CN1242974A - Metal vacuumed double-wall container and mfg. method thereof - Google Patents

Abstract

A method for making a metallic evacuated double-walled vessel consisting of metallic inner (11) and outer (14) vessels with an evacuated thermal insulating layer being formed by the space between the inner vessel (11) and the outer vessel (14). In the present invention, a prior-to-sealing double-walled vessel (10) is formed by forming a concavity (16,21) in one of either the inner vessel or the outer vessel, and punching in the concavity (16,21) an evacuation hole (17,22) through which to carry out vacuum evacuation. A solid sealing hot charge (18) is then disposed prior to vacuum heating at a position directly above the evacuation hole (17,22) of the prior-to-sealing double-walled vessel (10) with an interval of space being maintained between the sealing hot charge (18) and the evacuation hole (17,22). The prior-to-sealing double-walled vessel (10) is then placed inside a vacuum heating furnace, and vacuum evacuation of the cavity between the inner vessel (11) and the outer vessel (14) is carried out via the evacuation hole. The sealing hot charge (18) is heated and melts, causing it to drop down onto the evacuation hole (17,22) and the vicinity thereabout, filling the evacuation hole. The sealing hot charge (18) then cools and hardens, vacuum sealing the vessel.

Description

Metal vacuumed double-wall container and manufacture method thereof

The present invention relates to a kind of metal double-walled container, for example portable thermos bottle, kettle, jar or similar articles.

For the method for making vacuumed double-wall container, more existing effective conventional methods, for example, by being attached to the microtubule on the outer container, space between the interior outer container is evacuated, and microtubule is welded and seals (Japanese patent application, the clear 59-37914 of publication number by pressure then, Japanese patent application, the clear 59-103633 of publication number); On outer container, be provided with a vacuum openings, the weld metal material is deposited in the periphery that vacuumizes the hole, the encapsulation parts are positioned at and vacuumize top, hole, encapsulate parts and vacuumize an intersegmental distance is arranged between the hole, carrying out heat in vacuum furnace vacuumizes, temperature is risen to the melting temperature of weld metal material, welding encapsulation parts, container is by vacuum seal (the clear 58-192516 of Japanese Unexamined Patent Publication No); Other method is to have an aperture or narrow slit on outer container, the weld metal material be arranged on aperture or narrow slit near, carrying out heat at vacuum furnace vacuumizes, temperature rises to the melting temperature of weld metal material, cause the fusion of weld metal material and flow into aperture or narrow slit, vacuum-tight container (the flat 1-106925 of Japanese patent application (U.S. Patent number 5153977), the flat 2-26837 of utility model application).

Used a microtubule in the above-mentioned method; because the bottom that microtubule stretches out outer container; must establish a bottom valve jacket with the protection microtubule; the problem that produces is because the length of this protective sleeve; the product of manufacturing becomes higher; further contemplate large batch of production; because of sealing and excise microtubule to each goods, it is complicated that operation becomes, and; the Sealing Technology of manufacture process requires very accurate; therefore require operation very skilled, in addition, accidental sealing not exclusively; cause the forfeiture of vacuum reduction and thermal insulation capabilities; further consider the encapsulating method that uses microtubule, under the situation that internally space between the outer container vacuumizes, when impelling the gas desorption that is adsorbed on the metal surface attached; need entire container is heated; the outer surface of container is exposed in the atmosphere, causes violent oxidation with the reaction of oxygen in the atmosphere, because the outward appearance and the corrosion resistance on the surface after the oxidation suffer damage; an operation must be set get rid of these substandard goods, cost correspondingly increases.

On the other hand, in the encapsulating method that uses welding material, for obtaining good adhesive property between encapsulant and the outer container material, must remove the surface oxidation material that vacuumizes opening periphery material, it is 1 * 10 that a kind of reliable method is arranged ^-3The pressure of torr and under 950 ℃ or higher temperature, heating, can hang down for stainless steel material pressure, this method is good to metal fever water bottle operating position, in this case, must have the special vacuum furnace that can use under 950 ℃ or higher temperature, it is very expensive that its problem is that cost of equipment becomes.

For further understanding the manufacture method of traditional metal vacuumed double-wall container, as seen shown in Figure 14, shown in the figure is the state of the metal vacuumed double-wall container before vacuum seal, container to be sealed is made of inner casing 1 and shell 4, inner casing 1 is cylindrical and a bottom is arranged, shell 4 is made of circular cylindrical shell body portion 2 and outer casing bottom 3, the mouth of shell body part 2 is connected with the mouth air-tightness of inner casing 1, outer casing bottom 3 is tightly connected at the opening part of container one end simultaneously, its position is opposite with the mouth position of shell body part 2, position in housing bottom 3 approximate outside, extrude a recess 6 towards inner casing 1 direction, approximate center at recess 6 partly has an aperture 7 (vacuumizing the hole) or a narrow slit, utilizes the cavity 5 of aperture 7 between inner casing 1 and shell 4 to vacuumize.

In utilizing vacuum seal manufacturing metal vacuumed double-wall container process, container is squeezed, the mouth of unencapsulated container down, sealing heat material 8 for example welding material of metal is configured in the recess 6 with the pasty state form, container to be sealed places vacuum furnace, when the heating in vacuum furnace interior reaches certain vacuum, heating and fusion sealing heat material 8, the sealing heat material 8 of molten state is flowed into by hole 7 peripheries and vacuumizes in the hole 7, stop up after the thermal vacuum hole 7,8 coolings of sealing heat material are also solidified, and vacuum seal vacuumizes hole 7, have the thermal insulation layer (the flat 2-26387 of utility model application) of a vacuum like this between the inner casing 1 of container and shell 4.

Yet, in tradition in encapsulating method, sealing heat material 8 is configured in the periphery of recess 6, in the vacuum seal process, sealing heat material 8 is fused and is vacuumized hole 7 along recess 6 inflows, sealing vacuumizes hole 7, the type of flow of the sealing heat material 8 of fusion state is by following former thereby variation, what of the amount of the sealing heat material 8 that uses, the gradient and the surface characteristic of outer casing bottom part 3 and recess 6, therefore to flow into and vacuumize the mobile of hole 7 be unsettled to heat material 8, it causes incomplete sealing, for avoiding this situation, must use than the more sealing heat of actual needs material 8, cause the increase of production cost.

Therefore, the object of the present invention is to provide a kind of method and corresponding metal vacuumed double-wall container of making metal vacuumed double-wall container, this method can make sealing heat material be positioned at the position that vacuumizes the hole really, and the expense that the hot material sealing of use sealing vacuumizes the hole is lower, thereby make the reduction product costs become possibility.

According to a first aspect of the invention, it provides a kind of method of making metal vacuumed double-wall container, and described container is made of outer container in the metal, and the space between described inner pressurd vessel and the outer container is a vacuum heat-insulating layer, it is characterized in that this method comprises the following steps:

(a) constitute double-walled container to be sealed by only described metal inner pressurd vessel and described outer container mouth separately being linked together, on the outer surface of described outer container, form a recess, in described recess, offer a vacuum hole, vacuumize the hole by this and vacuumize;

(b) before heating in vacuum, with the sealed solid material be arranged on described double-walled container to be sealed described this vacuumize the hole directly over, thereby form a gap between the hole in vertical direction at described encapsulant and described vacuumizing;

(c) described double-walled container to be sealed is inserted in the vacuum furnace, the space between described inner pressurd vessel and the outer container is evacuated to a specific vacuum by described gap and the described hole that vacuumizes; And

(d) vacuum-packed process is heating and fuses described encapsulant, the encapsulant of described fusion is dropped in vacuumize on the hole and the hole near, and the described hole that vacuumizes of filling, described encapsulant hardens.

Traditional encapsulating method of the mobile formation that the sealing heat by the fusion state that the vacuum seal that first aspect of the present invention provides is compared is expected is more reliable, therefore utilizes first invention of the present invention can reduce vacuum-packed ratio of defects and boost productivity.

And then because vacuum seal is to fuse the sealing of shape heat to expect directly to fall into to vacuumize the hole, because the incomplete seal defect of hole plug that vacuumizes that the hot material of sealing surface tension causes is eliminated, the hot material of required sealing consumption can reduce, and manufacturing cost is reduced.

According to a second aspect of the invention, it provides a kind of method of making metal vacuumed double-wall container, and wherein said container is made of the metal inner and outer container, and the space between described inner pressurd vessel and the described outer container is a vacuum heat-insulating layer, it is characterized in that this method comprises the following steps:

(a) described inner pressurd vessel and described outer container are connected to form double-walled container, have an elongated slot and to vacuumize seam on the described outer container outer surface, and the described seam that vacuumizes is formed in the described elongated slot abreast;

(b) the bar-shaped encapsulant that the low-melting glass of softening temperature between 200 ℃ to 600 ℃ constituted is located at described vacuumizing abreast and sews on, and described bar-shaped encapsulant is shorter than the described seam that vacuumizes;

(c) described double-walled container is inserted in the vacuum furnace, the cavity between described inner pressurd vessel and the outer container is evacuated being lower than under the softening temperature of described encapsulant;

(d) heat being higher than under the softening temperature of described encapsulant, make described encapsulant fusion and flow into the described hole that vacuumizes, seal the described hole that vacuumizes.

In aspect second of the present invention, because in being sealed in, outer container both one of on the encapsulant that vacuumizes the hole be low temperature fusion glass, its melting temperature is 200 ℃ to 600 ℃, the traditional welding method that compares, the vacuum seal temperature can reduce, based on this reason, the temperature that is used for vacuum furnace can reduce, cost of equipment then can reduce, and the manufacturing expense of finished product can reduce, though being used for the advantage of low temperature fusion glass of the present invention is to have oxide on metal double-walled container surface, adhesive property is without prejudice, and can obtain good sealing, and therefore can save the double-walled canister is heated to the process that high temperature is removed oxide, can further reduce the production cost of vacuum double-walled canister.

Further compare with the conventional method of using microtubule, owing to there is not the remainder of the microtubule that stretches out, the present invention can make article construction more compact, and in seal process, when in vacuum furnace, handling large batch of goods for the while, processing procedure is stable, and need not manpower and participate in, be easy to reach produce in enormous quantities also and can reduce manufacturing cost, and when internally the cavity between the outer container vacuumized, because entire container is to heat under vacuum state, vessel surface did not have tangible oxidation reaction, the final step of removing oxide can omit, and further reduces cost.

According to a kind of metal vacuumed double-wall container provided by the invention, described container is made of metal inner pressurd vessel and outer container, space between described inner pressurd vessel and described outer container forms a vacuum heat-insulating layer, it is characterized in that, be formed on the encapsulant sealing that the hole is made of the low-melting glass of softening temperature between 200 ℃ to 600 ℃ that vacuumizes on the described outer container.

Because all to vacuumize with seal process be to carry out to the relatively low temperature of 600 ℃ of scopes at 200 ℃, constitute the metal material of container, for example the hardness of stainless steel or other similar material can increase because of process annealing, consequently use the container of high rigidity metal material, its housing can be done thinlyyer, can reduce total weight of vacuumed double-wall container.

Description of drawings

Fig. 1 is the elevation cross-sectional view of double-walled container to be sealed, provides first embodiment of the present invention.

Fig. 2 is the view of the lower surface of same container to be sealed.

Fig. 3 is the cross section view of container bottom.

Fig. 4 is the cross section view of container bottom vacuum seal state.

Fig. 5 is the elevation cross-sectional view of container to be sealed, provides second embodiment of the present invention.

Fig. 6 is the front view of the main member of container shown in Figure 5.

Fig. 7 is the cross section view of the main member of container shown in Figure 5.

Fig. 8 is the elevation cross-sectional view of double-walled container to be sealed, provides the 3rd embodiment of the present invention.

Fig. 9 is the view of the lower surface of container shown in Figure 8.

Figure 10 is the amplification profile view of the main member of container after the vacuum seal.

Figure 11 is the orthogonal view of container to be sealed, provides the 4th embodiment of the present invention.

Figure 12 is that the main member of container shown in Figure 11 amplifies bottom view.

Figure 13 is the elevation cross-sectional view of container to be sealed, provides the 5th embodiment of the present invention.

Figure 14 is the elevation cross-sectional view with the container to be sealed of relevant prior art of the present invention, to explain traditional prior art.

Embodiment 1

According to present embodiment, not vacuum-packed metal double-walled container in manufacture method (seeing unencapsulated container 10 here) as shown in Figure 1 to Figure 3.

Unencapsulated container 10 is made of metal inner casing 11 and metal shell 14, and metal inner casing 11 is shaped as cylindrical and a bottom is arranged, and metal shell 14 its shapes are similar cylindrical and a bottom is arranged, and both partly are connected at mouth.The shell body part 12 of shell 14 has a shoulder 19, the diameter of shoulder 19 is along with convergence mouth outer end portion gradually and reduce gradually, outer casing bottom 13 is connected with the peristome air-tightness of shell body part 12, opening is in an end opposite with mouth, and inner casing 11 and shell 14 preferably use stainless steel material.

Approximate center at outer casing bottom 13 partly is pressed with the hemispherical concave depressions 16 of one day to inner casing 11, the diameter D of recess 16 ₀3-15mm preferably, the approximate center of recess 16 have a diameter A be 0.1-2mm vacuumize aperture 17, in recess 16, be provided with a cylindrical sealed solid heat material 18 again, the diameter d of sealed solid heat material 18 is preferably 0.3-3mm, its length L should be A＜L＜D ₀

The state of unsealing container 11 before heating in vacuum be container opening down, sealed solid heat material 18 is vertically set on the top that vacuumizes hole 17, sealing heat material 18 and vacuumize and leave an intersegmental distance between the hole 17.

Next the metal double-walled container is carried out vacuum seal.

Above-mentioned container to be sealed 10 is put in vacuum furnace, its mouth down, carry out heating in vacuum, under the melting temperature that is lower than sealing heat material 18, cavity 15 is evacuated to a predetermined vacuum subsequently by vacuumizing hole 17, temperature is brought up to the fusion temperature of sealing heat material 18, melt-sealed heat material 18 make it to be dropped into vacuumize in the hole 17 and near, vacuum hole 17 vertically is positioned at the below of sealing heat material 18.

Sealing heat material 18 be dropped in vacuumize on the hole 17 and be deposited in vacuumize hole 17 near, because capillarity sealing heat material 18 enters in the vacuum hole 17,18 coolings of the material of sealing heat subsequently and sclerosis, sealing vacuumizes hole 17 reliably, and Fig. 4 has provided the state that vacuumizes hole 17 sealed heat material, 18 sealings.

If the diameter A that vacuumizes hole 17 is less than 0.1mm, may make vacuumizing of cavity 15 insufficient, equally, if bore dia A is greater than 2.0mm, because the surface tension of fusing shape sealing heat material 18, may make the obstruction in hole not exclusively,, can use welding material of metal or low-melting glass as long as sealing heat material 18 is a solid-state form.

As mentioned above, can produce the vacuum double-walled canister that constitutes by inner casing 11 and shell 14, between its inner casing 11 and the shell 14 vacuum heat-insulating layer be arranged.

In the present embodiment, the openend of the container to be sealed of preparation heating in vacuum down, one cylindrical sealed solid heat material 18 is located in the recess 16, and vertically be positioned at the top that vacuumizes hole 17, container 10 to be sealed is put in vacuum furnace, at first cavity 15 is being lower than under the melting temperature of sealing heat material 18 and is being pumped to a predetermined vacuum through vacuumizing hole 17, subsequently, temperature is risen to more than the melting temperature of sealing heat material 18, melt-sealed heat material 18 and be dropped under the own wt effect vacuumize on the hole 17 and vacuumize hole 17 near, vacuumize hole 17 be positioned at sealing heat material 18 under, carry out vacuum seal by this way, the dependence pasty state that compares fusion sealing heat material mobile carries out vacuum-packed conventional method and has higher reliability, and can enhance productivity by the ratio that reduces the seal defect appearance, because the sealing of molten state heat material 18 directly is dropped in and vacuumizes hole 17 and seal this hole, because what the surface tension of the sealing of molten state heat material 18 caused can eliminate vacuumizing the defective of stopping up insufficient generation in hole 18, the use amount of required sealing heat material 18 can reduce, and manufacturing cost is minimized.

In addition, recess 16 set positions are not limited to aforesaid outer casing bottom 13, also can be located at shoulder 19 places of inner casing 11 or shell body 12, will address as following embodiment.Except as the described curved surface shape of front embodiment recess, the end of recess 16 also can be level or tilt, and to open the shape that vacuumizes hole 17 in recess 18 can be that strip hole or the aperture that forms a line are formed.Vacuumize 17 residing positions, hole and not only be confined to the approximate center of recess 16, also can be near the center.In addition, sealed solid heat material 18 can not be cylindric, as long as its length is greater than the diameter that vacuumizes hole 17, and when its be located at vacuumize hole 17 directly over the time its three-dimensional dimension do not hinder and vacuumize.Also have, the volume of sealing heat material 18 is not limited to the volume that draws from aforementioned three-dimensional dimension, as long as the bulking value of sealing heat material 18 is in following ranges, its minimum volume value makes its thickness be at least 0.1mm and can be topped firmly vacuumize two times of minimum volume value gained diameter in hole 17, the maximum volume value of sealing heat material 18 is no more than the internal volume of recess, thereby external impact can concentration of local.Embodiment 2

The container to be sealed 20 of present embodiment is different from the container to be sealed 10 among the last embodiment, and its bag shape recess 21 is positioned at the shoulder 19 of shell body 12, vacuumize 22 for a short time and be arranged in recess 21, cylindrical seal heat material 18 be located at vacuumize hole 22 directly over.

Because container 20 to be sealed is in vertical state, sealed solid heat material 18 be positioned at vacuumize hole 22 directly over, seal heat material 18 and vacuumize a spacing is arranged between the hole 22, for vacuum seal container 20 to be sealed, container 20 to be sealed is vertically placed, be container mouth up and be located in the vacuum furnace, carry out heating in vacuum then, in this vacuum heating treatment process, at first under the fusion temperature that is lower than sealing heat material 18, cavity 15 is evacuated to a predetermined vacuum through vacuumizing hole 22, then furnace temperature is risen to the fusion temperature that is higher than sealing heat material 18, melt-sealed heat material 18 and make it to be dropped in be positioned at sealing heat material 18 belows vacuumize on the hole 22 or be dropped in vacuumize hole 22 near, because capillarity, be dropped in and vacuumize on the hole 22 and near the heat of the sealing it material 18 is deposited in to vacuumize on the hole 22 and enter and vacuumizes hole 22,18 coolings of the material of sealing heat are afterwards also solidified, and sealing vacuumizes hole 22 reliably.

According to the described manufacture method of present embodiment, except the effect that can obtain previous embodiment, because placing the container to be sealed in the vacuum furnace is that mouth carries out vacuum seal up, the supportive device that in vacuum furnace, supports container to be sealed then not necessarily, this makes the operation of shifting out and inserting container to be sealed from vacuum furnace more simple.Embodiment 3

Fig. 8 to Figure 10 has provided the signal according to the 3rd embodiment of manufacturing metal vacuumed double-wall container method of the present invention, vacuum metal double-walled container described here is a kind of portable thermos bottle, it is to be made of stainless steel inner casing 31 and stainless steel casing 34, both link together, and the cavity 35 between inner casing 31 and the shell 34 constitutes a vacuum thermal insulator layer.

In outer container 34, outer container bottom member 33 closely links with the bottom air-tightness of near cylindrical shell body 32, be pressed into hemispheric recess 40 and be positioned at the approximate center position of outer casing bottom member 33, be drilled with one at the center of recess 40 and vacuumize hole 41 for a short time, the mouth diameter that vacuumizes hole 41 is preferably 0.1-2.0mm.

In order to make this thermos bottle, both link inner pressurd vessel 31 and outer container body 32 in the mouth air-tightness, and outer container bottom member 33 links with outer container body 32 air-tightness simultaneously, constitutes double-walled container A to be sealed (being called double-walled container hereinafter).Next as Fig. 8 and shown in Figure 9, the mouth of double-walled container A down, rod type seal material 42 is located in the recess 40 of outer casing bottom member 33, encapsulant 42 and vacuumize and leave one section space between the hole 41.

Encapsulant 42 is for softening temperature low temperature softening glass o'clock between 200 ℃ to 600 ℃, by B ₂O ₃-PbO, B ₂O ₃-ZnO, PbO-B ₂O ₃-ZnO-SiO ₂, PbO-B ₂O ₃-Al ₂O ₃-SiO ₂, PbO-B ₂O ₃-SiO ₂Or PbO-B ₂O ₃-BaO-SiO ₂The glass for bonding that constitutes can be used as low temperature fusion glass, and particularly the material that has a similar thermal coefficient of expansion with the stainless steel that constitutes double-walled container is best.

In recess 40, establish rod type seal material 42, encapsulant 42 can push recess 40 simply, for preventing the displacement of encapsulant 42, can apply bonding agent at the two ends of encapsulant, be fixed in the recess 40, and the shape of encapsulant 42 is not limited to clavate, also can be other solid shape.

Next, after setting encapsulant 42, double-walled container A is squeezed and is placed in the vacuum furnace, heat when in to stove, vacuumizing, the temperature of heating in vacuum is made as 200 ℃ to 600 ℃, encapsulant 42 is not softening like this, and the gas between inner pressurd vessel 31 and the outer container 34 is drawn out of by vacuumizing hole 41, and taking out straight empty back pressure is 1 * 10 ^-2Torr or be lower than 1 * 10 ^-2Torr, the temperature raising reaches 200 ℃ to 600 ℃ in the stove, this temperature is higher than the softening point of encapsulant 42, encapsulant is softening and vacuumize near the hole being dropped under the effect of own wt to vacuumize on the hole 41 or be dropped in, sealing vacuumizes hole 41, after the vacuum seal, container is shifted out in the stove, its result as shown in figure 10, vacuumize hole 41 by the sealing of low temperature fusion glass sealing material, then obtain stainless steel water bottle (metal vacuumed double-wall container), it has a thermal insulation layer between inner pressurd vessel 31 and outer container 34.

Through this vacuum seal process, double-walled container heats in 200 ℃ to 600 ℃ temperature range, the stainless steel material that constitutes double-walled container is through process annealing, increased its hardness, in view of the above, the stainless thickness that must reach shock resistance and bump requirement can reduce, and container can be done thinlyyer like this.

According to the described method of present embodiment, utilize the low melting glass of softening temperature between 200 ℃ to 600 ℃ to seal vacuumizing the hole as encapsulant, can reduce the vacuum seal temperature than it general welding method, based on this reason, used temperature reduces in the vacuum furnace, cost of equipment reduces, and the manufacturing expense of goods also reduces.The advantage of low melting glass is that adhesive property is without prejudice, even exist under the situation of oxide as the same on the double-walled container surface, this can save the surface of at high temperature heating double-walled container to remove the process of oxide, and the manufacturing expense of making double-walled container like this is minimized.

Further, compare with the conventional method of using microtubule, ground does not have microtubule residue section, product is more compact, and consider seal process, because when in enormous quantities heating in vacuum, need not by manpower because of it is stable, produce easier reaching also in enormous quantities and can reduce labour cost, and consider the process that the space between the interior outer container is vacuumized, because entire container is to heat in a vacuum, container outer surface does not have tangible oxidation, therefore can save the process of last elimination oxide, can reduce cost.

Further see, all vacuumize and seal operation is all carried out between relatively low 200 ℃ to 600 ℃, the stainless steel of formation container or similar material are annealed at low temperatures its hardness are increased, the result, used metal material has higher hardness, container can be done thinlyyer, can reduce the gross weight of vacuumed double-wall container.Embodiment 4

Figure 11 and Figure 12 have provided the signal according to the 4th embodiment of manufacturing metal vacuumed double-wall container method of the present invention, double-walled container B shown in the above-mentioned figure almost has identical structure with Fig. 8 and container shown in Figure 9 and constitutes, in Figure 11 and Figure 12, has identical mark mark with member identical among Fig. 8 and Fig. 9, in Figure 11 and double-walled container B shown in Figure 12, there is a rectangular groove 43 in the centre of the basal surface of container bottom member 33 outside, one seam shape slotted hole, 44 (vacuumizing the hole) are arranged in the bottom of rectangular groove 43, shown in Figure 12, the rod type seal material 42 that is shorter in length than the low temperature fusion glass formation of seam shape slotted hole 44 is located in the rectangular groove 43 of double-walled container B, subsequently as described in the precedent, double-walled container B is placed in the vacuum furnace, be heated to temperature be when vacuumizing and be lower than the softening temperature of encapsulant 42 between 200 ℃ to 600 ℃, vacuumizing back pressure is 1 * 10 ^-2Torr or be lower than 1 * 10 ^-2Torr, temperature is brought up to the softening point temperature that is higher than encapsulant between 200 ℃ to 600 ℃ then, and encapsulant 42 is softened and flows into seam shape slotted hole 44, and sealing seam shape slotted hole 44 then obtains stainless steel hot water bottle (vacuumed double-wall container).Embodiment 5

Figure 13 has provided the signal according to the 5th embodiment of manufacturing metal vacuumed double-wall container method of the present invention, double-walled container C shown in the figure almost has identical structure with Fig. 8 and container shown in Figure 9 and constitutes, among Figure 13 with Fig. 8 and Fig. 9 in identical member have identical mark mark, in double-walled container C shown in Figure 13, shoulder at outer container body 32 has one bag of shape recess 40, has one to vacuumize hole 41 for a short time in recess 40.

Be sealing double-walled container C, the opening of double-walled container C up, put in recess 40 by the rod type seal material 42 that low melting glass constitutes, double-walled container C is placed in the vacuum furnace then, and as described in the precedent, the encapsulant 42 softening temperature that are lower than that furnace temperature is heated between 200 ℃ to 600 ℃ vacuumize, and after vacuumizing, pressure is 1 * 10 ^-2Torr or be lower than 1 * 10 ^-2Torr, temperature in the stove is heated to the softening point temperature that is higher than encapsulant 42 between 200 ℃ to 600 ℃, encapsulant 42 be softened and directly be dropped under the own wt effect vacuumize on the hole 41 or be dropped in vacuumize hole 41 near, after vacuum seal, container is shifted out vacuum furnace, then can obtain stainless steel hot water bottle (vacuumed double-wall container).

Claims (3)

1. method of making metal vacuumed double-wall container, wherein said container is made of the metal inner and outer container, and the space between described inner pressurd vessel and the described outer container is a vacuum heat-insulating layer, it is characterized in that, and this method comprises the following steps:

(a) described inner pressurd vessel and described outer container are connected to form double-walled container, have an elongated slot and to vacuumize seam on the described outer container outer surface, and the described seam that vacuumizes is formed in the described elongated slot abreast;

(b) the bar-shaped encapsulant that the low-melting glass of softening temperature between 200 ℃ to 600 ℃ constituted is located at described vacuumizing abreast and sews on, and described bar-shaped encapsulant is shorter than the described seam that vacuumizes;

(c) described double-walled container is inserted in the vacuum furnace, the cavity between described inner pressurd vessel and the outer container is evacuated being lower than under the softening temperature of described encapsulant;

(d) heat being higher than under the softening temperature of described encapsulant, make described encapsulant fusion and flow into the described hole that vacuumizes, seal the described hole that vacuumizes.

2. according to the method for the described manufacturing metal vacuumed double-wall container of claim 1, it is characterized in that, be provided with a rectangular groove, when vacuumizing when sealing with heating in vacuum in the bottom of the described outer container of described double-walled container, described double-walled container is inverted, and its mouth down.

3. metal vacuumed double-wall container, described container is made of metal inner pressurd vessel and outer container, space between described inner pressurd vessel and described outer container forms a vacuum heat-insulating layer, it is characterized in that, be formed on the encapsulant sealing that the hole is made of the low-melting glass of softening temperature between 200 ℃ to 600 ℃ that vacuumizes on the described outer container.

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