CN219363491U - Pressing mold structure for glass cup production - Google Patents

Abstract

The utility model discloses a press mold structure for glass production, which relates to the technical field of glass processing and comprises an operation table, a turntable positioned at the center of the operation table and a motor fixed on the operation table for driving the turntable to rotate, wherein a plurality of mounting plates are fixed on the turntable, the plurality of mounting plates are arranged in an array mode by taking the center line of the turntable as an axis, and a plurality of glass molds for containing glass adhesive materials are arranged on the operation table.

Description

Pressing mold structure for glass cup production

Technical Field

The utility model relates to the technical field of glass processing, in particular to a pressing die structure for glass production.

Background

The glass is made of glass, the raw material is usually high borosilicate glass, the glass is manufactured by firing at a high temperature of more than 600 ℃, the glass manufacturing method is generally divided into a blowing method and a pressing method, when the glass is manufactured by adopting the blowing method, glass adhesive is placed into a mould, then pressed into a embryonic block, compressed gas is blown into the molten glass block, so that the glass is inflated into a hollow glass, the glass manufactured by adopting the method is characterized in that the mould is qualitative, the outline of the outer part of the glass is identical with the outline of the cavity in the mould, and an operator needs to take the glass out of the lower mould by adopting an ejection structure.

However, when the outer wall of the existing glass cup is provided with a pattern structure, after the outer wall of the glass cup is attached to the inner cavity of the lower die, the pattern of the glass cup can be damaged by adopting a traditional straight-acting ejection structure, at the moment, the lower die is required to be produced by adopting two half lower dies, an operator is required to manually open the lower die after the pressing die is finished, the operation time is consumed during the operation, and the automatic production degree of the glass cup is reduced.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a pressing mold structure for glass cup production, which solves the problems that an operator is required to manually open a lower mold, the operation time is consumed, and the automatic production degree of glass cups is reduced in the existing two-flap glass cup mold.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a glass is moulding-die structure for production, includes the operation panel, is located operation panel central point put carousel and fixes the motor of drive carousel pivoted on the operation panel, be fixed with a plurality of mounting panels on the carousel, a plurality of the mounting panel uses the central line of carousel to arrange as the axle center array, be provided with a plurality of glass moulds that hold glass viscose material on the operation panel, glass mould is including mutually supporting and articulated left mould and the right mould of being connected, each the mounting panel is all connected with adjacent left mould and right mould through control left mould and right mould pivoted drive assembly.

Through above-mentioned technical scheme, the rotation of carousel is driven through the effect of motor, the rotation of carousel can drive the mounting panel rotation fixed with the carousel, the rotation of mounting panel has driven left mould and right mould rotation of being connected with the mounting panel, glass frit is placed in left mould and right mould, glass frit is pressed into the rudiment type piece in the mould, blow compressed gas into molten glass type piece in again, make it blow-up become glass cup, afterwards when left mould and right mould rotate to the certain position after, drive left mould and right mould rotation through drive assembly's effect, left mould and right mould are rotatory to be opened, the staff of being convenient for takes out fashioned glass cup under the circumstances that does not influence glass cup surface decorative pattern.

Preferably, the outer walls of the left die and the right die are respectively provided with an ear seat, the driving assembly comprises two electric push rods which are hinged on each mounting plate, and the extension ends of the two adjacent electric push rods are respectively hinged with the ear seats on the left die and the right die which are adjacent.

Through above-mentioned technical scheme, after the carousel rotates to suitable position, two electric putter shrink rotations drive with electric putter articulated left mould and the right mould of being connected rotate, left mould and right mould are opened the back, and the staff takes out fashioned glass cup.

Preferably, the glass cup die further comprises a die bottom plate which is positioned under the left die and the right die and matched with the left die and the right die, the left die and the right die are respectively provided with a cup groove and a handle groove, one side of the die bottom plate, which is away from the operating platform, is provided with a groove for accommodating the glass cup, the cup grooves, the handle grooves and the groove groups on the die bottom plate are fixed with the die bottom plate through radial connecting plates.

Through above-mentioned technical scheme, the quantity of mould bottom plate and connecting plate is the same with glass cup mould, and the connecting plate is located under the mounting panel, can drive the rotation of mounting panel pivoted also can drive the rotation of connecting plate when through the rotation of carousel to left side mould, right mould and mould bottom plate combination form a whole to in the glass cup inslot that glass frit got into left side mould, right side mould and mould bottom plate formed, and then the glass frit of being convenient for forms glass cup.

Preferably, the operation table is provided with an annular sliding rail matched with the rotating path of the die bottom plate, and the die bottom plate is connected with the operation table in a sliding manner through the annular sliding rail.

Through above-mentioned technical scheme, the effect through annular slide rail plays the spacing effect of direction to the rotation of mould bottom plate, still plays the supporting role simultaneously to the mould bottom plate, reduces mould bottom plate and operation panel direct contact and wearing and tearing mould bottom plate's possibility, has improved the life of mould bottom plate.

Preferably, the operating table is provided with a heating component for heating the formed glass handle so as to reduce burrs of the glass handle.

Through above-mentioned technical scheme, when left mould and right mould are opened, expose fashioned glass when, heat glass handle through heating element's effect, reduce the burr on the glass handle, and then reduced the possibility that burr damage operating personnel on the glass handle, and improved the yield.

Preferably, the heating assembly comprises a flame gun arranged beside the operation table through a connecting assembly, and the nozzle of the flame gun faces the glass handle.

Through above-mentioned technical scheme, play the heating effect through the effect of flame gun to fashioned glass cup handle, reduce the burr on the glass cup handle, also can play the polishing effect to the glass cup simultaneously, improved the shaping efficiency of glass cup, play the supporting role to the flame gun through coupling assembling's effect.

Preferably, the connecting assembly comprises a mounting sleeve positioned on the lower surface of the operating platform, two cylindrical grooves are formed in the mounting sleeve along the long side direction of the mounting sleeve, sliding rods are connected to the cylindrical grooves in a sliding mode, the sliding rods extend out of the cylindrical grooves, fixing supports are fixed to the portions, extending out of the cylindrical grooves, of the sliding rods, and inverted-L-shaped branch pipes for accommodating the flame thrower are arranged on the fixing supports in a penetrating mode.

Through above-mentioned technical scheme, the flame gun wears to establish the type support of falling L and with type support fixed connection of falling L, plays the spacing effect of support to the flame gun through the effect of type branch pipe of falling L, fixed bolster, installation cover and slide bar, reduces the possibility that the flame gun deviate from the operation panel in the course of the work, has improved the security of device.

(III) beneficial effects

The utility model provides a press mold structure for glass production. The beneficial effects are as follows:

(1) The pressing mold structure for glass cup production drives the turntable to rotate through the action of the motor, the turntable rotates to drive the mounting plate fixed with the turntable to rotate, the mounting plate rotates to drive the left mold and the right mold connected with the mounting plate to rotate, glass adhesive is placed in the left mold and the right mold, glass adhesive is pressed into a blank block in the mold, compressed gas is blown into the molten glass block to be inflated into the glass cup, and then after the left mold and the right mold rotate to a certain position, the left mold and the right mold are driven to rotate through the action of the driving assembly, the left mold and the right mold are rotated to be opened, and workers can take out the formed glass cup conveniently without influencing patterns on the outer surface of the glass cup.

(2) The pressing mold structure for glass production has the advantages that the heating effect is achieved on the molded glass handle through the effect of the flame gun, burrs on the glass handle are reduced, the polishing effect on the glass can be achieved, the molding efficiency of the glass is improved, and the supporting effect on the flame gun is achieved through the effect of the connecting component.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic top view of the whole structure of the present utility model;

fig. 3 is an enlarged schematic view of the structure of fig. 2 a according to the present utility model.

In the figure: 1. an operation table; 2. a turntable; 3. a mounting plate; 4. a glass mold; 401. a left die; 402. a right die; 403. a mold bottom plate; 404. a cup groove; 405. a handle groove; 406. a groove; 407. a connecting plate; 5. an ear seat; 6. an electric push rod; 7. a mounting sleeve; 8. a slide bar; 9. a fixed bracket; 10. inverted L-shaped branch pipes.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-3, the present utility model provides a technical solution: the utility model provides a glass production is with moulding-die structure, including operation panel 1, be located the carousel 2 of operation panel 1 central point put and fix the motor that drives carousel 2 pivoted on operation panel 1, be fixed with a plurality of mounting panels 3 on carousel 2, a plurality of mounting panels 3 use the central line of carousel 2 as the array arrangement of axle center, be provided with a plurality of glass cup moulds 4 that hold glass mucilage on operation panel 1, glass cup mould 4 includes left mould 401 and right mould 402 of mutually supporting and articulated connection and is located left mould 401 and right mould 402 under and with left mould 401 and right mould 402 complex mould bottom plate 403, cup groove 404 and handle groove 405 have all been seted up on left mould 401, right mould 402, cup groove 404, the groove 406 on handle groove 405 and the mould bottom plate 403 one side that deviates from operation panel 1 is set up and is formed glass cup mould groove 406, mould bottom plate 403 and mounting panel 3 are fixed through radial connecting plate 407, can drive the rotation of mounting panel 3 also can drive the rotation of connecting plate 407 when rotating through the rotation of carousel 2, left mould 401, right mould 401 and right mould bottom plate 403 and mould bottom plate 403 form a glass mucilage, the glass cup groove 403 is formed in the whole glass blank of entering the glass mould 404 and glass blank of glass, and glass cup groove 403 is formed.

As shown in fig. 1 and 2, in order to facilitate taking out the molded glass and not to affect the pattern of the glass, each mounting plate 3 is connected with the left mold 401 and the right mold 402 adjacent to each other by a driving component for controlling the rotation of the left mold 401 and the right mold 402, glass frit is placed in the left mold 401 and the right mold 402, the glass frit is pressed into a preform block in the mold, and compressed gas is blown into the molten glass block to be inflated into the glass, and then after the left mold 401 and the right mold 402 are rotated to a certain position, the left mold 401 and the right mold 402 are driven to rotate by the action of the driving component, and the left mold 401 and the right mold 402 are rotated to be opened, so that a worker can take out the molded glass without affecting the pattern of the outer surface of the glass.

As shown in fig. 3, ear seats 5 are arranged on the outer walls of the left mold 401 and the right mold 402, the driving assembly comprises two electric push rods 6 hinged on each mounting plate 3, the extending ends of the two adjacent electric push rods 6 are respectively hinged with the ear seats 5 on the adjacent left mold 401 and right mold 402, when the turntable 2 rotates to a proper position, the two electric push rods 6 shrink and rotate on the mounting plates 3 to drive the left mold 401 and the right mold 402 which are hinged with the electric push rods 6 to rotate, and after the left mold 401 and the right mold 402 are opened, a worker takes out the formed glass cup.

As shown in fig. 1 and 2, the operation table 1 is provided with an annular sliding rail adapted to the rotation path of the mold bottom plate 403, the mold bottom plate 403 is slidably connected with the operation table 1 through the annular sliding rail, the rotation of the mold bottom plate 403 is guided and limited through the action of the annular sliding rail, and meanwhile, the mold bottom plate 403 is supported, so that the possibility that the mold bottom plate 403 is worn due to direct contact between the mold bottom plate 403 and the operation table 1 is reduced, and the service life of the mold bottom plate 403 is prolonged.

As shown in fig. 1 and 3, the glass stitching line formed in the glass mold 4 and the edge of the glass handle are protruded outwards to form burrs, so that in order to reduce the burrs on the formed glass and the glass handle, a heating component for heating the formed glass handle to reduce the burrs of the glass handle is arranged on the operating platform 1, and when the left mold 401 and the right mold 402 are opened to expose the formed glass, the glass handle is heated through the action of the heating component, the burrs on the glass handle are reduced, and the yield is improved.

As fig. 1, the heating assembly comprises a flame gun arranged beside the operation table 1 through a connecting assembly, wherein the nozzle of the flame gun faces to the glass handle, the glass handle is heated through the effect of the flame gun, burrs on the glass handle are reduced, the glass can be polished, the forming efficiency of the glass is improved, and the flame gun is supported through the effect of the connecting assembly.

As fig. 1 and 3, coupling assembling is including being located the installation cover 7 of operation panel 1 lower surface, two cylindricality grooves have been seted up along the long limit direction of installation cover 7 on the installation cover 7, slide on the cylindricality groove and be connected with slide bar 8, slide bar 8 and installation cover 7 pass through screw fixed connection, slide bar 8 extend the cylindricality groove, the part that two slide bars 8 extend the cylindricality groove is fixed with fixed bolster 9, wear to be equipped with on the fixed bolster 9 and hold the inverted-L type branch pipe 10 of flame gun, the flame gun wears to establish inverted-L type support and with inverted-L type support fixed connection, play the support spacing effect to the flame gun through the effect of inverted-L type branch pipe 10, fixed bolster 9, installation cover 7 and slide bar 8, reduce the possibility that the flame gun deviate from operation panel 1 in the course of working, the security of the device has been improved.

When the glass forming machine is used, a power supply is turned on, a switch is turned on, in an initial state, the left mould 401, the right mould 402 and the mould base plate 403 which are adjacent mutually abutted and attached, a glass groove 404, a handle groove 405 and a groove 406 on the mould base plate 403 on the left mould 401 and the right mould 402 form a glass groove, glass adhesive is placed into the glass groove, the glass adhesive is pressed into a embryonic block, and then compressed gas is blown into the molten glass block through a blowing cylinder to form a hollow glass;

the rotary table 2 is driven to rotate through the action of a motor, the rotary table 2 drives the mounting plate 3 fixed with the rotary table 2 to rotate, the rotation of the mounting plate 3 drives the electric push rod 6 hinged with the mounting plate 3 to rotate, the rotation of the electric push rod 6 drives the left die 401 and the right die 402 hinged with the electric push rod 6 to rotate, meanwhile, the rotation of the rotary table 2 drives the connecting plate 407 fixed with the rotary table 2 to rotate, and the rotation of the connecting plate 407 drives the die bottom plate 403 fixed with the connecting plate 407 to rotate;

when one glass cup is molded and the turntable 2 rotates to a proper position, the motor is turned off, and two electric push rods 6 hinged with a left mold 401 and a right mold 402 on the glass cup drive the left mold 401 and the right mold 402 to rotate, so that the molded glass cup is exposed;

the fashioned glass cup handle is towards the flame gun and is close to the flame gun, opens the flame gun, plays the heating effect to the glass cup handle through the effect of flame gun, has reduced the burr on the glass cup handle, plays preliminary polishing effect to the glass cup simultaneously, has improved the shaping efficiency of glass cup, this is the use process of this glass cup production with moulding-die structure, and the content that does not make detailed description in this specification all belongs to the prior art that the expert in this specification knows simultaneously.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A press mold structure for glass production is characterized in that: including operation panel (1), be located carousel (2) of operation panel (1) central point put and fix the pivoted motor of drive carousel (2) on operation panel (1), be fixed with a plurality of mounting panels (3) on carousel (2), a plurality of mounting panel (3) use the central line of carousel (2) to arrange as the axle center array, be provided with a plurality of glass cup moulds (4) that hold glass bonding material on operation panel (1), glass cup moulds (4) are including mutually supporting and articulated left mould (401) and right mould (402) of connecting, each mounting panel (3) are all connected with adjacent left mould (401) and right mould (402) through control left mould (401) and right mould (402) pivoted drive assembly.

2. A press mold structure for glass production according to claim 1, wherein: the novel plastic rubber mold is characterized in that ear seats (5) are arranged on the outer walls of the left mold (401) and the right mold (402), the driving assembly comprises two electric push rods (6) which are hinged to each mounting plate (3), and the extending ends of the two adjacent electric push rods (6) are respectively hinged to the ear seats (5) on the left mold (401) and the right mold (402) which are adjacent to each other.

3. A press mold structure for glass production according to claim 1, wherein: glass cup mould (4) still include be located left side mould (401) and right mould (402) under and with left mould (401) and right mould (402) complex mould bottom plate (403), cup groove (404) and handle groove (405) have all been seted up on left side mould (401), right mould (402), recess (406) that hold the glass cup have been seted up to one side that mould bottom plate (403) deviate from operation panel (1), recess (406) group and formation glass cup mould groove on cup groove (404), handle groove (405) and mould bottom plate (403), mould bottom plate (403) are fixed through radial connecting plate (407) with mounting panel (3).

4. A press mold structure for glass production according to claim 3, wherein: the operation table (1) is provided with an annular sliding rail which is matched with the rotating path of the die bottom plate (403), and the die bottom plate (403) is connected with the operation table (1) in a sliding way through the annular sliding rail.

5. A press mold structure for glass production according to claim 1, wherein: the operating table (1) is provided with a heating component for heating the formed glass handle so as to reduce burrs of the glass handle.

6. A press mold structure for glass production according to claim 5, wherein: the heating component comprises a flame gun arranged at the side of the operating platform (1) through a connecting component, and the nozzle of the flame gun faces to the glass handle.

7. A press mold structure for glass production according to claim 6, wherein: the connecting assembly comprises a mounting sleeve (7) positioned on the lower surface of the operating platform (1), two cylindrical grooves are formed in the mounting sleeve (7) along the long side direction of the mounting sleeve (7), sliding rods (8) are connected to the cylindrical grooves in a sliding mode, the sliding rods (8) extend out of the cylindrical grooves, fixing supports (9) are fixed to the portions, extending out of the cylindrical grooves, of the sliding rods (8), and inverted-L-shaped branch pipes (10) for accommodating flame guns are arranged on the fixing supports (9) in a penetrating mode.