CN209995840U - vacuum cup with cold and hot double-body structure - Google Patents

Abstract

The utility model relates to a thermos cups of cold and hot binary structure, including cup and the bowl cover that is used for the shutoff cup, the cup in be provided with the baffle, cold water district and hot water district are cut apart into with the cup to the baffle, the baffle on set up the through-hole that communicates cold water district and hot water district, the baffle on seted up and hold the chamber, the intracavity sliding connection that holds have the valve block, sliding connection has the button on the outer wall of cup, the button slide and drive valve block shutoff through-hole or separate with the through-hole through link mechanism.

Description

vacuum cup with cold and hot double-body structure

Technical Field

The utility model relates to an kinds of cups, more specifically says that it relates to kind cold and hot binary structures's thermos cup.

Background

At present, the manufacturing level of vacuum thermos cups is higher and higher, and the heat preservation effect is better and better, however, the hot water boiled in cups is poured into the vacuum thermos cups for example, and then is cooled to 65 ℃ for drinking, 3.5 hours are needed when the cup covers are sealed, and 18 minutes are needed when the cup covers are opened, which greatly affects the drinking convenience, and is very inconvenient when people are in a meeting and in an emergency.

SUMMERY OF THE UTILITY MODEL

The utility model discloses not enough to prior art exists, the utility model provides a thermos cup of kinds of cold and hot binary structures through entering into cold water with the hot water, makes cold water gradual change become the warm water, reaches the purpose that can drink the warm water fast.

In order to achieve the purpose, the utility model provides a thermal insulation cup with kinds of cold and hot binary structures, including cup and the bowl cover that is used for the shutoff cup, the cup in be provided with the baffle, the baffle is cut apart into cold water district and hot water district with the cup, the baffle on set up the through-hole that communicates cold water district and hot water district, the baffle on set up and hold the chamber, hold intracavity sliding connection have the valve block, sliding connection has the button on the outer wall of cup, the button slide and drive valve block shutoff through-hole or with the through-hole separation through link mechanism.

By adopting the technical scheme, hot water is injected into the hot water area, and cold water is injected into the cold water area; when warm water is needed to be drunk, the button is slid, the valve plate is moved away from the through hole through the connecting rod mechanism, hot water can enter cold water, the warm water can be obtained in the cold water area, the button is slid again, the valve plate blocks the through hole again through conduction of the connecting rod mechanism, therefore, warm water can be conveniently drunk, under the condition that the hot water is less, the hot water can be injected into the cold water only by inclining the cup body, and the operation is simple and convenient.

The utility model discloses advance step and set up as link mechanism include connecting rod and second connecting rod, connecting rod end articulated with the button, end in addition articulated with the second connecting rod, the second connecting rod rotates to be connected in holding the chamber and make end and valve block fixed connection of keeping away from connecting rod.

Through adopting above-mentioned technical scheme, with the button translation, the th connecting rod takes place to remove, and the second connecting rod is rotatory, makes the second connecting rod drive valve block shutoff through-hole or remove from the through-hole then, and is easy and simple to handle.

The utility model discloses step sets up to be that the outer wall of button on seted up anti-skidding arch.

Through adopting above-mentioned technical scheme, the setting of non-slip raised can be convenient for people's slip button.

The utility model discloses step sets up to be in the hot water district in be provided with the heat preservation, the heat preservation with form the vacuum region between the inner wall in hot water district, the baffle be fixed in the heat preservation be close to the side in cold water district.

Through adopting above-mentioned technical scheme, the setting of heat preservation has reduced hydrothermal heat exchange in the hot water district, slows down hydrothermal cooling efficiency, meanwhile can form great difference in temperature with the cold water district to can obtain the warm water in the longer time, promote the practicality.

The utility model discloses step sets up to, the bowl cover be provided with the sealing layer towards the side of cup, the bowl cover make the sealing layer contradict with the end that the heat preservation is close to the rim of a cup when being connected with the cup.

Through adopting above-mentioned technical scheme, set up the bowl cover on the cup, make the sealing layer contradict with the upper end of heat preservation, promoted the leakproofness between hot water district and the cold water district, slow down the heat exchange, make the hot water in the hot water district can the heat preservation of longer time.

The utility model discloses step sets up as the bowl cover threaded connection in the rim of the cup of cup, the cup on be provided with the screens pearl that is used for making the sealing layer correspond with the heat preservation.

Through adopting above-mentioned technical scheme, rotatory bowl cover when bowl cover contradicts with the screens pearl, the bowl cover makes the sealing layer correspond and contradict with the heat preservation when screwing, has promoted the reliability.

The utility model discloses step sets up to, the through-hole be located the baffle and be close to the end of bottom of cup.

By adopting the technical scheme, the hot water in the hot water area can conveniently flow into the cold water.

The utility model discloses step sets up to be equipped with two at least water inlets on the bowl cover, the water inlet correspond hot water district or cold water district, the bowl cover on be provided with the closing cap that is used for the shutoff water inlet, the closing cap pass through buckle mechanism and be connected with the bowl cover.

Through adopting above-mentioned technical scheme, through opening the closing cap on hot water district or the cold water district, can drink hot water or temperature/cold water, easy and simple to handle, simultaneously, through buckle mechanism's setting, promoted the leakproofness of water inlet.

The utility model discloses advance step and set up as buckle mechanism include backup pad, sloping block and second sloping block, the backup pad be fixed in the closing cap on, the sloping block be fixed in on the lateral wall of backup pad, the second sloping block be fixed in the cup lid on, the closing cap lid establish when on the water inlet the inclined plane conflict on sloping block and the second sloping block.

By adopting the technical scheme, the sealing cover is arranged on the water inlet, the th inclined block is abutted to the inclined plane on the second inclined block, the sealing cover generates an acting force towards the direction close to the water inlet under the guiding action of the inclined plane, so that the sealing effect between the sealing cover and the water inlet is better, the supporting plate is elastically deformed by pulling the sealing cover, and the th inclined block is separated from the second inclined block, so that the sealing cover can be separated from the water inlet.

To sum up, the utility model discloses following beneficial effect has:

injecting hot water into the hot water area, and injecting cold water into the cold water area; when warm water needs to be drunk, the button is slid, the valve plate is moved away from the through hole through the connecting rod mechanism, hot water can enter cold water, the warm water can be obtained in a cold water area, then the button is slid, and the valve plate blocks the through hole again through conduction of the connecting rod mechanism, so that the warm water can be conveniently drunk;

in addition, cold water can be obtained by flowing hot water into the cold water region through the through hole without injecting cold water into the cold water region.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view showing a connection structure of an insulating layer and a partition plate;

FIG. 3 is a schematic view showing the construction of a link mechanism;

FIG. 4 is a schematic view showing the structure of the cup lid;

fig. 5 is a schematic structural view showing the sealing layer.

The reference numbers of the cup body, 11, a cold water area, 12, a hot water area, 2, a cup cover, 21, a sealing layer, 22, a water inlet, 23, a clamping bead, 3, a partition plate, 31, a through hole, 4, a heat insulation layer, 41, a vacuum area, 50, a sealing cover, 5, a clamping mechanism, 51, a supporting plate, 52, an -th inclined block, 53, a second inclined block, 6, an accommodating cavity, 7, a button, 71, an anti-skid protrusion, 8, a connecting rod mechanism, 81, a -th connecting rod, 82, a second connecting rod, 9, a valve plate, 91 and a spring.

Detailed Description

The present invention will be further described in with reference to the accompanying drawings.

As shown in figures 1 to 5, the thermal cup with hot and cold double-body structures comprises a cup body 1 and a cup cover 2 for sealing the cup body 1.

A partition plate 3 and an insulating layer 4 are arranged in a cup body 1, the cup body 1 is divided into a cold water area 11 and a hot water area 12 through the partition plate 3 and the insulating layer 4, a vacuum area 41 is formed between the insulating layer 4 and the inner wall of the hot water area 12, the partition plate 3 is fixed on the side of the insulating layer 4 close to the cold water area 11, the insulating layer 4 is parallel to the height direction of the cup body 1, and the upper end of the insulating layer extends towards the cup mouth direction of the cup body 1.

The side of the cup cover 2 facing the cup body 1 is provided with a sealing layer 21 made of rubber, when the cup cover 2 is tightly connected with the cup body 1 through threads, the sealing layer 21 is abutted against the end of the heat insulation layer 4 close to the cup mouth, and the sealing layer 21 and the heat insulation layer 4 form a sealing structure together, so that heat exchange between the hot water area 12 and the cold water area 11 is reduced.

In order to realize the positioning between the cup cover 2 and the cup body 1, a clamping bead 23 used for enabling the sealing layer 21 to correspond to the heat-insulating layer 4 is arranged on the cup body 1. Contradict with bowl cover 2 at screens pearl 23, bowl cover 2 can't continue to rotate, has promoted the guard action to the screw thread, and meanwhile, sealing layer 21 corresponds and contradicts with heat preservation 4.

For drinking water convenience, the cup cover 2 is provided with two water inlets 22, corresponding to the hot water area 12 and corresponding to the cold water area 11, a sealing cover 50 for sealing the water inlets 22 is hinged to the side of the cup cover 2 opposite to the cup body 1, and the sealing cover 50 is connected with the cup cover 2 through a clamping mechanism 5.

The buckling mechanism 5 comprises a supporting plate 51, an th inclined block 52 and a second inclined block 53, wherein the supporting plate 51 is made of plastics, has fixed elasticity and is fixed on the sealing cover 50, the th inclined block 52 is fixed on the side wall of the supporting plate 51, the second inclined block 53 is fixed on the cup cover 2, when the sealing cover 50 is covered on the water inlet 22, the th inclined block 52 is abutted against the inclined surface on the second inclined block 53, and when the th inclined block 52 is abutted against the inclined surface on the second inclined block 53, the th inclined block 52 generates acting force towards the direction close to the water inlet 22 through the action of extrusion force, so that the sealing plate can be more tightly connected with the water inlet 22, and the situation of water leakage is not easy to generate.

The partition plate 3 is provided with a through hole 31 for communicating the cold water region 11 with the hot water region 12, the through hole 31 penetrates through the heat insulation layer 4, and the through hole 31 is positioned at the end of the partition plate 3 close to the cup bottom.

The partition plate 3 is provided with a Z-shaped accommodating cavity 6, and a valve plate 9 is slidably connected in the accommodating cavity 6; the button 7 is connected on the outer wall of the cup body 1 in a sliding mode, and the button 7 slides and drives the valve plate 9 to block the through hole 31 or be separated from the through hole 31 through the connecting rod mechanism 8.

The link mechanism 8 comprises a th link 81 and a second link 82, wherein the th link 81 is hinged with the button 7, the th link is hinged with the second link 82, the middle part of the second link 82 is rotatably connected with the accommodating cavity 6 through a rotating shaft, and the end far away from the th link 81 is fixedly connected with the valve plate 9.

During the process of pushing the button 7 forward to move, the th connecting rod 81 moves, the second connecting rod 82 rotates along the axis of the rotating shaft, and then the second connecting rod 82 drives the valve plate 9 to block the through hole 31. when the button 7 moves in the reverse direction, the valve plate 9 can be removed from the through hole 31, and hot water can enter cold water.

In order to realize the reset of the button 7, a spring 91 is arranged in the accommodating cavity 6, the end of the spring 91 is connected with the second connecting rod 82, and the end of the spring is connected with the inner wall of the accommodating cavity 6, hot water can be continuously injected into the cold water area 11 in the process of continuously applying force to the button 7, and the spring can reset through the elastic force of the spring 91 when the button 7 is released.

Simultaneously, valve block 9 and the frictional force that holds between the 6 inner walls in chamber and the effort of applying to button 7 make valve block 9 and button 7 fix a position on the optional position, have promoted the practicality.

In order to facilitate the movement of the driving button 7, a plurality of anti-slip protrusions 71 are formed on an outer wall of the button 7.

In addition, it is possible to achieve rapid cooling and obtain cold water by flowing hot water into the cold water region 11 through the through-hole 31 without injecting cold water into the cold water region 11.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The vacuum cup with the cold and hot double-body structure comprises a cup body and a cup cover used for sealing the cup body, and is characterized in that a partition plate is arranged in the cup body and divides the cup body into a cold water area and a hot water area, a through hole communicated with the cold water area and the hot water area is formed in the partition plate, an accommodating cavity is formed in the partition plate, a valve block is connected in the accommodating cavity in a sliding mode, a button is connected on the outer wall of the cup body in a sliding mode, and the button slides and drives the valve block to seal the through hole or separate from the through hole through a connecting rod mechanism.
2. 2. An vacuum cup with dual hot and cold bodies as claimed in claim 1, wherein the linkage comprises a th connecting rod and a second connecting rod, the end of the th connecting rod is hinged to the button, the end of the second connecting rod is hinged to the second connecting rod, the second connecting rod is rotatably connected to the containing cavity, and the end far from the th connecting rod is fixedly connected to the valve plate.
3. 3. A thermos cup with kinds of cold and hot dual-body structures, as claimed in claim 1, wherein the button has an anti-slip protrusion on its outer wall.
4. 4. A thermos cup with kinds of cold and hot dual-body structures according to claim 1, wherein an insulating layer is provided in the hot water region, a vacuum region is formed between the insulating layer and the inner wall of the hot water region, and the partition is fixed to side of the insulating layer near the cold water region.
5. 5. A thermos cup with kinds of cold and hot dual-body structures, as claimed in claim 4, wherein the cover has a sealing layer at side facing the cup body, and the cover and the cup body are connected such that the sealing layer is abutted against end of the insulating layer near the rim of the cup.
6. 6. A thermos cup with kinds of cold and hot dual-body structures, as claimed in claim 5, wherein the lid is screwed to the cup mouth of the cup body, and the cup body is provided with a retaining bead for making the sealing layer correspond to the insulating layer.
7. 7. A thermos cup with kinds of cold and hot dual bodies, according to claim 1, wherein said through hole is located at end of the partition board near the bottom of the cup.
8. 8. A thermos cup with cold and hot double-body structures as claimed in any of claims 1-7 and , wherein the cup cover is provided with at least two water inlets corresponding to the hot water region or the cold water region, and a sealing cover for sealing off the water inlets is arranged on the cup cover and connected with the cup cover through a buckle mechanism.
9. 9. A thermos cup with kinds of cold and hot dual-body structures, as claimed in claim 8, wherein the locking mechanism comprises a supporting plate, a th inclined block and a second inclined block, the supporting plate is fixed on the cover, the th inclined block is fixed on the side wall of the supporting plate, the second inclined block is fixed on the cup cover, and the th inclined block abuts against the inclined surface of the second inclined block when the cover is placed on the water inlet.

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