CN110664195B

CN110664195B - Automatic pouring-closing vacuum cup

Info

Publication number: CN110664195B
Application number: CN201910962911.5A
Authority: CN
Inventors: 肖发鑫
Original assignee: Jinhua Suning Hardware Products Co ltd
Current assignee: Jinhua Suning Hardware Products Co.,Ltd.
Priority date: 2019-10-11
Filing date: 2019-10-11
Publication date: 2021-04-02
Anticipated expiration: 2039-10-11
Also published as: CN110664195A

Abstract

The invention relates to a living product, in particular to an automatic-closing pouring vacuum cup. The invention provides an automatic pouring and sealing vacuum cup capable of automatically and quickly sealing when being touched to pour by mistake. A pouring automatic sealing vacuum cup comprises a cup shell, an inner container, a trigger device for sensing the inclination angle of the vacuum cup and the like, wherein the inner container is connected in the cup shell; according to the invention, the angle of the vacuum cup is monitored in real time by adopting the trigger device which is arranged at the bottom of the heat-preserving cup and used for sensing the inclination angle, so that the sealing device can be controlled to seal the inner container, the flatness of a plane on which the vacuum cup is placed can be detected, and a user can be prevented from being placed on the uneven plane.

Description

Automatic pouring-closing vacuum cup

Technical Field

The invention relates to a living product, in particular to an automatic-closing pouring vacuum cup.

Background

Winter is the season that needs drink hot water, when the user is using the thermos cup that is equipped with hot water, if the temperature degree is higher then difficult to drink, and just need open the thermos cup bowl cover under this kind of condition and make hot water cooling, but the bowl cover is opened and is meant probably taking place the mistake and bumping, makes the thermos cup topple over, and hot water will also pour out, will soak the article of desktop, will scald the human body even more.

According to the problem that the existing vacuum cup is mistakenly bumped and toppled to cause serious consequences, the inclined automatic cover-closing vacuum cup is designed, the vacuum cup can be automatically and quickly sealed when the heat-preserving cup is mistakenly bumped and toppled, hot water in the vacuum cup can not be poured out, and articles and a human body which soak a table top are prevented from being injured.

Disclosure of Invention

In order to overcome the defect that the soaked articles can hurt the human body when the conventional vacuum cup is mistakenly knocked and toppled under the condition of opening the cover, the invention has the technical problems that: provides an automatic pouring and automatic sealing vacuum cup which can automatically and quickly seal when being knocked over by mistake.

The technical scheme of the invention is as follows: a pouring automatic sealing vacuum cup comprises a cup shell, an inner container, a trigger device for sensing the inclination angle of the vacuum cup, a sealing device for controlled opening and closing of the vacuum cup and a connecting rod for conducting mechanical energy between the trigger device and the sealing device, wherein the inner container is connected in the cup shell, the trigger device is arranged at the lower side in the cup shell, the sealing device is arranged above the inner side of the inner container, and the connecting rod is connected between the trigger device and the sealing device; when the vacuum cup is placed on a plane, the trigger device controls the closing device to be in an opening state through the connecting rod, so that the water in the inner container in the vacuum cup can be cooled; when the vacuum cup is in an inclined state due to mistaken touch, the trigger device controls the sealing device to be in a closed state through the connecting rod, so that the inner container is in a closed state in the vacuum cup, and water in the inner container is prevented from being spilled.

Further, the closure device can be placed in an open state when the trigger device is manually triggered.

Further, the triggering devices are distributed in four quadrants at the lower part of the cup shell, the closing devices are distributed in four quadrants in the inner container, the triggering devices correspond to the closing devices in position, and the triggering devices and the closing devices are connected in a staggered and opposite mode through the connecting rods.

Further, the four-quadrant distribution is four directions of a plane coordinate axis which takes the center of the bottom of the cup shell as a coordinate origin.

Further, the triggering device comprises guide sleeves, guide rails, rollers, moving rods and springs, four first through holes are formed in the bottom of the cup shell, four groups of guide sleeves are mounted on the inner wall of the lower portion of the cup shell, the guide rails are connected in the guide sleeves in a sliding mode, the rollers are rotatably connected to the lower sides of the guide rails, the rollers are connected to the upper sides of the guide rails through the first through holes, the moving rods are connected to the upper sides of the guide rails, the other sides of the four groups of moving rods are connected to the lower sides of opposite connecting rods in a staggered mode, the; when the vacuum cup is placed on a plane, the roller is compressed in the first through hole through the guide rail and the spring, the spring is in a compressed state at the moment, the guide rail drives the moving rod to move upwards when the roller moves upwards relative to the cup shell, so that the moving rod drives the connecting rod to move upwards, the connecting rod enables the sealing device to be in an open state, and the water in the inner container is convenient to cool; when the vacuum cup is mistakenly bumped and inclined, a group of rollers which are separated from the ground firstly are separated from the contact with the placing plane, at the moment, the spring connected with the group of rollers is recovered from the compression state, so that the group of rollers is driven to be connected with the guide rail and the moving rod to move downwards, the moving rod connected with the group of rollers drives the connecting rod connected with the moving rod to move downwards, so that the sealing device on one side of the inclined axis of the shell is driven to enter the sealing state, namely, the overflow position of the vacuum cup during inclination is firstly increased, the water overflow of the vacuum cup during inclination is avoided, and when four groups of trigger devices of the vacuum cup are separated from the plane, the sealing devices connected with the four groups of trigger devices all enter the sealing.

Further, the sealing device comprises an installation pipe, an installation box, four groups of installation pipes, installation rods, racks, inclined plates, connecting frames, a rotating shaft, a rotating rod, a baffle plate, waterproof cloth, a gear, sealing rubber and a waterproof plate, wherein the upper part of the inner wall of the inner container is connected with the four groups of installation pipes, the installation box is connected between the installation pipes, the inner wall of the inner container is provided with four groups of second through holes, the four groups of installation pipes are respectively communicated with the four groups of second through holes, the four groups of connecting rods are respectively provided with the translation rods, the four groups of translation rods respectively pass through the four groups of second through holes and the four groups of installation pipes, the four groups of translation rods extend into the installation box, the inner sides of the four groups of translation rods are respectively connected with the installation rods, the racks are respectively connected above the outer sides of the installation rods, the outer sides of the inclined plates are connected to the inner wall of the inner container, the inclined plates, the lower side of the connecting frame is connected with a rotating shaft in an equal rotating mode, the rotating shaft is connected with a rotating rod, the rotating rod extends out of a fourth through hole, the outer side of the rotating rod is connected with a baffle plate, the baffle plate can block the third through hole, waterproof cloth is connected in installation tank walls where the rotating rod and the fourth through hole are located, the rotating shaft is connected with gears, the gears are respectively meshed with racks, the wall of the inner container is provided with four groups of eight empty grooves, the empty grooves are respectively communicated with the second through hole, sealing rubber is connected to the inner sides of the four groups of eight empty grooves, four groups of eight waterproof plates are connected to the upper side and the lower side of the translation rod, the waterproof plates extend; when the connecting rod moves upwards, the connecting rod drives the translation rod to move upwards, the translation rod drives four groups of eight waterproof boards to move upwards, the waterproof boards can prevent water and air in the liner from entering a vacuum layer in the vacuum cup, the translation rod moves upwards to drive the mounting rod to move upwards, so that the rack drives the gear to rotate, the gear drives the rotating shaft, the rotating rod and the baffle to rotate, the baffle is separated from being in contact with the inclined plate, the inner part of the liner is communicated with the outside through the third through hole, and the liner is in an open state; when the connecting rod moves downwards, the fixed rod drives the baffle to rotate through the rack and the gear, the third through hole is blocked by the baffle at the moment, and the inner container enters a closed state at the moment.

Further, the swash plate is annular.

The invention has the following advantages: according to the invention, the angle of the vacuum cup is monitored in real time by adopting the trigger device which is arranged at the bottom of the heat-preserving cup and used for sensing the inclination angle, so that the sealing device can be controlled to seal the inner container, the flatness of a plane on which the vacuum cup is placed can be detected, and a user can be prevented from being placed on the uneven plane; through adopting the cup shell with the mode that multiunit trigger device and multiunit closing device exclusive action that sets up on the inner bag can make this thermos cup improve the overflow position of slope one side when the slope, and water pours out when avoiding this thermos cup slope, also has more openings moreover, facilitates the use this thermos cup.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a cross-sectional view of the present invention.

Fig. 3 is a partial structural schematic diagram of the triggering device of the present invention.

Fig. 4 is a schematic structural view of the closure device of the present invention.

Fig. 5 is a schematic view of a first partial structure of the closure device of the present invention.

Fig. 6 is a schematic view of a second partial structure of the closure device of the present invention.

In the above drawings: 1 … cup shell, 2 … inner container, 3 … trigger device, 4 … closing device, 5 … connecting rod, 31 … first through hole, 32 … guide sleeve, 33 … guide rail, 34 … roller, 35 … moving rod, 36 … spring, 41 … mounting tube, 42 … mounting box, 43 … second through hole, 44 … translation rod, 45 … mounting rod, 46 … rack, 47 … sloping plate, 48 … third through hole, 49 … fourth through hole, 410 … connecting frame, 411 … rotating shaft, 412 … rotating rod, 413 … baffle plate, 414 … waterproof cloth, 415 … gear, 416 … empty slot, 417 … sealing rubber and 418 … waterproof plate.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example 1

The utility model provides a topple over self-sealing thermos cup, as shown in figure 1, figure 2, including cup shell 1, inner bag 2, the trigger device 3 of this thermos cup inclination of sensing, controlled opening and shutting closing device 4 and the conduction of this thermos cup trigger device 3 with mechanical energy connecting rod 5 between the closing device 4, cup shell 1 is used for installing this thermos cup internals and handheld, and inner bag 2 is used for installing this thermos cup internals and adorns water, and trigger device 3 is used for this thermos cup inclination of sensing and reacts, and closing device 4 is used for controlled opening and shutting this thermos cup, and connecting rod 5 is used for the conduction trigger device 3 with mechanical energy between the closing device 4 specifically is:

the cup is characterized in that an inner container 2 is connected in the cup shell 1, a trigger device 3 is arranged on the lower side inside the cup shell 1, a sealing device 4 is arranged above the inner side of the inner container 2, and a connecting rod 5 is connected between the trigger device 3 and the sealing device 4.

In the operation of the embodiment, when the vacuum cup is placed on a plane, the trigger device 3 controls the closing device 4 to be in an opening state through the connecting rod 5, so that the water in the inner container 2 in the vacuum cup can be cooled; when the vacuum cup is in an inclined state due to mistaken touch, the triggering device 3 controls the closing device 4 to be in a closed state through the connecting rod 5, so that the inner container 2 in the vacuum cup is in a closed state, and water in the inner container 2 is prevented from being spilled.

Further, the closing device (4) can be brought into an open state when the triggering device (3) is manually triggered.

Further, the triggering devices 3 are distributed in four quadrants at the lower part of the cup shell 1, the closing devices 4 are distributed in four quadrants inside the liner 2, the triggering devices 3 correspond to the closing devices 4 in position, and the triggering devices 3 and the closing devices 4 are connected in a staggered and opposite manner through the connecting rods 5.

Further, the four-quadrant distribution is four directions of a plane coordinate axis which takes the center of the bottom of the cup shell 1 as a coordinate origin.

Example 2

As shown in fig. 3, the triggering device 3 includes a guide sleeve 32, a guide rail 33, rollers 34, a moving rod 35 and a spring 36, four first through holes 31 are opened at the bottom of the cup shell 1, four sets of guide sleeves 32 are installed on the inner wall of the lower portion of the cup shell 1, the guide rail 33 is connected in the guide sleeve 32 in a sliding manner, the rollers 34 are connected to the lower side of the guide rail 33 in an equal rotating manner, the rollers 34 are connected to the upper side of the guide rail 33 through the first through holes 31, the moving rod 35 is connected to the upper side of the guide rail 33, the other sides of the four sets of moving rods 35 are connected to the lower side of the opposite.

In the above embodiment, when the thermos cup is placed on a plane, the roller 34 is pressed in the first through hole 31 through the guide rail 33 and the spring 36, at this time, the spring 36 is in a stretching state, the guide rail 33 also drives the moving rod 35 to move upwards when the roller 34 moves upwards relative to the cup shell 1, so that the moving rod 35 drives the connecting rod 5 to move upwards, and the connecting rod 5 enables the closing device 4 to be in an opening state, thereby facilitating the cooling of the water in the inner container 2; when the vacuum cup is mistakenly bumped and inclined, a group of rollers 34 which are firstly separated from the ground are separated from the contact with the placing plane, at the moment, the spring 36 connected with the group of rollers 34 is recovered from the stretching state, so that the group of rollers 34 are driven to be connected with the guide rail 33 and the movable rod 35 to move downwards, the movable rod 35 connected with the group of rollers 34 drives the connecting rod 5 connected with the movable rod to move downwards, so that the sealing device 4 on one side of the inclined axis of the shell is driven to enter the sealing state, namely, the overflow position of the vacuum cup during inclination is firstly improved, the water overflow of the vacuum cup during inclination is avoided, and when the four groups of vacuum cup trigger devices 3 are separated from the plane, the sealing devices 4 connected with the four groups of trigger devices 3 are all in the sealing state.

Example 3

As shown in fig. 4, 5 and 6, the sealing device 4 includes a mounting tube 41, a mounting box 42, a translation rod 44, a mounting rod 45, a rack 46, an inclined plate 47, a connecting frame 410, a rotating shaft 411, a rotating rod 412, a baffle 413, a waterproof cloth 414, a gear 415, a sealing rubber 417 and a waterproof plate 418, four sets of mounting tubes 41 are connected to the upper portion of the inner wall of the inner container 2, the mounting box 42 is connected between the mounting tubes 41, four sets of second through holes 43 are formed in the wall of the inner container 2, the four sets of mounting tubes 41 are respectively communicated with the four sets of second through holes 43, the four sets of connecting rods 5 are respectively provided with the translation rod 44, the four sets of translation rods 44 respectively pass through the four sets of second through holes 43 and the four sets of mounting tubes 41, the four sets of translation rods 44 extend into the mounting box 42, the mounting rods 45 are respectively connected to the inner sides of the four sets of translation rods 44, the rack 46 is connected to the outer sides of the, four groups of third through holes 48 are formed in the inclined plate 47, four groups of fourth through holes 49 are formed in the wall of the installation box 42, four groups of connecting frames 410 are connected to the upper side of the inner wall of the installation box 42, rotating shafts 411 are rotatably connected to the lower sides of the connecting frames 410, rotating rods 412 are connected to the rotating shafts 411, the rotating rods 412 extend out of the fourth through holes 49, baffles 413 are connected to the outer sides of the rotating rods 412, the third through holes 48 can be blocked by the baffles 413, waterproof cloth 414 is connected to the inner sides of the installation box 42 where the rotating rods 412 and the fourth through holes 49 are located, gears 415 are connected to the rotating shafts 411, the gears 415 are meshed with the racks 46 respectively, four groups of eight hollow grooves 416 are formed in the wall of the inner container 2, the hollow grooves 416 are communicated with the second through holes 43 respectively, sealing rubber 417 is connected to the inner sides of the four groups of the eight hollow grooves 416, four groups of waterproof plates 418 are connected to the upper side.

In the operation of the above embodiment, when the connecting rod 5 moves upwards, the connecting rod 5 will drive the translation rod 44 to move upwards, the translation rod 44 will drive the four groups of eight waterproof boards 418 to move upwards, the waterproof boards 418 can prevent water and air in the inner container 2 from entering the vacuum layer in the vacuum cup, the translation rod 44 moves upwards to drive the mounting rod 45 to move upwards, so that the rack 46 drives the gear 415 to rotate, so that the gear 415 drives the rotating shaft 411, the rotating rod 412 and the baffle 413 to rotate, at this time, the baffle 413 will be separated from contact with the inclined plate 47, so that the inside of the inner container 2 is communicated with the outside through the third through hole 48, that is, the inner container 2 is in an open state; when the connecting rod 5 moves downwards, the fixed rod drives the baffle 413 to rotate through the rack 46 and the gear 415, at this time, the baffle 413 blocks the third through hole 48, and at this time, the inner container 2 enters a closed state.

Further, the swash plate 47 has a ring shape.

The above description is only an example of the present invention and is not intended to limit the present invention. All equivalents which come within the spirit of the invention are therefore intended to be embraced therein. Details not described herein are well within the skill of those in the art.

Claims

1. A pouring automatic sealing vacuum cup comprises a cup shell (1) and an inner container (2), wherein the inner container (2) is connected in the cup shell (1), and the pouring automatic sealing vacuum cup is characterized by further comprising a trigger device (3) for sensing the inclination angle of the vacuum cup, a sealing device (4) for controlling opening and closing of the vacuum cup and a connecting rod (5) for conducting mechanical energy between the trigger device (3) and the sealing device (4), wherein the trigger device (3) is arranged at the lower side in the cup shell (1), the sealing device (4) is arranged above the inner side of the inner container (2), and the connecting rod (5) is connected between the trigger device (3) and the sealing device (4);

the triggering device (3) comprises a guide sleeve (32), a guide rail (33), rollers (34), a moving rod (35) and a spring (36), four first through holes (31) are formed in the bottom of the cup shell (1), four groups of guide sleeves (32) are installed on the inner wall of the lower portion of the cup shell (1), the guide rail (33) is connected with the guide rail (32) in an inner sliding mode, the lower side of the guide rail (33) is connected with the rollers (34) in an equal rotating mode, the rollers (34) pass through the first through holes (31), the moving rod (35) is connected to the upper side of the guide rail (33), the other sides of the four groups of moving rods (35) are connected to the lower side of the opposite connecting rod (5) in a staggered mode, the spring (36) is connected to;

the sealing device (4) comprises mounting pipes (41), a mounting box (42), translation rods (44), mounting rods (45), racks (46), inclined plates (47), a connecting frame (410), a rotating shaft (411), rotating rods (412), baffles (413), waterproof cloth (414), gears (415), sealing rubber (417) and waterproof plates (418), wherein the upper part of the inner wall of the inner container (2) is connected with four groups of mounting pipes (41), the mounting box (42) is connected between the mounting pipes (41), the wall of the inner container (2) is provided with four groups of second through holes (43), the four groups of mounting pipes (41) are respectively communicated with the four groups of second through holes (43), the four groups of connecting rods (5) are respectively provided with the translation rods (44), the four groups of translation rods (44) respectively pass through the four groups of second through holes (43) and the four groups of mounting pipes (41), the four groups of translation rods (44) extend into the mounting box (42), the inner sides of the four groups of translation rods (44) are respectively connected with the mounting, the upper part of the outer side of the mounting rod (45) is connected with a rack (46), the outer side of the mounting box (42) is connected with an inclined plate (47), the outer side of the inclined plate (47) is connected on the inner wall of the inner container (2), the inclined plate (47) is provided with four groups of third through holes (48), the wall of the mounting box (42) is provided with four groups of fourth through holes (49), the upper side of the inner wall of the mounting box (42) is connected with four groups of connecting frames (410), the lower side of each connecting frame (410) is rotatably connected with a rotating shaft (411), the rotating shaft (411) is connected with a rotating rod (412), the rotating rod (412) extends out of the fourth through holes (49), the outer side of the rotating rod (412) is connected with a baffle (413), the baffle (413) can block the third through holes (48), the rotating rod (412) and the wall of the mounting box (42) where the fourth through holes (49) are located are both connected with waterproof cloth (, four groups of eight empty grooves (416) are formed in the wall of the inner container (2), the empty grooves (416) are communicated with the second through hole (43), sealing rubber (417) is connected to the inner sides of the four groups of eight empty grooves (416), four groups of eight waterproof plates (418) are connected to the upper side and the lower side of the translation rod (44), the waterproof plates (418) extend into the empty grooves (416), and the waterproof plates (418) are in contact with the sealing rubber (417).

2. A pouring and self-sealing cup as claimed in claim 1, characterised in that the closure means (4) is capable of being opened when the trigger means (3) is manually activated.

3. A pouring and self-sealing thermos cup according to claim 2, characterized in that the triggering device (3) is arranged in four quadrants at the lower part of the cup shell (1), the sealing devices (4) are arranged in four quadrants inside the liner (2), the triggering device (3) corresponds to the sealing devices (4), and the triggering device (3) and the sealing devices (4) are connected in a staggered and opposite manner through the connecting rod (5).

4. A pouring self-sealing thermos cup according to claim 3, characterized in that the sloping plate (47) is annular.