CN213163743U - Cup body of vacuum cup made of inner titanium and outer steel and processing equipment of cup body - Google Patents

Abstract

The utility model belongs to the technical field of the thermos cup, in particular to outer steel thermos cup body of interior titanium, including the shell that the stainless steel was made, be provided with the inner bag that the titanium alloy was made in the cup body, shell and inner bag are at the cup of rim of a cup position welded seal formation integral type, and evacuation between shell and the inner bag, the utility model aims at providing an outer steel thermos cup body of interior titanium of simple structure and convenient production.

Description

Cup body of vacuum cup made of inner titanium and outer steel and processing equipment of cup body

Technical Field

The utility model belongs to the technical field of the thermos cup, in particular to outer steel thermos cup of interior titanium and processing equipment thereof.

Background

The thermos cup is a common drinking vessel, is widely used by people, especially vacuum thermos cup, and it is effectual to keep warm, and the heat preservation time is long, and the thermos cup on the existing market is mostly made by stainless steel, and stainless steel material is corrosion-resistant, long service life, but stainless steel thermos cup can not hold beverage that teenagers like carbonated beverage, milk and fruit juice, and inconvenient user uses.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model aims to provide an inner titanium and outer steel thermos cup body which has simple structure and is convenient to produce.

The purpose of the utility model is realized like this:

the utility model provides an outer steel thermos cup body of interior titanium, includes the shell that the stainless steel was made, is provided with the inner bag that the titanium alloy was made in the cup body, and the cup of shell and inner bag welded seal formation integral type in the rim of a cup position, and evacuation between shell and the inner bag.

The utility model provides a processing equipment for processing outer steel thermos cup of interior titanium, includes the vacuum chamber, is provided with anchor clamps and the welding set of fixed shell and inner bag in the vacuum chamber, is connected with evacuating device and protective gas air inlet unit on the vacuum chamber.

A temperature adjusting device for adjusting temperature is arranged in the vacuum chamber.

The vacuum chamber is connected with a storage bin, the storage bin is arranged in a sealing mode, the storage bin is connected with the vacuum chamber through a connecting end and is provided with a first sealing door, and a second sealing door used for feeding or discharging is further arranged on the storage bin.

The feed bin comprises a feeding bin and a discharging bin, and the feeding bin and the discharging bin are both connected with a vacuumizing device and a protective gas inlet device.

Be provided with viewing aperture and glove port on the vacuum chamber, the glove port cover is equipped with the gloves that stretch into the vacuum chamber inside.

All be provided with vacuum pressure gauge on feed bin and the vacuum chamber.

The clamp is rotatably arranged in the vacuum chamber, a driving device for driving the clamp to rotate is arranged in the vacuum chamber, the clamp drives the shell and the inner container to rotate in the welding process of the shell and the inner container, and the welding device performs circumferential welding on the shell and the inner container.

Compared with the prior art, the utility model outstanding and profitable technological effect is:

1. interior outer steel thermos cup of titanium, including the shell that the stainless steel was made, be provided with the inner bag that the titanium alloy was made in the cup body, shell and inner bag are at the cup of rim of a cup position welded seal formation integral type, and evacuation between shell and the inner bag, simple structure, convenient production, and this structure is compared the thermos cup low in production cost that pure titanium alloy was made, and because the inner bag is made for the titanium alloy and can hold carbonated beverage, milk and fruit juice, the person of facilitating the use uses.

2. The utility model discloses a cup body processing device, including the vacuum chamber, be provided with the anchor clamps and the welding set of fixed shell and inner bag in the vacuum chamber, be connected with evacuating device and protective gas admission gear on the vacuum chamber, because titanium alloy and stainless steel welding in-process are easy to oxidize, thus influence the outward appearance and the performance of thermos cup, utilize evacuating device and protective gas admission gear to make the oxygen-less or even anaerobic environment in the vacuum chamber in the utility model, thereby avoid the emergence of the oxidation condition to appear in the welding position; be provided with temperature regulation's temperature regulation apparatus in the vacuum chamber, temperature regulation apparatus be provided with do benefit to and avoid the temperature transform too big in the vacuum chamber to lead to production error great, perhaps influence the sealed of vacuum chamber.

3. The vacuum chamber is connected with a stock bin which is arranged in a sealing way, the connecting end of the stock bin and the vacuum chamber is provided with a first sealing door, the stock bin is also provided with a second sealing door for feeding or discharging, and the arrangement of the first sealing door and the second sealing door prevents oxygen in the cavity from entering the vacuum chamber in the feeding and discharging process, so that the vacuum chamber can be kept in a low-oxygen environment or even an anaerobic environment; the feed bin includes feeding storehouse and goes out the feed bin, and all is connected with evacuating device and protective gas air inlet unit on feeding storehouse and the play feed bin, gets rid of the oxygen that goes up the unloading in-process and get into the feed bin through evacuating device and protective gas air inlet unit, titanium alloy and stainless steel welding position oxidation when avoiding oxygen to lead to the welding in the feed bin.

4. The vacuum chamber is provided with the observation port and the glove port, the glove port is sleeved with a glove extending into the vacuum chamber, the structure is completed by manpower, complex mechanical hands are not needed, and the processing and the production are convenient and flexible; all be provided with the vacuum pressure table on feed bin and the vacuum chamber, the user can in time observe the atmospheric pressure of stating feed bin and vacuum chamber, is convenient for in time discover unusually.

Drawings

FIG. 1 is a sectional view of a heat-insulating cup according to the present invention;

FIG. 2 is a schematic structural view of the cup body processing equipment of the present invention;

fig. 3 is a flow chart of the cup body processing device in the processing process.

The reference numbers in the figures mean: 1-a housing; 2-inner container; 3-a vacuum chamber; 4-a storage bin; 5-vacuum pressure gauge;

6-a welding device; 7-a clamp; 31-access hole; 32-glove port; 33-a viewing port; 34-a temperature regulating device;

41-a first sealing door; 42-a second sealing door; 71-a drive motor; 81-vacuum pumping device;

82-protective gas inlet means; 83-solenoid valve.

Detailed Description

The invention will be further described in the following with reference to the accompanying drawings in which:

see fig. 1-3 shown, an outer steel thermos cup body of interior titanium, shell 1 including the stainless steel is made, be provided with the inner bag 2 that the titanium alloy made in the cup body, shell 1 and inner bag 2 are at the cup of rim of a cup position welded seal formation integral type, and the evacuation between shell 1 and the inner bag 2, moreover, the steam generator is simple in structure, and convenient production, this structure is compared in the thermos cup low in production cost that pure titanium alloy made, and because inner bag 2 makes for the titanium alloy and can hold carbonated beverage, milk and fruit juice, the person of facilitating the use uses.

The utility model provides a processing equipment for processing outer steel thermos cup of interior titanium, includes vacuum chamber 3, is provided with anchor clamps 7 and welding set of fixed shell 1 and inner bag 2 in the vacuum chamber 3, is connected with evacuating device 81 and protective gas air inlet unit 82 on the vacuum chamber 3, because easy oxidation in titanium alloy and the stainless steel welding process to influence the outward appearance and the performance of thermos cup, the utility model discloses in utilize evacuating device 81 and protective gas air inlet unit 82 to make few oxygen or even anaerobic environment at vacuum chamber 3 to avoid the emergence of the oxidizing condition to appear in the welding position, all be provided with solenoid valve 83 between evacuating device 81 and protective gas vacuum chamber air inlet unit 82 and the vacuum chamber 8, solenoid valve 83 closes in the welding process, seals 8.

When the cup body processing equipment is used, the vacuum chamber 3 is firstly vacuumized to 1-0.1 atmospheric pressure by the vacuumizing device 81, then the protective gas is filled into the vacuum chamber 3 to 4-6 atmospheric pressures by the protective gas inlet device 82, then the vacuumizing and the filling of the protective gas are repeated for many times, and the oxygen content in the vacuum chamber 3 is reduced, in the embodiment, the vacuumizing device 81 is preferably used for vacuumizing the vacuum chamber 3 to 0.5 atmospheric pressure, and the protective gas inlet device 82 is preferably used for filling the protective gas into the vacuum chamber 3 to 5 atmospheric pressures.

Be provided with temperature regulation's temperature regulation apparatus 34 in vacuum chamber 3, because vacuum chamber 3 is sealed environment, can release heat in a large number among the welding process, and the temperature can be very high among the long-time back vacuum chamber 3 that uses, and temperature regulation apparatus 34 is provided with and does benefit to and avoids that temperature conversion is too big in vacuum chamber 3 to lead to production error great, perhaps influence vacuum chamber 3's sealed, temperature regulation apparatus 34 is the air conditioner.

Be connected with feed bin 4 on the vacuum chamber 3, feed bin 4 is sealed to be set up, and feed bin 4 is provided with first sealing door 41 with 3 links of vacuum chamber, and still is provided with the second sealing door 42 that is used for material loading or unloading on the feed bin 4, and the setting of first sealing door 41 and second sealing door 42 is avoided the oxygen in the unloading in-process cavity to get into vacuum chamber 3, is favorable to making vacuum chamber 3 keep oxygen-less or even anaerobic environment.

In this embodiment the feed bin 4 includes feed bin 4 and play feed bin 4, and all be connected with evacuating device 81 and protective gas air inlet unit 82 on feed bin 4 and the play feed bin 4, get rid of the oxygen that goes up in the unloading in-process and get into feed bin 4 through evacuating device 81 and protective gas air inlet unit 82, titanium alloy and stainless steel welding position oxidation when avoiding oxygen to lead to the welding in the feed bin 4, evacuating device 81 is to 0.5 atmospheric pressure in with feed bin 4 in this embodiment, protective gas air inlet unit 82 fills protective gas to 5 atmospheric pressures in to feed bin 4, reduce the oxygen content in the feed bin 4 several times repeatedly.

Preferably, all be provided with vacuum pressure gauge 65 on feed bin 4 and the vacuum chamber 3, the user can in time observe the atmospheric pressure of stating feed bin 4 and vacuum chamber 3, is convenient for in time discover unusually, and is convenient for open of first sealing door 41 and second sealing door 42.

Be provided with viewing aperture 33 and glove port 32 on vacuum chamber 3, glove port 32 cover is equipped with the gloves that stretch into the inside of vacuum chamber 3, and this structure is accomplished through the manpower, and manipulator complicated does not need, and convenient nimble processing production, in the course of working, user's hand penetrates and snatchs shell 1 and inner bag 2 in the gloves to observe through viewing aperture 33.

The fixture 7 is rotatably arranged in the vacuum chamber 3, the driving fixture 7 is provided with a driving motor 71 for driving the fixture 7 to rotate in the vacuum chamber 3, the driving motor 71 is connected with the fixture 7, the fixture 7 drives the shell 1 and the inner container 2 to rotate in the welding process of the shell 1 and the inner container 2, the welding device performs circumferential welding on the shell 1 and the inner container 2, and only the furniture is required to rotate in the use process to complete the welding of the shell 1 and the inner container 2 in the circumferential direction, so that the welding and the fixing are facilitated.

In this embodiment, the vacuum chamber 3 is further provided with an access opening 31 for facilitating inspection and maintenance of the devices inside the vacuum chamber 1.

Use the cup processing equipment processes the step of cup as follows:

the method comprises the following steps: preparing, closing the first sealing door 41, vacuumizing the vacuum chamber 3 to 1-0.1 atmospheric pressure through the vacuumizing device 81, then filling protective gas into the vacuum chamber 3 to 4-6 atmospheric pressures through the protective gas inlet device 82, and adjusting the temperature in the vacuum chamber 3 to 15-25 ℃ through the temperature adjusting device 34;

step two: feeding, opening a second sealing door 42 on the feeding bin 4, putting the shell 1 and the liner 2 into the feeding bin 4, then closing the second sealing door 42, vacuumizing the feeding bin 4 to 1-0.1 atmosphere through a vacuumizing device 81, and then filling protective gas into the feeding bin 4 by using a protective gas inlet device 82 to balance the air pressure of the feeding bin 4 and the vacuum chamber 3;

step three: taking materials, opening a first sealing door 41 at the end part of the feeding bin 4, grabbing the shell 1 and the liner 2 through gloves, fixing the shell 1 and the liner 2 on a clamp 7, and closing the first sealing door 41 at the end part of the feeding bin 4;

step four: welding, namely welding the shell 1 and the inner container 2 by a welding device;

step five: discharging, closing a first sealing door 41 and a second sealing door 42 on a discharging bin 4, vacuumizing the discharging bin 4 to 1-0.1 atmospheric pressure through a vacuumizing device 81, then filling protective gas into the discharging bin 4 by using a protective gas inlet device 82, balancing the air pressure of the feeding bin 4 and the vacuum chamber 3, opening the first sealing door 41 on the discharging bin 4, placing the welded shell 1 and the welded liner 2 into the discharging bin 4, and then closing the first sealing door 41 on the discharging bin 4;

step six: and (3) blanking, namely extracting gas in the bin 4 by using the vacuumizing device 81 to enable the pressure in the bin 4 to reach 1 atmosphere, opening the second sealing door 42 on the bin 4, taking out the welded shell 1 and the welded liner 2, and closing the second sealing door 42 on the bin 4.

Step seven: and repeating the second step or the third step.

And step two, step three and step five, vacuumizing and filling protective gas for multiple times until no oxidation phenomenon occurs at the welding position in the debugging process.

A plurality of groups of shells 1 and inner containers 2 which are not welded can be placed in the feeding process in the second step, and if the shells 1 and the inner containers 2 which are not welded in the feeding bin 4 do not exist after each blanking is finished, the feeding in the second step is carried out; and if the shell 1 and the inner container 2 which are not welded are arranged in the feeding bin 4, taking materials in the third step.

And in the sixth step, the materials can be discharged together after a plurality of groups of welded shells 1 and welded inner containers 2 are stored in the material discharging bin 4, if the number of the welded shells 1 and the welded inner containers 2 in the material discharging bin 4 is small, the transition from the fifth step to the seventh step can be directly realized, the welding position needs to be observed during each material discharging, and the first step needs to be carried out again if the oxidation phenomenon occurs.

The temperature adjusting device 34 is operated all the time from step one to step seven, and the temperature in the vacuum chamber 3 is controlled to 15-25 ℃.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and does not limit the protection scope of the present invention according to this, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides an outer steel thermos cup body of interior titanium which characterized in that: the cup comprises a shell (1) made of stainless steel, an inner container (2) made of titanium alloy is arranged in a cup body, the shell (1) and the inner container (2) are welded and sealed at a cup opening to form an integrated cup body, and the shell (1) and the inner container (2) are vacuumized.

2. The utility model provides a processing equipment for processing outer steel thermos cup body of interior titanium which characterized in that: the vacuum welding device comprises a vacuum chamber (3), wherein a clamp (7) for fixing a shell (1) and a liner (2) and a welding device (6) are arranged in the vacuum chamber (3), and a vacuumizing device (81) and a protective gas inlet device (83) are connected to the vacuum chamber (3).

3. The processing equipment for processing the cup body of the titanium-inside and steel-outside vacuum cup as claimed in claim 2, wherein: a temperature adjusting device (34) for adjusting the temperature is arranged in the vacuum chamber (3).

4. The processing equipment for processing the cup body of the vacuum cup made of the internal titanium and the external steel as claimed in claim 2 or 3, wherein: be connected with feed bin (4) on vacuum chamber (3), feed bin (4) seal setting, feed bin (4) are provided with first sealing door (41) with vacuum chamber (3) link, and still are provided with second sealing door (42) that are used for material loading or unloading on feed bin (4).

5. The processing equipment for processing the cup body of the inner titanium and outer steel vacuum cup according to claim 4, characterized in that: the feed bin (4) comprises a feeding bin (4) and a discharging bin (4), and the feeding bin (4) and the discharging bin (4) are both connected with a vacuumizing device (81) and a protective gas inlet device (83).

6. A processing device for processing a cup body of an inner titanium and outer steel vacuum cup according to claim 2, 3 or 5, characterized in that: the vacuum chamber (3) is provided with an observation port (33) and a glove port (32), and the glove port (32) is sleeved with a glove extending into the vacuum chamber (3).

7. The processing equipment for processing the cup body of the inner titanium and outer steel vacuum cup according to claim 5, characterized in that: and the stock bin (4) and the vacuum chamber (3) are both provided with a vacuum pressure gauge (5).

8. The processing equipment for processing the cup body of the titanium-inside steel vacuum cup as claimed in claim 2, 3, 5 or 7, wherein: clamp (7) rotate and set up in vacuum chamber (3), and be provided with drive fixture (7) pivoted drive arrangement in vacuum chamber (3), and in shell (1) and inner bag (2) welding process, clamp (7) drive shell (1) and inner bag (2) and rotate, and welding set (6) carry out circumference welding to shell (1) and inner bag (2).

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