CN112089288A

CN112089288A - Cup structure of tea-water separation cover with titanium metal valve and manufacturing process of cup structure

Info

Publication number: CN112089288A
Application number: CN202011021342.3A
Authority: CN
Inventors: 应宏建
Original assignee: Zhejiang Houhan Science And Technology Development Co ltd
Current assignee: Zhejiang Houhan Science And Technology Development Co ltd
Priority date: 2020-09-25
Filing date: 2020-09-25
Publication date: 2020-12-18

Abstract

The invention discloses a cup structure of a tea-water separation cover containing a titanium metal valve and a manufacturing process thereof, wherein the cup structure comprises a tea bin, an upper cover, a lower cover and a cup body, the upper end of the upper cover is connected with the lower end of the tea bin through threads, the upper cover is in limit connection with the lower cover through a turnbuckle, and the lower cover is in threaded connection with the upper part of the cup body; the tea cabin adopts a titanium metal or high borosilicate glass tea cabin; the upper cover in be provided with titanium metal tea hourglass, titanium metal tea hourglass outer lane passes through first silica gel circle and upper cover inner wall seal fit, the lower part of upper cover inner wall cooperatees with upper cover titanium metal circle, upper cover inner wall bottom inner circle passes through second silica gel circle and goes up titanium metal valve cover tight fit, upper cover inner wall outside has set gradually upper cover metal decoration circle, upper cover titanium or imitative agate or carbon fiber material decoration circle from top to bottom. The tea leaf soaking machine is reasonable in structural design, can separate tea leaves from water, and can select the time for soaking the tea leaves in boiled water according to the preference of people, so that tea soup with different concentrations can be soaked, and the practicability is higher.

Description

Cup structure of tea-water separation cover with titanium metal valve and manufacturing process of cup structure

Technical Field

The invention relates to a cup, in particular to a cup structure of a tea-water separation cover with a titanium metal valve and a manufacturing process thereof.

Background

The teacup has the advantages that the teacup is designed to solve the problems that the cup structure is provided with the tea water separation cover with the titanium metal valve.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a cup structure of a tea-water separation cover with a titanium metal valve and a manufacturing process thereof, the cup structure is reasonable in structural design, tea leaves can be separated from water, the time for soaking the tea leaves in boiled water is selected according to the preference of people, so that tea soup with different concentrations can be brewed, and the cup structure is higher in practicability.

In order to achieve the purpose, the invention is realized by the following technical scheme: the cup structure of the tea-water separation cover with the titanium metal valve comprises a tea bin, an upper cover, a lower cover and a cup body, wherein the upper end of the upper cover is connected with the lower end of the tea bin through threads, the upper cover is in limited connection with the lower cover through a turnbuckle, and the lower cover is connected with the upper part of the cup body through threads; the tea cabin adopts a titanium metal or high borosilicate glass tea cabin; the upper cover in be provided with titanium metal tea hourglass, titanium metal tea hourglass outer lane passes through first silica gel circle and upper cover inner wall seal fit, the lower part of upper cover inner wall cooperatees with upper cover titanium metal circle, upper cover inner wall bottom inner circle passes through second silica gel circle and goes up titanium metal valve cover tight fit, upper cover inner wall outside has set gradually upper cover metal decoration circle, upper cover titanium or imitative agate or carbon fiber material decoration circle from top to bottom.

Preferably, a lower titanium metal valve is arranged in the lower cover, the lower titanium metal valve is arranged on a step on the inner wall of the lower cover through a third silica gel ring, the bottom of the step is matched with the lower cover titanium metal ring, and a lower cover titanium metal or agate-imitating or carbon fiber material decorative ring and a lower cover metal decorative ring are sequentially arranged outside the lower cover titanium metal ring from top to bottom; an intermediate metal decorative ring is arranged between the upper cover titanium metal or imitation agate or carbon fiber material decorative ring and the lower cover titanium metal or imitation agate or carbon fiber material decorative ring.

Preferably, the rotary buckle is arranged at the bottom of the upper cover and at the top of the lower cover.

Preferably, four through holes are formed in the upper titanium metal valve and the lower titanium metal valve, when the through holes of the two valves are aligned, the two valves are in a valve opening state, and when the through holes do not correspond to each other at all, the two valves are in a valve closing state.

Preferably, the cup body adopts a single-layer or double-layer vacuum heat-insulation structure, and the single-layer heat-insulation structure adopts a high borosilicate glass cup; the double-layer vacuum heat-insulation structure comprises an inner layer, an intermediate layer and an outer layer, wherein a vacuum layer is arranged between the inner layer and the outer layer, the intermediate layer is arranged at the cup mouths at the tops of the inner layer and the outer layer, and a titanium-based or silver-based solder is arranged between the intermediate layer and the inner layer; the inner layer is a titanium metal layer, and the outer layer is a stainless steel layer.

Preferably, the inner layer and the outer layer are both titanium metal layers.

The invention has the beneficial effects that: the tea water dispenser is reasonable in structural design, tea leaves can be separated from water, and the time for soaking the tea leaves in boiled water is selected according to the preference of people, so that tea soup with different concentrations can be brewed, and the tea water dispenser is high in practicability.

Drawings

The invention is described in detail below with reference to the drawings and the detailed description;

FIG. 1 is an exploded view of the tea-water separating cap of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

fig. 3 is a schematic structural view of a titanium metal valve according to the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1, the following technical solutions are adopted in the present embodiment: a cup structure of a tea-water separation cover with a titanium metal valve comprises a tea bin 1, an upper cover 2, a lower cover 3 and a cup body 4, wherein the upper end of the upper cover 2 is connected with the lower end of the tea bin 1 through threads, the upper cover 2 is in limit connection with the lower cover 3 through a turnbuckle 5, and the lower cover 3 is connected with the upper part of the cup body 4 through threads; the tea cabin 1 adopts a titanium metal or high borosilicate glass tea cabin; the titanium metal tea strainer is arranged in the upper cover 2, the outer ring of the titanium metal tea strainer 6 is in sealing fit with the inner wall 2-1 of the upper cover through a first silica gel ring 7-1, the lower part of the inner wall 2-1 of the upper cover is matched with the titanium metal ring 2-2 of the upper cover, the inner ring at the bottom of the inner wall 2-1 of the upper cover is in tight fit with the titanium metal valve 8-1 through a second silica gel ring 7-2 in a sleeved mode, and the outer part of the inner wall 2-1 of the upper cover is sequentially provided with an upper cover metal decorative ring 2-3 and an upper cover titanium metal or agate-like or carbon fiber material decorative ring 2-4 from top to bottom.

It is worth noting that a lower titanium metal valve 8-2 is arranged in the lower cover 3, the lower titanium metal valve 8-2 is arranged on a step of the inner wall 3-1 of the lower cover through a third silica gel ring 7-3, the bottom of the step is matched with the lower cover titanium metal ring 3-2, a lower cover titanium metal or agate-imitating or carbon fiber material decorative ring 3-3 and a lower cover metal decorative ring 3-4 are sequentially arranged outside the lower cover titanium metal ring 3-2 from top to bottom; an intermediate metal decorative ring 3-5 is arranged between the upper cover titanium metal or imitation agate or carbon fiber material decorative ring 2-4 and the lower cover titanium metal or imitation agate or carbon fiber material decorative ring 3-3.

Notably, the turnbuckle 5 is arranged at the bottom of the upper cover and at the top of the lower cover; the upper cover and the lower cover are both made of carbon or PP plastics.

It is worth noting that the upper titanium metal valve 8-1 and the lower titanium metal valve 8-2 are provided with four through holes 8-3, when the through holes of the two valves are aligned, the valve is in an open state, and when the through holes 8-3 are not corresponding at all, the valve is in a close state.

It is worth noting that the cup body 4 adopts a single-layer or double-layer vacuum heat-insulation structure, and the single-layer heat-insulation structure adopts a high borosilicate glass cup; the double-layer vacuum heat-insulation structure comprises an inner layer 4-1, an intermediate layer 4-2 and an outer layer 4-3, wherein a vacuum layer is arranged between the inner layer 4-1 and the outer layer 4-3, the intermediate layer 4-2 is arranged at the cup mouth at the top of the inner layer 4-1 and the outer layer 4-3, and a titanium-based or silver-based solder 4-4 is arranged between the intermediate layer 4-2 and the inner layer 4-1; the inner layer 4-1 is a titanium metal layer, and the outer layer 4-3 is a stainless steel layer.

In addition, the inner layer 4-1 and the outer layer 4-3 are both titanium metal layers.

The manufacturing process of the cup with the tea-water separation cover of the titanium metal valve comprises the following steps:

1. taking a section of titanium metal pipe with required volume;

2. taking a section of stainless steel tube with the inner diameter 1mm-2mm larger than the outer diameter of the titanium metal tube, wherein the length is about 50 mm;

3. uniformly coating a layer of titanium-based or silver-based solder on the outer wall of one end of the titanium pipe, which is about 40mm below the opening, and then sleeving a stainless steel pipe to ensure that the opening of the titanium pipe is flush with the opening of the stainless steel pipe;

4. placing the assembled double-layer pipe into a mould for expanding, so that the double-layer pipe at the opening part is tightly attached, and the opening part is expanded to a required mould pattern;

5. reducing the mouth of the double-layer pipe to the required size;

6. the opening part and the bottom part of the expanded double-layer pipe are subjected to flat opening and flat bottom;

7. the double-layer pipe with the flat mouth part and the flat bottom is used for rolling the waterproof neck at the mouth part;

8. welding the bottom of the double-layer pipe with the rolled waterproof neck to form a round bottom;

9. the finished inner container (inner layer) is heated in vacuum, so that the welding flux between the double-layer pipes at the opening part is melted to seal the double-layer pipes, and the inner container is manufactured;

10. taking a section of stainless steel pipe for expanding, and expanding to a required shell shape;

11. the expansion-type shell is shrunk to the size which is tightly matched with the opening of the inner container;

12. carrying out mouth thread rolling on the shell with the reduced mouth;

13. flattening the shell with rolled threads;

14. matching the outer shell with the inner container, and performing laser or argon arc welding on the mouth;

15. a vacuum pumping hole is designed in the middle of the round bottom plate of the shell, the getter is spot-welded on the inner side of the round bottom plate of the shell, then the round bottom plate of the shell with the getter spot-welded and the bottom of the shell with the inner container and the mouth of the shell welded are welded by laser or argon arc, and the cup body is finished;

16. welding the finished cup body with a vacuum bottom titanium base or silver base or glass beads;

17. and (5) polishing the appearance of the vacuum cup to finish the cup.

The manufacturing process of the vacuum cup with the titanium inside and outside is the same as the above process except that the stainless steel tube is added at the mouth part of the inner container.

This embodiment's lid divide into upper cover and lower cover, is provided with the titanium metal valve between the upper and lower cover, is provided with titanium metal tea in the upper cover and leaks 6, and the tea storehouse passes through threaded connection with the upper cover, and the lower cover connects with rim of a cup department soon, and this cup can avoid tealeaves to soak in the boiling water for a long time can adjust the dense and weak of tea swing simultaneously, and the personage that likes to drink dense tea can bubble more for a moment, likes to drink can bubble less for a moment that drink light tea. The tea making operation is as follows: firstly, tea leaves are placed into a tea bin, the tea bin is tightly buckled in the direction of a titanium metal tea strainer in an upper cover, then boiled water is poured into a cup body, then a cover provided with the tea bin is covered and screwed, the titanium metal valve is opened by rotating the upper cover and a lower cover, then the cup is inverted, the boiled water is poured into the tea bin, the length of the soaking time (long tea growers and short tea), can be controlled by tea drinkers, after the tea is soaked, the inverted cup is righted, the titanium metal valve is closed and opened, the operation is finished, and people can enjoy the tea water at will.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A cup structure of a tea-water separation cover with a titanium metal valve is characterized by comprising a tea bin (1), an upper cover (2), a lower cover (3) and a cup body (4), wherein the upper end of the upper cover (2) is in threaded connection with the lower end of the tea bin (1), the upper cover (2) is in limited connection with the lower cover (3) through a turnbuckle (5), and the lower cover (3) is in threaded connection with the upper part of the cup body (4); the tea cabin (1) adopts a titanium metal or high borosilicate glass tea cabin; the titanium tea strainer is characterized in that a titanium tea strainer (6) is arranged in the upper cover (2), the outer ring of the titanium tea strainer (6) is in sealing fit with the inner wall (2-1) of the upper cover through a first silica gel ring (7-1), the lower part of the inner wall (2-1) of the upper cover is matched with the titanium metal ring (2-2), the inner ring at the bottom of the inner wall (2-1) of the upper cover is in tight fit with the upper titanium metal valve (8-1) through a second silica gel ring (7-2), and an upper cover metal decorative ring (2-3) and an upper cover titanium or agate-like or carbon fiber material decorative ring (2-4) are sequentially arranged outside the inner wall (2-1) of the upper cover from top to bottom.

2. The cup structure with the tea-water separation cover and the titanium metal valve as claimed in claim 1, wherein the lower cover (3) is internally provided with a lower titanium metal valve (8-2), the lower titanium metal valve (8-2) is arranged on a step of the inner wall (3-1) of the lower cover through a third silica gel ring (7-3), the bottom of the step is matched with the lower cover titanium metal ring (3-2), and the exterior of the lower cover titanium metal ring (3-2) is sequentially provided with a lower cover titanium metal or agate-like or carbon fiber material decorative ring (3-3) and a lower cover metal decorative ring (3-4) from top to bottom; a middle metal decorative ring (3-5) is arranged between the upper cover titanium metal or imitation agate or carbon fiber material decorative ring (2-4) and the lower cover titanium metal or imitation agate or carbon fiber material decorative ring (3-3).

3. The cup structure of the tea-water separation cover with the titanium metal valve as claimed in claim 1, wherein the turn button (5) is provided at the bottom of the upper cover and at the top of the lower cover.

4. The cup structure of the tea-water separation cover with the titanium metal valve as claimed in claim 1, wherein the upper titanium metal valve (8-1) and the lower titanium metal valve (8-2) are provided with four through holes (8-3).

5. The cup structure of the tea-water separation cover with the titanium metal valve as claimed in claim 1, wherein the cup body (4) adopts a single-layer or double-layer vacuum insulation structure, and the single-layer insulation structure adopts a high borosilicate glass; the double-layer vacuum heat-insulation structure comprises an inner layer (4-1), an intermediate layer (4-2) and an outer layer (4-3), wherein a vacuum layer is arranged between the inner layer (4-1) and the outer layer (4-3), the intermediate layer (4-2) is arranged at the cup mouths at the tops of the inner layer (4-1) and the outer layer (4-3), and a titanium-based or silver-based solder is arranged between the intermediate layer (4-2) and the inner layer (4-1); the inner layer (4-1) is a titanium metal layer, and the outer layer (4-3) is a stainless steel layer.

6. The cup structure of the tea-water separation cover with the titanium metal valve as claimed in claim 5, wherein the inner layer (4-1) and the outer layer (4-3) are both titanium metal layers.

7. The manufacturing process of the cup with the tea-water separation cover and the titanium metal valve is characterized by comprising the following steps of:

(1) taking a section of titanium metal pipe;

(2) taking a section of stainless steel tube with the inner diameter 1mm-2mm larger than the outer diameter of the titanium metal tube, wherein the length is about 50 mm;

(3) uniformly coating a layer of titanium-based or silver-based solder on the outer wall of one end of the titanium pipe, which is about 40mm below the opening, and then sleeving a stainless steel pipe to ensure that the opening of the titanium pipe is flush with the opening of the stainless steel pipe;

(4) placing the assembled double-layer pipe into a mould for expanding, so that the double-layer pipe at the opening part is tightly attached and the double-layer pipe at the lower part of the opening part expands;

(5) necking the double-layer pipe mouth part;

(6) flattening the opening part and the bottom part of the double-layer pipe with good expansion;

(7) flattening the double-layer pipe at the mouth and the bottom to roll the waterproof neck at the mouth;

(8) welding the bottom of the double-layer tube with the rolled waterproof neck with a round bottom;

(9) the finished inner container is heated in vacuum, so that the welding flux between the double-layer pipes at the opening part is melted to seal the double-layer pipes, and the inner container is manufactured;

(10) taking a section of stainless steel pipe for expansion forming to form the shape of the shell;

(11) necking the expanded shell to a size which is tightly matched with the opening of the inner container;

(12) rolling threads on the mouth of the shell with the reduced mouth;

(13) flattening the shell with rolled threads;

(14) matching the outer shell with the flat mouth part and the flat bottom part with the inner container, and then carrying out laser or argon arc welding on the mouth part;

(15) a round bottom plate of the shell, wherein a vacuum-pumping hole is designed in the middle of the bottom plate, and a getter is spot-welded on the inner side of the bottom plate; then the round shell bottom sheet with the getter welded in spot and the welded shell bottom of the inner container and the shell opening are welded by laser or argon arc welding, and the cup body is finished;

(16) welding the finished cup body with a vacuum bottom titanium base or silver base or glass beads;

(17) and polishing the appearance of the vacuum cup to finish the cup.