CN210158946U - Glass container with novel bottle body structure - Google Patents

Abstract

The utility model provides a glass container with novel body structure, glass container includes the body, the body includes glass perisporium and the silicon rubber winding of spraying at glass perisporium surface, and the silicon rubber winding is the helix and extends on the glass perisporium. The utility model provides a glass container can strengthen the stability of gripping the bottle, plays the effect that antiskid was prevented scalding, has improved anti-falling nature, and the feeling of gripping is good, and glass container can be water-jug, drinking cup, feeding bottle.

Description

Glass container with novel bottle body structure

Technical Field

The utility model relates to a glass container with novel body structure.

Background

The glass feeding bottle or the plastic feeding bottle is common in the baby feeding bottle, the glass feeding bottle is smooth in surface due to the fact that the glass feeding bottle is made of glass, and particularly, some glass feeding bottles are not provided with handles, so that when adults hold the glass feeding bottle to feed babies or the babies hold the feeding bottle to suck milk, slipping occurs easily, the glass feeding bottle is unstable in holding and falls off, and the glass feeding bottle is broken. In addition, the locking cover used for locking the nipple on the existing glass feeding bottle is locked at the bottle mouth, so that poor sealing effect is easy to occur, and when the bottle body is inverted, solution in the bottle may seep out; furthermore, the air return in the prior glass feeding bottle during milk suction is more common that air is fed through the air inlet hole formed in the side of the pressure plate matched with the nipple, and the air inlet hole on the side is blocked by the locking cover of the locked nipple, so that the air inlet effect is poor.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need for a glass container with a novel bottle body structure, which has improved holding stability and good hand feeling.

The utility model provides a glass container with novel body structure, includes the bottle, and the bottle has the body, the body includes glass perisporium and the silicon rubber winding of spraying at glass perisporium surface, and the silicon rubber winding is the helix and extends on the glass perisporium.

Furthermore, a leveling adhesive layer is formed on the upper peripheral surface of the glass peripheral wall, and the silicon rubber winding is formed on the leveling adhesive layer.

Further, the glass container comprises a bottle mouth and a bottle mouth locking ring, a fastening groove with a preset depth is concavely arranged on the outer side of the bottle mouth close to the bottom end towards the inner side, a flange is convexly arranged on the inner periphery of the top port of the bottle mouth locking ring, and when the bottle mouth locking ring is locked on the bottle body, the flange slides into the fastening groove of the bottle mouth.

Further, the glass container include bottle neck and pressure disk, be provided with a plurality of air inlet grooves on the bottle neck downwards perpendicularly, the pressure disk includes disk body and protruding section of thick bamboo portion of establishing in the disk body middle part, be formed with the connecting cover between section of thick bamboo portion periphery and disk body perisporium on the disk body, set up the air inlet nozzle in the connecting cover to correspond the intercommunication with the air inlet groove.

Furthermore, the top of the peripheral wall of the tray body extends outwards to form a side edge, the top surface of the side edge is provided with a plurality of air passing rings, each air passing ring is provided with an air passing port, and the spaces between the air passing rings are communicated in the horizontal direction, so that the external air flow can enter the air inlet nozzle in the tray body from the air passing port of the air passing ring on the outermost side.

Compared with the prior art, glass container, through forming the silicon rubber wire winding on the glass perisporium, frictional force when having increased the body and gripping has improved the stability that grips, and antiskid prevents scalding, feels, in the catching groove of bottleneck is slided into to the intraoral flange in top through the bottleneck of bottleneck locking ring, improved the sealed effect of bottleneck locking ring with bottleneck locking, set up the air inlet duct through the bottleneck and admit air and the gas mouth of pressure disk admits air in side in the upright direction of bottle, realize quick automatic return-air.

Drawings

FIG. 1 is a perspective view of a glass container in accordance with a preferred embodiment of the present invention;

FIG. 2 is a cross-sectional view of the glass container shown in FIG. 1;

FIG. 3 is an exploded view of the glass container shown in FIG. 2;

FIG. 4 is a perspective view of the platen of the glass container shown in FIG. 2;

FIG. 5 is a front view of the platen of the glass container shown in FIG. 4;

fig. 6 is a front view of a glass container according to another preferred embodiment of the present invention.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

Referring to fig. 1 and 2, the present invention provides a glass container, which includes a bottle body 10, a bottle mouth 20, a pressure plate 30, a bottle mouth locking ring 40 and a straw structure 50. The pressure plate 30 presses against the mouth of the bottle body 10, the mouth 20 is pressed and stacked on the pressure plate 30, the mouth locking ring 40 is locked at the mouth end of the bottle body 10, so as to fix the mouth 20 and the pressure plate 30 at the mouth end of the bottle body 10, the lower end of the pressure plate 30 extends into the mouth and is connected with the straw structure 50 in the bottle body, and the pressure plate 30 conducts the straw structure 50 with the mouth 20, so that when the mouth 20 is sucked, the solution in the bottle body 10 is guided out through the straw structure 50.

The bottle body 10 includes a body and a neck formed at a top end of the body. The diameter of the bottle neck is smaller than that of the bottle body, and threads are formed on the periphery of the bottle neck. The bottle body comprises a glass peripheral wall 11 and a silicon rubber winding 13 formed on the outer surface of the glass peripheral wall 11, wherein the silicon rubber winding 13 extends on the glass peripheral wall 11 in a spiral line, and the spiral line can be a single spiral line or a double spiral line. Further, a leveling adhesive layer (not shown) is formed on the upper outer peripheral surface of the glass peripheral wall 11, and the silicone rubber winding 13 is formed on the leveling adhesive layer. The leveling rubber layer is made of silicon rubber which can be distinguished from organic resin, the silicon rubber is elastic and is made of a transparent material, during manufacturing, the periphery of the glass peripheral wall 11 is coated with fused silicon rubber, or the glass peripheral wall 11 is soaked in the fused silicon rubber, then the fused silicon rubber adhered to the glass peripheral wall 11 is leveled to form the leveling rubber layer, then the silicon rubber wire is injected for spiral winding, and a silicon rubber winding wire 13 is formed on the leveling rubber layer. The silicon rubber winding 13 is formed on the glass peripheral wall 11, so that the friction force of the bottle body during holding is increased, the holding stability is improved, and the holding hand feeling is good due to the elasticity of the silicon rubber. By adding the leveling adhesive layer, the adhesive force of the silicon rubber winding 13 is improved, the friction force and the hand feeling are further improved, the manufacture of a bottle body pattern or a bottle body ruler is facilitated, the leveling adhesive layer is processed only after the corresponding pattern mask is pasted on the glass peripheral wall 11 during the manufacture, and the pattern mask is removed after the manufacture.

Referring to fig. 2 and 3, the bottle mouth 20 includes a circumferential section 21 and a suction nozzle portion 22. The outer side of the circumferential section 21 is provided with a buckling groove 211 with a preset depth, which is concave towards the inner side near the bottom end, the buckling grooves 211 are distributed around the circumferential section 21, the buckling grooves 211 do not penetrate through the wall thickness of the circumferential section 21, the bottom end of the circumferential section 21 is provided with an attaching edge 212 corresponding to the lower part of the buckling groove 211, the attaching edge 212 is in a ring shape, the attaching edge 212 extends out relative to the outer side of the circumferential section 21, and the outer diameter of the attaching edge 212 is approximately equal to the outer diameter of. An air guide aligning block is further arranged on the bottom surface of the attaching edge 212 in a protruding mode, an air vent hole 214 is formed in the air guide aligning block, and the air vent hole penetrates through the top surface of the attaching edge 212. The mouth part 22 is used for allowing the baby to suck, is horn-shaped, the bottom end of the mouth part is connected with the top end of the circumferential section 21, and the top of the mouth part 22 is provided with a sucking hole (not shown) for the baby to suck and flow out. A plurality of air inlet grooves 221 are vertically arranged downwards at the bottom end of the sucker part 22 adjacent to the joint with the top end of the circumferential section 21, and the air inlet grooves 221 are not communicated with the buckling grooves 211. The air inlet grooves 221 are in one-to-one correspondence with the vent holes 214 on the attaching edge 212, the air inlet grooves 221 may be formed by connecting pipes at corresponding hole positions on the inner surface of the outer surface of the suction nozzle portion 22, and the bottom ends of the pipes are connected to the vent holes 214, so that the external air is introduced from the air inlet grooves 221 into the vent holes 214 correspondingly.

Referring to fig. 3, 4 and 5, the pressing plate 30 is disposed at the connection position of the bottle body 10 and the bottle mouth 20 for matching with the air intake and connecting the straw structure 50 to conduct the straw structure 50 and the bottle mouth 20. The platen 30 includes a plate 31 and a cylinder 32 protruding from the middle of the plate 31, the plate 31 includes a bottom wall and a peripheral wall, a connection cover 311 is formed on the bottom wall between the outer periphery of the cylinder 32 and the inner periphery of the plate 31, the connection cover 311 is a hollow rectangular cover structure having a top wall and a peripheral wall, and has no bottom wall, the connection cover 311 corresponds to the vent hole 214 on the attaching edge 212 of the bottle mouth 20, and an air inlet nozzle 312 is disposed in the connection cover 311 for matching with the vent hole 214. The air inlet nozzle 312 can be formed by opening a hole on the top wall of the connecting cover 311 and then connecting the nozzle with the corresponding hole position in the cover, and the nozzle opening at the bottom of the nozzle adopts a sealing structure that two elastic sheets are correspondingly abutted, so that the nozzle opening is opened by pressure difference when air pressure difference exists at two ends of the nozzle opening, and the nozzle opening is closed when the air pressure difference does not exist. The top of the peripheral wall of the tray body extends outwards to form a side edge, the top surface of the side edge is provided with a plurality of air passing rings 313, height differences can be formed among the air passing rings 313, the bottom surfaces of the attaching edges 212 are correspondingly matched to improve the sealing performance, each air passing ring 313 is provided with an air passing port 314, so that the spaces among the air passing rings 313 are communicated in the horizontal direction, external air flow can enter the tray body 31 from the air passing ports 314 of the air passing rings 313 on the outermost side, and enter the bottle body 10 from the air inlet nozzles 312 of the connecting cover 311 in the tray body 31. The middle part of the cylinder part 32 is provided with a blocking plate 321, the blocking plate 321 divides the inner cavity of the cylinder part 32 into an upper part and a lower part, the bottom surface of the blocking plate 321 extends to form a liquid outlet connecting pipe 322, and the liquid outlet connecting pipe 322 extends out of the bottom surface of the tray body 31 and is used for connecting the straw structure 50.

The top end opening diameter of the mouth locking ring 40 is smaller than the bottom end opening diameter, and the inner peripheral side surface of the mouth locking ring 40 is formed with threads to be engaged with the threads of the outer periphery of the bottle neck. In addition, the tip mouth outer circumference of the mouth locking ring 40 is formed with a step 42 for engagement with the cap. The inner periphery of the top port of the bottle mouth locking ring 40 is convexly provided with a flange 43, and the flange 43 is used for being buckled with the buckling groove 311 of the circumferential section 31 of the bottle mouth 30, so that the stability and the sealing performance after locking are improved. When the mouth locking ring 40 locks the mouth 20 and the pressure plate 30 to the bottle body 10, the suction nozzle portion 22 of the mouth 20 is inserted into the bottom end of the mouth locking ring 40, the suction nozzle portion 22 penetrates out of the top end opening end of the mouth locking ring 40, when the circumferential section 21 of the mouth 20 moves to the top end of the mouth locking ring 40, the mouth locking ring is elastically tightened by being pressed, the flange 43 in the top end opening of the mouth locking ring 40 slides into the fastening groove 211 of the circumferential section 21 of the mouth 20, the pressure plate 30 is placed at the mouth of the bottle body 10, the bottom surface of the side edge of the tray body 31 abuts against the mouth, the bottom surface of the abutting edge 212 abuts against the surface of the side edge of the tray body 31, and then the mouth locking ring 40 is screwed onto the neck of the top end of the bottle body 10, so that the mouth 20 and the pressure plate 30 are.

Referring to fig. 5 and 6, the suction assembly 50 includes a silicone rubber gravity ball 51 and a silicone rubber tube 52, a suction passage 511 is formed on the silicone rubber gravity ball 51, the suction passage 511 penetrates through the silicone rubber gravity ball 51, one end of the silicone rubber tube 52 is connected to the silicone rubber gravity ball 51, and a pipeline of the silicone rubber tube 52 is communicated with the suction passage 511.

When the glass container is used for sucking liquid, the suction nozzle part 22 is sucked, the liquid in the bottle body 10 enters from the suction channel 511 of the silicon rubber gravity ball 51, passes through the silicon rubber tube body 52, enters the liquid outlet connecting pipe 322 of the pressure plate 30, enters the suction nozzle part 32 and is sucked out, the liquid level in the bottle body 10 drops, the air pressure in the bottle drops, the bottle body is flattened, at the moment, the external air flow enters the bottle body through the air inlet groove 221 and the air vent 214 of the bottle nozzle 20 and then enters the air inlet nozzle 312 of the pressure plate 30, and the external air flow enters the tray body 31 through the air vent 314 of the air vent ring 313 on the outermost side of the pressure plate 30 and enters the bottle body 10 from the air inlet nozzle 312 in the tray. Can quickly and fully supplement the air in the bottle, realize the automatic air return of the bottle body and restore the bottle body to the original shape.

Further, the bottle still includes handle ring cover 60, handle trade cover 60 includes handle ring 61 and the handle 62 of relative connection in handle ring 61 both sides, the external diameter that the aperture of handle ring 61 is greater than the bottleneck is less than the external diameter of body, and the aperture of handle ring 61 is less than the external diameter of bottleneck locking ring 40, handle ring 61 cover that handle trade cover 60 was established in bottleneck periphery bottom during the installation, bottleneck locking ring 40 locks to the bottleneck on, so, handle ring 61 installs between body top and bottleneck locking ring 40.

Further, the glass container further comprises a bottle cap 70, the bottle cap 70 covers the bottle mouth locking ring 40, and the bottom end of the bottle cap 70 abuts against the step 42.

To sum up, the utility model discloses a form silicon rubber winding 13 on glass perisporium 11, frictional force when having increased the body and gripping, the stability of gripping has been improved, antiskid prevents scalding and feels, in the catching groove 211 of the circumference section 21 of bottleneck 20 is slided into through intraoral flange 43 in the top of bottleneck locking ring 40, the sealed effect of bottleneck locking ring 40 and bottleneck 20 locking has been improved, it admits air and the pressure disk 30 gas port 314 admits air in side to set up the air inlet duct 221 in the upright direction of bottle through the bottleneck, can improve the effect of admitting air, realize quick automatic return air.

It can be understood that the body of the glass container having the novel body structure is not limited to the nursing bottle, but may be a glass cup, as shown in fig. 6, in which a silicon rubber winding 13 is formed on the circumferential wall of the glass cup.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structural changes made by the contents of the specification and the drawings, or the direct or indirect application in other related technical fields, are included in the same way in the protection scope of the present invention.

Claims (6)

1. A glass container with novel body structure, the glass container includes bottle (10), and bottle (10) has body, its characterized in that: the bottle body comprises a glass peripheral wall (11) and a silicon rubber winding wire (13) formed on the outer surface of the glass peripheral wall (11), wherein the silicon rubber winding wire (13) extends on the glass peripheral wall (11) in a spiral line.

2. The glass container of claim 1, wherein: a leveling adhesive layer is formed on the upper peripheral surface of the glass peripheral wall (11), and the silicon rubber winding (13) is formed on the leveling adhesive layer.

3. The glass container of claim 1, wherein: the bottle mouth locking device comprises a bottle mouth (20) and a bottle mouth locking ring (40), a buckling groove (211) with a preset depth is concavely arranged on the outer side of the bottle mouth (20) close to the bottom end and inwards concave, a flange (43) is convexly arranged on the inner periphery of the top end opening of the bottle mouth locking ring (40), and when the bottle mouth locking ring (40) is locked on a bottle body (10), the flange (43) slides into the buckling groove (211) of the bottle mouth (20).

4. The glass container of claim 1, wherein: the bottle mouth pressing device comprises a bottle mouth (20) and a pressing plate (30), wherein a plurality of air inlet grooves (221) are vertically formed downwards on the bottle mouth (20), the pressing plate (30) comprises a plate body (31) and a barrel portion (32) which is convexly arranged in the middle of the plate body (31), a connecting cover (311) is formed between the periphery of the barrel portion (32) and the peripheral wall of the plate body (31) on the plate body (31), and air inlet nozzles (312) are arranged in the connecting cover (311) and correspondingly communicated with the air inlet grooves (221).

5. The glass container according to claim 4, wherein: the top of the peripheral wall of the tray body (31) extends outwards to form a side edge, the top surface of the side edge is provided with a plurality of air passing rings (313), each air passing ring (313) is provided with an air passing hole (314), and the spaces among the air passing rings (313) are communicated in the horizontal direction, so that the outside air flow can enter the air inlet nozzle (312) in the tray body (31) from the air passing hole (314) of the air passing ring (313) at the outermost side.

6. Glass container according to claim 1 or 2, characterized in that: the glass container comprises a water bottle, a water cup or a milk bottle.

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