CN218908041U - Explosion-proof glass bottle of stable in structure - Google Patents

Abstract

The utility model discloses an explosion-proof glass bottle with a stable structure, which comprises a bottle body, wherein the bottle body is fixedly connected with a bottle mouth and a bottle bottom which are integrally formed with the bottle body, the bottle mouth is connected with a bottle cap, a sheath is sleeved on the outer wall of the bottle body, a metal net is arranged between the sheath and the bottle body, a plurality of reinforcing ribs are fixedly arranged on the inner wall of the bottle body, a pressure release mechanism for preventing the bottle from expanding is arranged on the bottle cap, the pressure release mechanism comprises an elliptic plate, a push rod and a sealing ball, the push rod is fixedly connected with the elliptic plate, the sealing ball is fixedly connected with one end of the push rod, which is far away from the elliptic plate, the bottle cap is provided with a vertical hole, the push rod is slidingly connected in the vertical hole, the upper end of the bottle cap is provided with a placement cavity which is matched with the elliptic plate, and the placement cavity are both communicated with the vertical hole. The glass bottle has the effects of improving the structural strength and stability of the glass bottle and reducing the possibility of bursting the glass bottle.

Description

Explosion-proof glass bottle of stable in structure

Technical Field

The utility model relates to the technical field of glass bottles, in particular to an explosion-proof glass bottle with a stable structure.

Background

Glass bottles are a common glass container which has the advantages of heat resistance, acid resistance and convenient cleaning, and therefore, are commonly used for containing liquid.

The related art can refer to chinese patent publication No. CN204323948U for a glass bottle, which comprises: the bottle comprises a bottle body, a bottle neck, a valve cover and a bottle cap, wherein the bottle neck is arranged above the bottle body, the valve cover is arranged at the opening of the bottle neck, the bottle cap is sleeved on the outer side of the valve cover, and the lower end of the bottle cap is provided with a fastening protrusion.

In the above related art, when beer is contained in the glass bottle, gas in the beer is easily separated out due to sloshing during transportation, resulting in an increase in the gas pressure in the glass bottle. The glass bottle is not high in strength of self material, is not strong in stability, and is easy to crack when being impacted or extruded, so that the glass bottle is easy to burst outwards under the influence of air pressure, and resource waste is caused.

Disclosure of Invention

In order to improve the structural strength and stability of a glass bottle and reduce the possibility of bursting of the glass bottle, the application provides an explosion-proof glass bottle with stable structure.

The application provides an explosion-proof glass bottle of stable in structure adopts following technical scheme:

the utility model provides an explosion-proof glass bottle of stable in structure, includes the body, body fixedly connected with and body integrated into one piece's bottleneck and bottle end, and the bottleneck is connected with bottle lid, its characterized in that: the bottle body outer wall cover is equipped with the sheath, be equipped with the metal mesh between sheath and the bottle body, the bottle inner wall has set firmly a plurality of strengthening ribs, be equipped with the relief mechanism who is used for preventing the bottle that expands on the bottle lid, relief mechanism includes the elliptic plate, ejector pin and sealing ball, ejector pin and elliptic plate fixed connection, sealing ball fixed connection is in the one end that the ejector pin deviates from the elliptic plate, the bottle lid is opened and is had the perpendicular hole, ejector pin sliding connection is in the perpendicular hole, the bottle lid upper end has been seted up with the chamber of placing of elliptic plate adaptation, the bottle lid has been seted up with the chamber of holding of sealing ball adaptation, place the chamber and hold the chamber all with perpendicular hole intercommunication.

Through adopting above-mentioned technical scheme, under the initial condition, the sealing ball is located and holds the intracavity and contradicts with the bottle lid, when the atmospheric pressure in the glass bottle is too big, rotates the elliptic plate for the elliptic plate is just right with placing the chamber and presses the elliptic plate, makes the ejector pin promote the sealing ball and keeps away from the bottle lid, and then makes gas discharge in the vertical hole. The metal mesh is contradicted with the body, and then reduces the body and lead to bursting probability because of atmospheric pressure is too big, tie up the body through the sheath, further promote the body to the bearing capacity of inside atmospheric pressure. The reinforcing ribs are beneficial to reinforcing the bearing capacity of the bottle body to external extrusion or impact, so that the bottle body is not easy to break, the structural strength and stability of the glass bottle are improved, and the possibility of bursting of the glass bottle is reduced.

Optionally, a sealing element is arranged between the sealing ball and the bottle cap, the sealing element comprises a ball sleeve and an annular sleeve, and the annular sleeve is fixedly connected with the ball sleeve.

By adopting the technical scheme, the sealing piece is favorable for enhancing the tightness between the sealing ball and the cover body and reducing the leakage probability of the liquid.

Optionally, the bottle bottom is upwards protruded to form a conical cavity, and a plurality of reinforcing blocks which are arranged in a crossing manner are fixedly arranged in the conical cavity.

By adopting the technical scheme, the bottle bottom is upwards raised, so that the stability of placing the glass bottle is improved; the bottle bottom has higher structural strength through the reinforcing block.

Optionally, the bottle bottom is fixed with the go-between along circumference, and the go-between cover is equipped with the guard ring.

Through adopting above-mentioned technical scheme, the guard ring passes through the go-between to be connected with the bottle end, and then when placing the glass bottle, slows down the glass bottle and places the collision between the plane, reduces the probability that the bottle end damaged.

Optionally, the bottle lid has seted up the circular slot with the elliptic plate adaptation, and the circular slot communicates with placing the chamber, and the elliptic plate rotates to be connected in the circular slot, and the elliptic plate upper end has set firmly handheld piece.

Through adopting above-mentioned technical scheme, the elliptic plate is located the circular slot to the lower terminal surface of elliptic plate is contradicted with the bottle lid, and then is favorable to preventing that the mistake from touching the elliptic plate in the transportation from leading to the liquid to leak, sets up handheld piece and is favorable to making more convenient when rotating the elliptic plate.

Optionally, the sheath is composed of an elastic material.

Through adopting above-mentioned technical scheme, sheath cladding bottle, when the bottle received strong collision damage, the sheath can remain intact and retrain the piece, is favorable to reducing the probability that the piece caused the injury to personnel.

Optionally, the bottle lid is interior to be set firmly the sealing washer, and the one end that the sealing washer deviates from the bottle lid is contradicted with the bottleneck.

By adopting the technical scheme, the sealing ring is arranged, so that the air tightness of the bottle cap and the bottle mouth is improved, and the probability of overflowing liquid from the bottle mouth is reduced.

Optionally, the outer wall of the sheath is fixedly provided with a plurality of anti-skid patterns.

By adopting the technical scheme, the anti-skid patterns are arranged, so that friction between the sheath and a human hand is enhanced, and the probability of sliding the glass bottle from the human hand is reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. under the initial condition, the sealing ball is located and holds the intracavity and contradicts with the bottle lid, and when the atmospheric pressure in the glass bottle was too big, the elliptic plate rotates for the elliptic plate just to and presses the elliptic plate with placing the chamber, makes the ejector pin promote the sealing ball and keeps away from the bottle lid, and then makes gas discharge in the vertical hole. The metal mesh is contradicted with the body, and then reduces the body and lead to bursting probability because of atmospheric pressure is too big, tie up the body through the sheath, further promote the body to the bearing capacity of inside atmospheric pressure. The reinforcing ribs are beneficial to reinforcing the bearing capacity of the bottle body to external extrusion or impact, so that the bottle body is not easy to break, the structural strength and stability of the glass bottle are improved, and the possibility of bursting of the glass bottle is reduced;

2. the upward bulge of the bottle bottom is beneficial to improving the stability when the glass bottle is placed; the bottle bottom has higher structural strength through the reinforcing block;

3. the sheath cladding bottle, when the bottle body received strong collision damage, the sheath can keep intact and retrain the piece, is favorable to reducing the probability that the piece caused the injury to personnel.

Drawings

Fig. 1 is a schematic view of the overall structure of a structurally stable explosion-proof glass bottle.

Fig. 2 is a schematic cross-sectional view of a structurally stable explosion-proof glass bottle.

Fig. 3 is an enlarged schematic view of the portion a in fig. 2.

Fig. 4 is an enlarged schematic view of a portion B in fig. 2.

Reference numerals illustrate: 1. a glass bottle; 11. a bottle body; 12. a bottle bottom; 13. a bottle mouth; 2. a bottle cap; 3. a sheath; 31. a metal mesh; 111. reinforcing ribs; 4. a pressure release mechanism; 41. an elliptical plate; 42. a push rod; 43. a sealing ball; 21. a vertical hole; 22. a placement cavity; 23. a receiving chamber; 5. a seal; 51. a ball sleeve; 52. an annular sleeve; 121. a conical cavity; 122. a reinforcing block; 123. a connecting ring; 124. a protective ring; 24. a circular groove; 411. a hand-held block; 25. a seal ring; 32. anti-skid lines.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses an explosion-proof glass bottle with stable structure.

Referring to fig. 1 and 2, an explosion-proof glass bottle with stable structure comprises a bottle body 11, a bottle opening 13 and a bottle bottom 12 which are integrally formed with the bottle body 11 are fixedly connected with the bottle body 11, and a bottle cap 2 is connected with the bottle opening 13. The bottle body 11 is internally provided with a cavity which can be used for containing beer liquid. During transportation, the shaking is easy to cause gas precipitation in beer, so that the pressure in the bottle body 11 is increased. The sheath 3 is sleeved on the outer wall of the bottle body 11, the sheath 3 can reduce acting force born by the bottle body 11 when the bottle body 11 is impacted, and meanwhile, the sheath 3 can tighten the bottle body 11, so that the probability of bursting caused by the fact that the bottle body 11 is broken by internal air pressure is reduced.

Referring to fig. 2 and 3, a metal net 31 is disposed between the sheath 3 and the bottle 11, the metal net 31 further enhances the bearing capacity of the bottle 11 against impact, and meanwhile, the metal net 31 can also restrict the bottle 11, thereby enhancing the bearing capacity of the bottle 11 against internal air pressure. The inner wall of the bottle body 11 is fixedly provided with three reinforcing ribs 111 along the circumferential direction, the structural strength and stability of the bottle body 11 can be enhanced by the reinforcing ribs 111, and the bearing capacity of the bottle body 11 to internal air pressure and external impact is improved, so that the bottle body 11 is not easy to crack.

Referring to fig. 2 and 4, the bottle cap 2 is provided with a pressure release mechanism 4, which comprises an elliptic plate 41, a push rod 42 and a sealing ball 43. Wherein, ejector pin 42 is fixed connection with the lower terminal surface of elliptic plate 41, and the one end that ejector pin 42 deviates from elliptic plate 41 is fixed connection with sealing ball 43. A vertical hole 21 is formed in the center of the bottle cap 2, a push rod 42 is connected in the vertical hole 21 in a sliding mode, and a certain gap is reserved between the push rod 42 and the inner wall of the vertical hole 21.

Referring to fig. 2 and 4, the bottle cap 2 is provided with a containing cavity 23 communicated with the vertical hole 21, the sealing ball 43 is positioned in the containing cavity 23 and is attached to the bottle cap 2, the containing cavity 23 is communicated with the bottle mouth 13, and the elliptic plate 41 is attached to the upper end face of the bottle cap 2. The upper end of the bottle cap 2 is provided with a placing cavity 22 which is matched with the elliptic plate 41, and the placing cavity 22 is communicated with the vertical hole 21. In the initial state, the elliptical plate 41 is in a state of facing the placement chamber 22 Wei Chuyu. At this time, the sealing ball 43 is attached to the cap 2, and the liquid in the bottle body 11 does not flow out.

Referring to fig. 2 and 4, when the air pressure in the bottle 11 is too large, the operator rotates the elliptical plate 41 so that the elliptical plate 41 is opposite to the placement cavity 22, presses the elliptical plate 41 into the placement cavity 22, at this time, the top plate ejects the sealing ball 43 from the placement cavity 22, so that the sealing ball 43 is far away from the bottle cap 2, and then the air in the bottle 11 is discharged, the air pressure in the bottle 11 is reduced, and the probability of fracture of the bottle 11 due to the too large air pressure in the bottle is reduced.

Referring to fig. 2 and 4, the bottle cap 2 is provided with a circular groove 24 matched with the elliptical plate 41, the circular groove 24 is communicated with the placing cavity 22, and the elliptical plate 41 is positioned in the circular groove 24, so that the possibility that the elliptical plate 41 is touched by mistake during transportation, and liquid in the glass bottle 1 leaks out is reduced. The elliptic plate 41 is rotationally connected in the circular groove 24, the upper end part of the circular plate is fixedly provided with a handheld block 411, the handheld block 411 extends upwards perpendicular to the elliptic plate 41, an operator can pinch the handheld block 411 and rotate the handheld block, the elliptic plate 41 rotates in the circular groove 24, and convenience in rotating the elliptic plate 41 is improved.

Referring to fig. 2 and 4, a sealing member 5 is installed between the sealing ball 43 and the bottle cap 2, the sealing member 5 includes a ball sleeve 51 and an annular sleeve 52, the ball sleeve 51 is positioned in the accommodating cavity 23, the annular sleeve 52 is fixedly connected to the lower end of the ball sleeve 51, and the annular sleeve 52 is communicated with the cavity in the bottle body 11. The sealing ball 43 is positioned in the ball sleeve 51, and the ball sleeve 51 is made of rubber deformable materials, so that the sealing performance between the sealing ball 43 and the bottle cap 2 is improved, and the probability of liquid leakage from the vertical hole 21 is reduced.

Referring to fig. 2 and 3, the bottle bottom 12 protrudes upward from the center of the circle, and a conical cavity 121 is formed at the lower end of the bottle bottom 12, and two reinforcing blocks 122 are fixed in the conical cavity 121. When the glass bottle 1 (refer to fig. 1) is placed, the outer ring of the bottle bottom 12 is abutted against the placing plane, so that the stability of the glass bottle 1 (refer to fig. 1) is improved, and the probability of toppling of the glass bottle 1 (refer to fig. 1) caused by unstable placement is reduced. The structural strength of the bottle bottom 12 is improved by the reinforcing blocks 122, and the probability of the bottle bottom 12 breaking due to impact is reduced.

Referring to fig. 2 and 3, the bottle bottom 12 is fixed with a connection ring 123 in the circumferential direction, and the connection ring 123 is sleeved with a protection ring 124, and the protection ring 124 is made of an elastic material, so that the relative positioning with the bottle bottom 12 can be realized through the connection ring 123. When the glass bottle 1 is placed, the protection ring 124 is abutted against the placing plane, so that the collision between the glass bottle 1 (refer to fig. 1) and the placing plane is slowed down, and the damage probability of the bottle bottom 12 is reduced.

Referring to fig. 2 and 4, a sealing ring 25 is installed in the bottle cap 2, and in an initial state, one end of the sealing ring 25, which is away from the bottle cap 2, is abutted against the bottle mouth 13, so that the tightness of the bottle cap 2 and the bottle mouth 13 is enhanced, and the probability of leakage of liquid from the joint of the bottle mouth 13 and the bottle cap 2 is reduced. The outer wall of the sheath 3 is fixedly provided with a plurality of anti-skidding lines 32, and when an operator holds the glass bottle 1 (refer to fig. 1), the anti-skidding lines 32 can increase the friction force between the sheath 3 and the palm of the operator, so that the probability that the glass bottle 1 (refer to fig. 1) slides off from the hand of the operator is reduced. The sheath 3 is made of an elastic material, and when the bottle body 11 is broken by strong impact, the sheath 3 can keep integrity, so that fragments are restrained, and the probability of the fragments splashing to hurt people is reduced.

The implementation principle of the explosion-proof glass bottle with stable structure in the embodiment of the application is as follows: initially, the sealing ball 43 is located in the receiving cavity 23 and abuts against the cap 2, blocking the escape of liquid from the vertical hole 21. When the gas in the liquid is separated out due to shaking, and the gas pressure in the glass bottle 1 is overlarge, an operator rotates the elliptic plate 41 through the handheld block 411, so that the elliptic plate 41 is opposite to the placing cavity 22, the operator presses down the elliptic plate 41, pushes the sealing ball 43 to leave the accommodating cavity 23 and keep away from the bottle cap 2 through the ejector rod 42, and then the gas can be discharged from the vertical hole 21, and the gas pressure in the bottle body 11 is reduced. The metal net 31 circumferentially wraps the bottle body 11 and is in contact with the bottle body 11, so that the probability of bursting of the bottle body 11 due to overlarge air pressure is reduced. The sheath 3 tightens the bottle body 11, thereby improving the bearing capacity of the bottle body 11 to the internal air pressure. By arranging the reinforcing ribs 111, the structural strength of the bottle body 11 is improved, so that the bottle body 11 is not easy to break, the structural strength and stability of the glass bottle 1 are improved, and the possibility of bursting of the glass bottle 1 is reduced.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides an explosion-proof glass bottle of stable in structure, includes body (11), body (11) fixedly connected with and body (11) integrated into one piece's bottleneck (13) and bottle end (12), bottleneck (13) are connected with bottle lid (2), its characterized in that: the utility model provides a bottle, including body (11) outer wall cover is equipped with sheath (3), be equipped with metal mesh (31) between sheath (3) and body (11), body (11) inner wall has set firmly a plurality of strengthening ribs (111), be equipped with on bottle lid (2) and be used for preventing pressure release mechanism (4) of bottle that expands, pressure release mechanism (4) include elliptic plate (41), ejector pin (42) and sealing ball (43), ejector pin (42) and elliptic plate (41) fixed connection, sealing ball (43) fixed connection is in the one end that ejector pin (42) deviates from elliptic plate (41), vertical hole (21) have been opened in ejector pin (42) sliding connection in vertical hole (21), place chamber (22) with elliptic plate (41) adaptation have been seted up to bottle lid (2) upper end, place chamber (22) and hold chamber (23) all communicate with vertical hole (21) with sealing ball (43) adaptation.

2. The explosion-proof glass bottle with stable structure according to claim 1, characterized in that a sealing element (5) is arranged between the sealing ball (43) and the bottle cap (2), the sealing element (5) comprises a ball sleeve (51) and an annular sleeve (52), and the annular sleeve (52) is fixedly connected with the ball sleeve (51).

3. The structurally stable explosion-proof glass bottle according to claim 1, wherein: the bottle bottom (12) protrudes upwards to form a conical cavity (121), and a plurality of reinforcing blocks (122) which are arranged in a crossing manner are fixedly arranged in the conical cavity (121).

4. The structurally stable explosion-proof glass bottle according to claim 1, wherein: the bottle bottom (12) is fixedly provided with a connecting ring (123) along the circumferential direction, and the connecting ring (123) is sleeved with a protective ring (124).

5. The structurally stable explosion-proof glass bottle according to claim 1, wherein: the bottle cap (2) is provided with a round groove (24) which is matched with the elliptic plate (41), the round groove (24) is communicated with the placing cavity (22), the elliptic plate (41) is rotationally connected in the round groove (24), and the upper end part of the elliptic plate (41) is fixedly provided with a handheld block (411).

6. The structurally stable explosion-proof glass bottle according to claim 1, wherein: the sheath (3) is made of an elastic material.

7. The structurally stable explosion-proof glass bottle according to claim 1, wherein: a sealing ring (25) is fixedly arranged in the bottle cap (2), and one end of the sealing ring (25) deviating from the bottle cap (2) is abutted against the bottle mouth (13).

8. The structurally stable explosion-proof glass bottle according to claim 1, wherein: the outer wall of the sheath (3) is fixedly provided with a plurality of anti-skid patterns (32).

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