CN212800123U - Forming die is used in glass production - Google Patents

Abstract

The utility model provides a forming die for glass production, includes framework (1), hydraulic press (2), guide pin bushing (3), guide pillar (4), goes up mould (5), bed die (6), base (7) and mould refrigerating plant (8), hydraulic press (2) connect in framework (1) upper portion inner wall, go up mould (5) connect in hydraulic press (2) output, base (7) connect in framework (1) lower part inner wall, bed die (6) connect in base (7) upper portion, guide pin bushing (3) connect in framework (1) upper portion inner wall, guide pillar (4) one end connect in guide pin bushing (3) upper portion inner wall, the guide pillar (4) other end connect in bed die (6) upper portion, go up mould (5) slidable and locate guide pillar (4), mould refrigerating plant (8) include lower mould cooling device (9), An upper die cooling device (10) and a quick refrigerating device (11).

Description

Forming die is used in glass production

Technical Field

The utility model relates to a forming die, in particular to forming die is used in glass production.

Background

In recent years, the mold industry is rapidly developed, the mold market is continuously impacted by graphite materials, new processes and increasing mold factories, graphite gradually becomes the preferred material for mold manufacturing with good physical and chemical properties, certain defects exist in the existing graphite mold in the glass production process, glass can be molded only by natural cooling in the molding process of the graphite mold, the time spent in the molding process is too long, the production efficiency is not high, the mold can retain high heat after being processed, the service life of the mold is easily influenced after thermal fatigue, and the cooling time is slow.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical scheme, the utility model provides a forming die is used in glass production effectively cools down the mould through mould refrigerating plant, can refrigerate fast when the high temperature, ensures the life of mould.

In order to realize the above functions, the utility model discloses the technical scheme who takes as follows: the utility model provides a forming die for glass production which characterized in that: the hydraulic mould cooling device comprises a frame body (1), a hydraulic machine (2), a guide sleeve (3), a guide pillar (4), an upper mould (5), a lower mould (6), a base (7) and a mould cooling device (8), wherein the hydraulic machine (2) is connected to the inner wall of the upper part of the frame body (1), the upper mould (5) is connected to the output end of the hydraulic machine (2), the base (7) is connected to the inner wall of the lower part of the frame body (1), the lower mould (6) is connected to the upper part of the base (7), the guide sleeve (3) is connected to the inner wall of the upper part of the frame body (1), the guide sleeve plays a limiting role on the upper mould, one end of the guide pillar (4) is connected to the inner wall of the upper part of the guide sleeve (3), the other end of the guide pillar (4) is connected to the upper part of the lower mould (6), the upper mould (5, Go up mould cooling device (10) and quick refrigerating plant (11), it connect in go up mould cooling device (10), lower mould cooling device (9) connect in bed die (6), quick refrigerating plant (11) connect in framework (1) lateral wall, it includes rotating electrical machines (12), motor storehouse (13) and rotating fan blade (14) to go up mould cooling device (10), motor storehouse (13) connect in go up mould (5) upper portion inner wall, rotating electrical machines (12) are located in motor storehouse (13), rotating fan blade (14) connect in the output of rotating electrical machines (12), the rotating electrical machines rotates, drives rotating fan blade rotates, carries out the forced air cooling to last mould, lower mould cooling device (9) include refrigerator (15), refrigeration pipe (16) and refrigeration board (17), refrigerator (15) connect in base (7) upper portion inner wall, refrigeration board (17) are located in bed die (6), refrigerator (15) pass through refrigeration pipe (16) are linked together with refrigeration board (17), refrigeration board (17) lateral wall symmetry is equipped with air vent (18), refrigeration board (17) pass through air vent (18) are linked together with the external world, the refrigerator passes through in the refrigeration pipe leads to the refrigeration board with air conditioning, the refrigeration board makes the bed die cooling, and the air conditioning after the heating is passed through the air vent and is effused, quick refrigerating plant (11) include liquid nitrogen storehouse (19), liquid nitrogen guide hole (20) and temperature-sensing ware (21), liquid nitrogen storehouse (19) connect in framework (1) lateral wall, liquid nitrogen storehouse (19) pass through liquid nitrogen guide hole (20) with framework (1) inside is linked together, the temperature sensor (21) is connected to the inner side wall of the frame body (1), a factory often needs to continuously process the frame body to cause the temperature of the mold to be overhigh, when the temperature sensor senses that the temperature of the mold is overhigh, the liquid nitrogen guide hole is opened, liquid nitrogen in the liquid nitrogen bin is guided into the frame body, the mold is rapidly cooled, and the service life of the mold is prolonged;

optionally, the upper die (5) and the lower die (6) are hollow cavities with certain wall thickness, and the wall thickness can bear the pressure of the hydraulic press;

optionally, the refrigeration plate (17) is a hollow cavity, a plurality of vent holes (18) are formed by taking the central axis of the refrigeration plate (17) as a symmetry axis, and the refrigeration plate can cool the lower die;

optionally, a plurality of liquid nitrogen guide holes (20) are arranged on the liquid nitrogen bin (19), and two groups of the liquid nitrogen guide holes (20) and the liquid nitrogen bin (19) are arranged by taking the central axis of the frame body (1) as a symmetry axis;

optionally, the refrigeration conduit (16) is provided in plurality;

optionally, the guide pillars (4) and the guide sleeves (3) are provided with 4 groups by taking the central axis of the frame body (1) as a symmetry axis.

The utility model adopts the above structure to gain beneficial effect as follows: the utility model provides a forming die is used in glass production, through last, lower mould cooling device cools off last lower mould, help glass's cooling shaping on the one hand, on the other hand has cooled off the mould, the life of mould has been guaranteed, in order to guarantee the benefit, the mill often need last processing, lead to the mould high temperature, nevertheless the mould self can remain higher heat after processing, influence life easily after the mould thermal fatigue, the cooling time is slow, quick refrigerating plant refrigerates the mould fast, guarantee the availability factor of mould, bring huge economic benefits.

Drawings

Fig. 1 is the overall structure diagram of the forming mold for glass production of the present invention.

The device comprises a frame body 1, a frame body 2, a hydraulic machine 3, a guide sleeve 4, a guide pillar 5, an upper die 6, a lower die 7, a base 8, a die refrigerating device 9, a lower die cooling device 10, an upper die cooling device 11, a quick refrigerating device 12, a rotary motor 13, a motor cabin 14, rotary fan blades 15, a refrigerating machine 16, a refrigerating guide pipe 17, a refrigerating plate 18, an air vent 19, a liquid nitrogen cabin 20, a liquid nitrogen guide hole 21 and a temperature sensor.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the following embodiments, and the technical features or the connection relations of the present invention, which are not described in detail, are the prior art adopted.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases by those skilled in the art.

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

As shown in fig. 1, a forming mold for glass production is characterized in that: the hydraulic mould comprises a frame body (1), a hydraulic machine (2), a guide sleeve (3), a guide pillar (4), an upper mould (5), a lower mould (6), a base (7) and a mould refrigerating device (8), wherein the hydraulic machine (2) is connected to the inner wall of the upper part of the frame body (1), the upper mould (5) is connected to the output end of the hydraulic machine (2), the base (7) is connected to the inner wall of the lower part of the frame body (1), the lower mould (6) is connected to the upper part of the base (7), the guide sleeve (3) is connected to the inner wall of the upper part of the frame body (1), one end of the guide pillar (4) is connected to the inner wall of the upper part of the guide sleeve (3), the other end of the guide pillar (4) is connected to the upper part of the lower mould (6), the upper mould (5) can be slidably arranged, Go up mould cooling device (10) and quick refrigerating plant (11), it connect in go up mould cooling device (10), lower mould cooling device (9) connect in bed die (6), quick refrigerating plant (11) connect in frame (1) lateral wall, it includes rotating electrical machines (12), motor storehouse (13) and rotating fan blade (14) to go up mould cooling device (10), motor storehouse (13) connect in go up mould (5) upper portion inner wall, rotating electrical machines (12) are located in motor storehouse (13), rotating fan blade (14) connect in the output of rotating electrical machines (12), lower mould cooling device (9) include refrigerator (15), refrigeration pipe (16) and refrigeration board (17), refrigerator (15) connect in base (7) upper portion inner wall, the refrigerating plate (17) is arranged in the lower die (6), the refrigerating machine (15) is communicated with the refrigerating plate (17) through the refrigerating guide pipe (16), vent holes (18) are symmetrically formed in the side wall of the refrigerating plate (17), the refrigerating plate (17) is communicated with the outside through the vent holes (18), the quick refrigerating device (11) comprises a liquid nitrogen bin (19), a liquid nitrogen guide hole (20) and a temperature sensor (21), the liquid nitrogen bin (19) is connected to the side wall of the frame body (1), the liquid nitrogen bin (19) is communicated with the inside of the frame body (1) through the liquid nitrogen guide hole (20), and the temperature sensor (21) is connected to the inner side wall of the frame body (1); the upper die (5) and the lower die (6) are hollow cavities with certain wall thickness; the refrigerating plate (17) is a hollow cavity, and a plurality of vent holes (18) are formed by taking the central axis of the refrigerating plate (17) as a symmetry axis; the liquid nitrogen bin (19) is provided with a plurality of liquid nitrogen guide holes (20), and the liquid nitrogen guide holes (20) and the liquid nitrogen bin (19) are arranged in two groups by taking the central axis of the frame body (1) as a symmetry axis; a plurality of the refrigeration conduits (16) are provided; the guide post (4) and the guide sleeve (3) are provided with 4 groups by taking the central axis of the frame body (1) as a symmetry axis.

When the cooling device is used, before the cooling device starts to work, the upper die cooling device 10 and the lower die cooling device 11 are started, the rotating motor 12 rotates to drive the rotating fan blades 14 to rotate, the upper die 5 is cooled by air cooling, the refrigerator 15 is started, the refrigerator 15 guides cold air into the refrigerating plate 17 through the refrigerating guide pipe 16, the refrigerating plate 17 cools the lower die 6, the heated cold air is emitted through the vent holes 18, in order to ensure the benefit, a factory always needs to continuously process, the temperature of the die is overhigh, when the temperature sensor 21 senses that the temperature of the die is overhigh, the liquid nitrogen guide hole 20 is opened, liquid nitrogen in the liquid nitrogen bin 19 is guided into the frame body 1, the die is rapidly cooled, the service life of the die is prolonged, when the die is closed, the hydraulic machine 2 pushes the upper die 5 to move towards the lower die 6, the upper die 6 slides on the guide pillar 4, when the die is opened, the hydraulic machine 2 pulls the, and the hydraulic press stops after the upper die 5 contacts the lower part of the guide sleeve 3.

Claims (6)

1. The utility model provides a forming die for glass production which characterized in that: the hydraulic mould comprises a frame body (1), a hydraulic machine (2), a guide sleeve (3), a guide pillar (4), an upper mould (5), a lower mould (6), a base (7) and a mould refrigerating device (8), wherein the hydraulic machine (2) is connected to the inner wall of the upper part of the frame body (1), the upper mould (5) is connected to the output end of the hydraulic machine (2), the base (7) is connected to the inner wall of the lower part of the frame body (1), the lower mould (6) is connected to the upper part of the base (7), the guide sleeve (3) is connected to the inner wall of the upper part of the frame body (1), one end of the guide pillar (4) is connected to the inner wall of the upper part of the guide sleeve (3), the other end of the guide pillar (4) is connected to the upper part of the lower mould (6), the upper mould (5) can be slidably arranged, Go up mould cooling device (10) and quick refrigerating plant (11), it connect in go up mould cooling device (10), lower mould cooling device (9) connect in bed die (6), quick refrigerating plant (11) connect in frame (1) lateral wall, it includes rotating electrical machines (12), motor storehouse (13) and rotating fan blade (14) to go up mould cooling device (10), motor storehouse (13) connect in go up mould (5) upper portion inner wall, rotating electrical machines (12) are located in motor storehouse (13), rotating fan blade (14) connect in the output of rotating electrical machines (12), lower mould cooling device (9) include refrigerator (15), refrigeration pipe (16) and refrigeration board (17), refrigerator (15) connect in base (7) upper portion inner wall, refrigeration board (17) are located in bed die (6), refrigerator (15) pass through refrigeration pipe (16) are linked together with refrigeration board (17), refrigeration board (17) lateral wall symmetry is equipped with air vent (18), refrigeration board (17) pass through air vent (18) are linked together with the external world, quick refrigerating plant (11) include liquid nitrogen storehouse (19), liquid nitrogen guide hole (20) and temperature-sensing ware (21), liquid nitrogen storehouse (19) connect in framework (1) lateral wall, liquid nitrogen storehouse (19) pass through liquid nitrogen guide hole (20) with framework (1) inside is linked together, temperature-sensing ware (21) connect in framework (1) inside wall.

2. The forming mold for glass production according to claim 1, characterized in that: the upper die (5) and the lower die (6) are hollow cavities with certain wall thickness.

3. The forming mold for glass production according to claim 1, characterized in that: the refrigeration board (17) is the cavity, air vent (18) with the axis of refrigeration board (17) is equipped with a plurality ofly as the symmetry axis.

4. The forming mold for glass production according to claim 1, characterized in that: the liquid nitrogen guide holes (20) are arranged on the liquid nitrogen bin (19) in a plurality of numbers, and the liquid nitrogen guide holes (20) and the liquid nitrogen bin (19) are arranged in two groups by taking the central axis of the frame body (1) as a symmetry axis.

5. The forming mold for glass production according to claim 1, characterized in that: the refrigeration conduit (16) is provided in plurality.

6. The forming mold for glass production according to claim 1, characterized in that: the guide post (4) and the guide sleeve (3) are provided with 4 groups by taking the central axis of the frame body (1) as a symmetry axis.

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