring mold sleeve 402, so that the neck ring mold sleeve 402 is positioned without play, the two semicircular neck ring molds 401 are tightly closed under the clamping of the neck ring clamp arms, when the punch 10 penetrates through the centers of the neck ring mold 401 and the neck ring mold sleeve 402 to punch the glass blank 1, the problems of flash, burr and the like after the neck ring is formed are avoided, and the forming quality of the small-mouth bottle is improved.

Further, the forming mechanism comprises a bottom die 13 and a forming die 12, and an opening on the forming die 12 can be abutted with the blowing head 11 to blow and form the parison blank in the forming cavity of the forming die 12.

The parison is blown and molded by introducing the compressed body from the bottle opening by using the blowing head 11.

Further, the punch 10 has a long axis shape with a taper, and the tapered punch 10 can more easily punch into the glass gob 1.

Further, the press driving mechanism 8 is a cylinder.

The other parts of this embodiment are the same as embodiment 1, and are not described herein again.

With the combination of the above embodiments, the specific production process of the narrow-mouth bottle blowing mold by the line and row machine of the invention is as follows:

s1: after the neck ring die sleeve 402 and the neck ring die 401 are assembled, the neck ring die sleeve is arranged above the punching assembly through a neck ring pliers arm;

s2: closing the blank die 3, moving the choke plug 2 away, moving the punch 10 to a material receiving position under the driving of the punching driving mechanism 8, and placing the glass material blank 1 into the blank die 3 to complete material receiving;

s3: the choke plug 2 falls to a forming position, the punch 10 is driven by the punching driving mechanism 8 to punch in place, and the glass blank 1 in the blank die 3 is pressed into an opening part of a finished product of the narrow-mouth bottle and a blank bottle blank to complete the forming of the blank die 3;

s4: the choke plug 2 is moved away, the punch 10 can turn over the position through the punching driving mechanism 8, the blank mold 3 is opened, and the blank bottle blank is turned over into the forming mold 12 through the neck mold arm connected with the neck mold 401;

s5: installing a blowing head 11 on the forming die 12, and introducing compressed air into the parison through the blowing head 11, wherein the parison is blow-molded by the compressed air;

s6: the forming die 12 is opened, and the clamp bottle clamp clamps the glass bottle to the conveying belt to complete the whole production process of the narrow-mouth bottle.

The above is an embodiment of the present invention. The embodiments and specific parameters in the embodiments are only used for clearly illustrating the verification process of the invention and are not used for limiting the patent protection scope of the invention, which is defined by the claims, and all the equivalent structural changes made by using the contents of the description and the drawings of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a ranks machine narrow-mouth bottle pressure blows mould, includes rudiment mechanism and forming mechanism, its characterized in that: rudiment mechanism is from down to being vexed head (2), blank mould (3), bush subassembly (4) and punching press subassembly in proper order down, the punching press subassembly is including leading sleeve (5), install drift (10) that can follow and lead sleeve (5) activity in leading sleeve (5), drift (10) can pass a mould subassembly (4) under punching press actuating mechanism (8) drive and stretch into blank mould (3) shaping intracavity, drift (10) inner chamber still is equipped with the cooler.

2. The narrow-mouth bottle blowing mold of a line arranging machine as claimed in claim 1, wherein: the cooler comprises a cooling pipe (9) arranged in an inner cavity of the punch (10), cooling gas is introduced into the cooling pipe (9), a plurality of exhaust holes (14) are formed in a shell of the cooling pipe (9), and the outer wall of the cooling pipe (9) and the inner wall of the punch (10) are arranged at intervals to leave a cooling gas flow channel.

3. The narrow-mouth bottle blowing mold of a line arranging machine as claimed in claim 2, wherein: the punch head (10) is connected with a punch head joint (7) through a clamping ring (6), and the punch head joint (7) is connected with a piston rod of a punching driving mechanism (8) so as to drive the punch head (10) to move; the punch head joint (7) is in butt joint communication with the cooling pipe (9) through threads, and the punch head joint (7) is provided with a channel (15) communicated with a cooling gas flow passage and used for discharging cooling gas.

4. The narrow-mouth bottle blowing mold of a line arranging machine as claimed in claim 1, wherein: the neck ring mold assembly (4) is composed of a neck ring mold (401) and a neck ring mold sleeve (402) arranged in the neck ring mold (401), and the upper part of the neck ring mold (401) is connected with the primary mold (3).

5. The narrow-mouth bottle blowing mold of a line arranging machine as claimed in claim 1, wherein: the forming mechanism comprises a bottom die (13) and a forming die, wherein an upper opening of the forming die (12) can be butted with a blowing head (11) to blow and form a parison bottle blank in a forming cavity of the forming die.

6. The narrow-mouth bottle blowing and pressing mold of the line and row machine as claimed in any one of claims 1 to 5, wherein: the punch (10) is in a long shaft shape with taper.

7. The narrow-mouth bottle blowing and pressing mold of the line and row machine as claimed in any one of claims 1 to 5, wherein: the stamping driving mechanism (8) is an air cylinder.

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