CN114889995A - Drink powder storage tank convenient to ration is taken - Google Patents

Abstract

The invention discloses a beverage powder storage tank convenient for quantitative taking, which belongs to the field of powder storage tanks and comprises a tank body and a cover body assembly, wherein a storage space with an open top is formed inside the tank body, the cover body assembly is assembled at the open top of the tank body and used for blocking the open top to enable the storage space to be in a closed state, a partition cylinder with the same height as the tank body is coaxially fixed at the bottom end inside the storage space, the partition cylinder partitions the storage space into a columnar storage cavity and a temperature insulation cavity, a discharging hole is further formed in the center of the bottom of the tank body, and a quantitative discharging mechanism is assembled at the discharging hole. According to the invention, the quantitative discharging mechanism is arranged at the discharging opening at the bottom of the tank body, and the supporting mechanism is arranged, so that a user taking powder can drive the sliding piece to move for many times according to the self requirement to take a proper amount of powder, the taking is convenient, and the problems of moisture and pollution of the powder in the tank body are not easy to happen.

Description

Drink powder storage tank convenient to ration is taken

Technical Field

The invention relates to the field of powder storage tanks, in particular to a beverage powder storage tank convenient for quantitative taking.

Background

Beverage refers to a liquid processed to quench thirst, provide nutrition or refresh for human, such as beverage, milk, coffee, etc. In order to prolong the quality guarantee period of the beverage and meet the drinking taste of different people, the existing beverage processing factory can make the beverage into powder and fill the powder in the storage tank for sealed storage and sale, so that a user can take a proper amount of powder to mix with water for brewing according to the requirement and drink the beverage.

But present drink powder storage tank is mostly all getting the powder through the inside ladle of being equipped with of storage tank when taking the powder, can lead to like this: 1. the powder is inconvenient to take, namely the cover body needs to be opened and extends into the tank body through the spoon to take (in addition, the powder is more inconvenient to take along with the reduction of the powder); 2. the taking amount is inaccurate, namely the powder taken by a user usually exceeds the taking amount of the spoon or is less than the taking amount of the spoon; 3. moist air easily gets into and leads to the powder to wet in the storage tank, 4, because take the powder through the ladle, the ladle easily receives the pollution with the hand contact, and then leads to the powder to receive the pollution when taking.

Disclosure of Invention

The invention aims to provide a beverage powder storage tank convenient for quantitative taking, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides a beverage powder storage tank convenient for quantitative taking, which comprises a tank body and a cover body assembly, wherein a storage space with an open top is formed inside the tank body, the cover body assembly is assembled at the open top of the tank body and used for blocking the open top to enable the storage space to form a closed state, a separation barrel which is as high as the tank body is coaxially fixed at the bottom end inside the storage space, the separation barrel separates the storage space into a columnar storage cavity and a temperature insulation cavity, a discharging hole is further formed in the center of the bottom of the tank body, and a quantitative discharging mechanism is assembled at the discharging hole; quantitative unloading mechanism includes:

the material collecting part is assembled at the bottom end inside the material storage cavity, the outer part of the material collecting part is matched with the material storage cavity and is tightly attached to the inner wall of the material storage cavity, a material collecting cavity with the radius continuously decreasing along the vertical direction is formed inside the material collecting hopper, and the bottom end of the material collecting cavity is connected with a discharging pipe which penetrates through the discharging hole and extends to the outer part of the tank body;

the feeding device comprises a shell connected with a discharging pipe, wherein a strip-shaped feeding cavity is formed inside the shell and is communicated with the discharging pipe;

the sliding piece is arranged in the strip-shaped feeding cavity and can slide along the axial direction of the strip-shaped feeding cavity, and a storage hole which is longitudinally communicated and matched with the blanking pipe is formed in the sliding piece;

the discharging pipe is coaxial with the discharging pipe and is fixed at the bottom of the shell, one side of the discharging pipe is provided with a material guiding inclined pipe with the same inner diameter as that of the discharging pipe, one end of the material guiding inclined pipe is communicated with the discharging pipe, the other end of the material guiding inclined pipe extends to be connected with the bottom of the shell, and the other end of the material guiding inclined pipe is communicated with the strip-shaped feeding cavity;

the driving piece is used for sliding the sliding piece between an initial position and a terminal position, when the sliding piece is positioned at the initial position, the storage hole of the sliding piece is positioned right below the discharging pipe corresponding to the discharging pipe, and when the sliding piece is positioned at the initial position, the storage hole of the sliding piece is positioned at the position where the storage inclined pipe is communicated with the strip-shaped feeding cavity corresponding to the guide inclined pipe;

beverage powder storage tank still includes supporting mechanism, supporting mechanism is including the coaxial end cover of locating jar body bottom to and evenly locate the supporting member between end cover and the jar body along the circumferencial direction when beverage powder storage tank is not used, supporting member can penetrate the inside in thermal-insulated chamber or can be folded and accomodate in the inside of end cover to make end cover axial displacement and laminate in the bottom of the jar body and cover in ration unloading mechanism beverage powder storage tank is when using, supporting member can roll off the inside in thermal-insulated chamber or can straighten the inside that shifts out the end cover, so that the bottom that jar body was kept away from to end cover axial displacement forms bearing structure.

Further, the driving member includes:

the guide structure comprises a fixed ring coaxially fixed at the bottom of the tank body, a sliding groove is formed in the lower surface of the fixed ring, the sliding groove is provided with an arc part and a curve part which are connected with each other, the circle center of the arc part is positioned on the central axis of the fixed ring, one end, far away from the arc part, of the curve part is gradually close to the circle center of the arc part along the extending direction of the curve part, a strip-shaped through groove is formed in the position, corresponding to the sliding groove, of the top of the shell along the extending direction of the slide groove, the guide structure further comprises an inserting rod which is vertically fixed at the top of the sliding part and corresponds to the strip-shaped through groove, and one end, far away from the sliding part, of the inserting rod penetrates through the strip-shaped through groove to extend into the sliding groove;

a first return spring providing damping when the slide moves to a terminal position;

the handle is fixed on the side wall of one end of the shell, one end, far away from the shell, of the handle extends to the edge position of the tank body, a fixed column is fixed at the bottom of the tank body, an included angle is formed between a connecting line of the fixed column and the center of the circle of the bottom of the tank body and the handle when the sliding piece is located at the initial position of the sliding piece, and one side of the handle is attached to the fixed column when the sliding piece is located at the terminal position.

Further, the piece that gathers materials include with the annular bounding wall of storage cavity inner wall laminating and connect in the tapered hopper of annular bounding wall bottom, the annular bounding wall with the inboard that the tapered hopper formed the chamber that gathers materials, and arrange the material pipe with the tapered hopper output can be dismantled and be connected.

Furthermore, a conical net is fixed at the top end inside the material collecting cavity, and reinforcing strips are uniformly arranged on the inner side surface of the conical net along the circumferential direction.

Further, the bottom of tapered fill is provided with the conflict ring, and the lower surface of conflict ring is fixed with along its circumferencial direction that the cross-section is circular-arc fixed strip, the inside bottom of storage cavity is provided with along the circumferencial direction and is used for hitting the part of strikeing of conflict ring, strike the part including corresponding the solid fixed cylinder of conflict ring, the inside longitudinal sliding of solid fixed cylinder is provided with strikes the pole, and strikes the top of pole and have the circular arc head of contradicting in the conflict ring, strikes and is equipped with second reset spring between the bottom of pole and the solid fixed cylinder.

Further, the lid subassembly includes the sealing ring, the sealing ring includes that the cross-section is the first cyclic annular joint portion and the cyclic annular joint portion of second of U type, first cyclic annular joint portion card is located on jar body top lateral wall, the cyclic annular joint portion card of second is located on the lateral wall that separates a section of thick bamboo top, the sealing ring is including connecting the cyclic annular connecting portion between first cyclic annular joint portion and the cyclic annular joint portion of second, form the annular sealed recess between cyclic annular connecting portion, first cyclic annular joint portion and the cyclic annular joint portion of second, the inside of annular sealed recess is provided with sealed cushion, the lid subassembly still including articulate in apron in first cyclic annular joint portion to and the locking ware of assembly between first cyclic annular joint portion and apron, the locking ware with the articulated symmetry setting of department of apron.

Further, the supporting member includes the bracing piece, and the quantity of supporting member is three at least, and three spinal branch vaulting poles run through the diapire of the jar body extends to heat insulation chamber fixedly connected with slip ring, and slip ring and heat insulation chamber sliding connection, supporting mechanism still includes that the symmetry rotates the screw rod that sets up at heat insulation intracavity portion, the screw rod with slip ring threaded connection, just the top of screw rod is passed annular connecting portion are provided with the knob, highly being greater than of sealed cushion the degree of depth of annular seal recess, and sealed cushion corresponds the knob is provided with the hole of stepping down.

Further, the locking ware is including fixing the first fixed block in first cyclic annular joint portion outside and fixing the second fixed block at the apron lateral wall, one side that first cyclic annular joint portion was kept away from to first fixed block is rotated and is provided with the dwang, one side that the dwang is close to the jar body is provided with spacing post, one side that the second fixed block is close to the dwang is provided with circular-arc spacing groove when the dwang rotates, spacing post can circular-arc spacing inslot portion slides, the both ends symmetry of circular-arc spacing groove is provided with the plastics gag lever post.

The invention has the advantages that: quantitative discharging mechanism is arranged at the position of a discharging opening in the bottom of the tank body, and a supporting mechanism is arranged, so that a user who takes powder can drive the sliding piece to move for multiple times according to the self requirement, the powder with proper amount is taken, the taking is convenient, and the powder in the tank body is difficult to damp and pollute.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, are included to provide a further understanding of the invention and to enable other features, objects and advantages of the invention to be more fully apparent. The drawings and their description illustrate the invention by way of example and are not intended to limit the invention. In the drawings:

fig. 1 is a first state structure diagram of the present invention.

Fig. 2 is a second state structure diagram of the present invention.

Fig. 3 is a schematic cross-sectional structure of the present invention.

Fig. 4 is a schematic cross-sectional plan view of the present invention.

Fig. 5 is a partial structural view at a of fig. 1.

Fig. 6 is a partial structural view at B of fig. 3.

Fig. 7 is a partial structural view at C of fig. 3.

Fig. 8 is a partial structural view at D of fig. 3.

Fig. 9 is a partial structural view at E of fig. 4.

Fig. 10 is a partial structural view at F of fig. 4.

Fig. 11 is a schematic view of a separation structure of the sealing rubber gasket of the present invention.

Fig. 12 is a schematic view of the first perspective of the present invention with the can and the septum removed.

Fig. 13 is a schematic view of a second perspective of the present invention with the can and septum removed.

Fig. 14 is a schematic view of the chute structure of the present invention.

In the above figures, 1, a tank body; 2. a cover assembly; 3. opening the mouth; 4. a material storage space; 5. a separating cylinder; 6. a collecting member; 7. a housing; 8. a sliding member; 9. a discharge pipe; 10. a material guiding inclined pipe; 11. a bottom cover; 12. a support member; 14. a chute; 15. a first return spring; 16. a handle; 18. fixing a column; 19. a conical net; 20. a reinforcing strip; 21. a contact ring; 22. a fixing strip; 23. a fixed cylinder; 24. a knock bar; 25. a second return spring; 26. a screw; 27. a knob; 28. a hole of abdication; 29. a slip ring; 30. a first fixed block; 31. a second fixed block; 32. rotating the rod; 33. a limiting column; 34. a circular arc-shaped limiting groove; 35. a limiting rod;

2a, a first annular clamping part; 2b, a second annular clamping part; 2c, an annular connecting part; 2d, sealing the groove in an annular manner; 2e, sealing the rubber gasket; 2f, a cover plate; 4a, a material storage cavity; 4b, a heat insulation cavity; 6a, a material collection cavity; 6b, annular coaming; 6c, a conical hopper; 7a, a blanking pipe; 7b, strip-shaped feeding cavities; 7c, strip-shaped through grooves; 8a, a storage hole; 12a, a support rod; 13a, a fixing ring; 13b, an insert rod; 14a, a circular arc part; 14b, curved portion.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely exemplary of a portion of the invention and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged under appropriate circumstances in order to describe embodiments of the invention herein. Moreover, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "center", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate an orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meanings of these terms in the present invention can be understood by those skilled in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meanings of the above terms in the present invention can be understood by those of ordinary skill in the art according to specific situations.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1-14, the invention provides a beverage powder storage tank convenient for quantitative taking, which comprises a tank body 1 and a cover body assembly 2, wherein a storage space 4 with an open top 3 is formed inside the tank body 1, and the cover body assembly 2 is assembled at the open top 3 of the tank body 1 and used for sealing the open top 3 so as to enable the storage space 4 to be in a closed state. During the use, open lid subassembly 2, fill the beverage powder in storage space 4 inside from the uncovered 3 of jar body 1, be used for the uncovered 3 of shutoff to make through lid subassembly 2 afterwards storage space 4 forms airtight state, seals up the preservation to the beverage powder.

Referring to fig. 3, a separation cylinder 5 with the same height as the tank body 1 is coaxially fixed at the bottom end inside the storage space 4, and the storage space 4 is divided into a columnar storage cavity 4a and a columnar heat insulation cavity 4b by the separation cylinder 5. The storage cavity 4a of the storage space 4 can be stored in the beverage powder, and the heat insulation cavity 4b is positioned outside the storage cavity 4a, so that the heat insulation effect is achieved, and the protection effect is achieved.

In order to better store the beverage powder and improve the packaging aesthetic property of the beverage powder so as to further embody the value of the beverage powder, in the conventional technology, the tank body 1 is mostly adopted to store beverage powder, such as milk powder, five-cereal powder, black sesame powder, coffee powder and the like, when the cup is taken, the cover body component 2 needs to be opened, and the cup body 1 is used for sampling by the spoon arranged in the cup body, so that the cup is not only very inconvenient to use, the beverage powder is affected by inaccurate taking amount, the taste of brewed beverage is affected, and meanwhile, the beverage powder is affected with damp and pollution (the damp reason is that the opening diameter of the cover body component 2 is large, outside air easily enters the tank body 1 to damp the powder, the pollution reason is that a spoon is easy to pollute when being contacted with a hand to take the powder, and the powder is polluted), and the sampling is more inconvenient (the hand needs to be stretched into the tank body 1) along with the reduction of the powder.

Therefore, referring to fig. 3, 4, 7 and 8, a blanking hole is further formed at the center of the bottom of the tank body 1, and a quantitative blanking mechanism is assembled at the blanking hole; the quantitative blanking mechanism comprises a material collecting part 6, a shell 7, a sliding part 8, a discharging pipe 9 and a driving part, which are main components of the quantitative blanking mechanism.

Referring to fig. 4 and 7, the material collecting member 6 is assembled at the bottom end inside the material storage chamber 4a, the outside of the material collecting member 6 is matched with the material storage chamber 4a and tightly attached to the inner wall of the material storage chamber, a material collecting chamber 6a with a radius decreasing continuously along the vertical direction is formed inside the material collecting hopper, and the bottom end of the material collecting chamber 6a is connected with a material discharging pipe 7a which penetrates through the material discharging hole and extends to the outside of the tank body 1. By the design, powder inside the material storage cavity 4a of the tank body 1 can slide to the center of the material collection cavity 6a in a concentrated mode and then is discharged through the discharging pipe 7a, and the situation that part of powder cannot be discharged due to the fact that the powder is reduced is avoided.

Referring to fig. 7, the shell 7 is connected to a blanking pipe 7a, a strip-shaped feeding cavity 7b is formed inside the shell 7, and the strip-shaped feeding cavity 7b is communicated with the blanking pipe 7 a; the sliding piece 8 is arranged in the strip-shaped feeding cavity 7b and can slide along the axial direction of the strip-shaped feeding cavity 7b, and a storage hole 8a which is longitudinally communicated and matched with the blanking pipe 7a is formed in the sliding piece 8; the discharging pipe 9 and the blanking pipe 7a are coaxial and fixed at the bottom of the shell 7, a material guiding inclined pipe 10 with the same inner diameter as that of the blanking pipe 7a is arranged on one side of the discharging pipe 9, one end of the material guiding inclined pipe 10 is communicated with the discharging pipe 9, the other end of the material guiding inclined pipe 10 extends to be connected with the bottom of the shell 7, and the other end of the material guiding inclined pipe 10 is communicated with the strip-shaped feeding cavity 7 b; and the driving part is used for sliding the sliding part 8 from the initial position to the terminal position, when the sliding part 8 is positioned at the initial position, the storage hole 8a of the sliding part 8 is positioned right below the blanking pipe 7a corresponding to the blanking pipe, and when the sliding part 8 is positioned at the initial position, the storage hole 8a of the sliding part corresponds to the position where the material guide inclined pipe 10 is communicated with the strip-shaped feeding cavity.

So designed, the user can slide the sliding member 8 between the initial position to the final position by the driving member, when the sliding piece 8 is positioned at the initial position, the storage hole 8a of the sliding piece 8 is positioned right below the blanking pipe 7a corresponding to the blanking pipe, the powder discharged from the blanking pipe 7a can enter the storage hole 8a, when the sliding piece 8 moves to the terminal position at the initial position, the sliding piece 8 moves the powder stored in the storage hole 8a to one side of the inclined feeding pipe 10, the sliding piece 8 slowly seals the bottom of the discharging pipe 7a along with the movement of the sliding piece 8, when the sliding member 8 moves to the terminal position, the material storage hole 8a of the sliding member 8 corresponds to the position where the material guiding inclined tube 10 is communicated with the strip-shaped feeding cavity 7b, and the powder located in the material storage hole 8a can be discharged into the material discharge tube 9 through the material guiding inclined tube 10 and then discharged through the material discharge tube 9.

It should be noted that the size of the storage hole 8a can be adapted according to the kind of the stored powder, that is, the size of the storage hole 8a can be designed reasonably according to the ratio of the kind of the powder to water, if the powder is milk powder, the storage hole 8a is the volume of the milk powder spoon in the conventional technology, and since the driving member drives the sliding member 8 to complete the process of one reciprocating movement period, the material taking volume is fixed, that is, the volume of the storage hole 8a, the user can complete the multiple movements through the driving member according to the ratio of the powder to select the quantitative powder.

Because the powder is taken through the bottom of the tank body 1, the taken powder can be taken by the taking container conveniently.

Referring to fig. 1-3, therefore, the beverage powder storage tank further includes a supporting mechanism, the supporting mechanism includes a bottom cover 11 coaxially disposed at the bottom end of the tank body 1, and supporting members 12 uniformly disposed between the bottom cover 11 and the tank body 1 along the circumferential direction, when the beverage powder storage tank is not in use, the supporting members 12 can penetrate into the inside of the heat insulating cavity 4b or can be folded and stored in the inside of the bottom cover 11, so that the bottom cover 11 moves axially and is attached to the bottom end of the tank body 1 to cover the quantitative blanking mechanism, and when the beverage powder storage tank is in use, the supporting members 12 can slide out of the inside of the heat insulating cavity 4b or can be extended out of the inside of the bottom cover 11, so that the bottom cover 11 moves axially and is far away from the bottom end of the tank body 1 to form a supporting structure.

When the beverage powder storage tank is not used, namely when the beverage powder storage tank is transported or sold, the bottom cover 11 of the supporting mechanism can be attached to the tank body 1 to cover the quantitative discharging mechanism, the quantitative discharging mechanism is protected, when the beverage powder storage tank is used, namely a user needs to take powder inside the tank body 1, the supporting member 12 of the supporting mechanism can play a role in bearing, the bottom cover 11 is separated from the bottom of the tank body 1, the bottom cover 11 forms a supporting base, the supporting member 12 can form supporting legs, and the user can support a powder receiving container to place the powder below the quantitative discharging mechanism to conveniently receive the powder.

Referring to fig. 7, 10 and 14, in particular, in the present embodiment, the driving member includes:

the guide structure comprises a fixing ring 13a coaxially fixed at the bottom of the tank body 1, a sliding groove 14 is formed in the lower surface of the fixing ring 13a, the sliding groove 14 is provided with an arc portion 14a and a curve portion 14b which are connected with each other, the circle center of the arc portion 14a is located on the central axis of the fixing ring 13a, one end, away from the arc portion 14a, of the curve portion 14b is gradually close to the circle center of the arc portion 14a along the extending direction of the curve portion, a strip-shaped through groove 7c is formed in the position, corresponding to the sliding groove 14, of the top of the shell 7 along the extending direction of the slide groove, the guide structure 13 further comprises an insertion rod 13b which is vertically fixed at the top of the sliding part 8 and corresponds to the strip-shaped through groove 7c, and one end, away from the sliding part, of the insertion rod 13b penetrates through the strip-shaped through groove 7c and extends into the sliding groove 14;

with reference to fig. 4, a first return spring 15, which provides damping when said slide 8 moves towards the end position;

referring to fig. 12, a handle 16 is fixed on a side wall of one end of the housing 7, one end of the handle 16, which is far away from the housing 7, extends to an edge position of the tank 1, a fixed column 18 is fixed at the bottom of the tank 1, a connecting line between the fixed column 18 and a center of the bottom of the tank 1 forms an included angle with the handle 16 when the sliding member 8 is at an initial position, and one side of the handle 16 is attached to the fixed column 18 when the sliding member 8 is at a terminal position.

When the powder is taken, a user can push one end of the handle 16 with a thumb and push the fixed column 18 with a forefinger, a certain action force is applied to move the handle 16 to one side of the fixed column 18, when the handle 16 moves, the shell 7 can be driven to swing along the central axis of the lower material pipe 7a as the rotating shaft to one side of the fixed column 18, the sliding piece 8 in the strip feeding cavity 7b can be driven to swing together along with the swinging of the shell 7, the sliding piece 8 can slide in the sliding groove 14 by the swinging of the sliding piece 8, the inserting rod 13b slides in the sliding groove 14, the sliding process is divided into two processes, the inserting rod 13b slides in the arc of the sliding groove 14 in the first process, at the moment, the sliding piece 8 cannot generate axial displacement, the inserting rod 13b slides in the curve part 14b of the sliding groove 14 in the second process, at the moment, the inserting rod 13b is limited in the strip through groove 7c and can only slide along the length direction of the strip through groove 7c, therefore, the sliding member 8 can slide from the initial position to the terminal position inside the strip-shaped feeding cavity 7b, when the handle 16 is attached to the fixed column 18, the storage hole 8a of the sliding member 8 just corresponds to the position where the material guiding inclined tube 10 is communicated with the strip-shaped feeding cavity 7b, the powder in the storage hole 8a can be discharged into the discharging tube 9 through the material guiding inclined tube 10, and then discharged through the discharging tube 9, so that one-time quantitative feeding is completed, the user can release the handle 16 at this time, and under the action of the first return spring 15, the sliding member 8 is reset and slides in the chute 14 through the inserted rod 13b, so as to drive the shell 7 to reset. The user can repeat the above operations as necessary to obtain the desired amount of powder.

When needing to be noticed, in the first process, when the shell 7 rotates, the material collecting part 6 can be driven to rotate together through the discharging pipe 7a, and in the rotating process of the material collecting part 6, the powder can be promoted to move to the discharging pipe.

Referring to fig. 7-8, further, in this embodiment, the material collecting member 6 includes an annular surrounding plate 6b attached to the inner wall of the material storing cavity 4a and a cone-shaped hopper 6c connected to the bottom of the annular surrounding plate 6b, the annular surrounding plate 6b and the inner side of the cone-shaped hopper 6c form a material collecting cavity 6a, and the material discharging pipe 7a is detachably connected to the output end of the cone-shaped hopper 6 c. So design, when the assembly, can put into storage cavity 4a with 6 jar bodies 1's of gathering materials uncovered 3 inside, then it is connected with the toper fill 6c delivery outlet of 6 of gathering materials to pass the unloading hole with the unloading pipe 7a of casing 7 upper end, this connected mode can be threaded connection, for example, set up the internal thread at the toper fill 6c delivery outlet, be provided with the external screw thread on row material pipe top, also can adopt the welding or adopt the mode of bolt to connect, of course also can adopt other modes to connect.

Considering the powder characteristics, when the powder in the tank body 1 is more, the powder close to the collecting cavity 6a is more compact due to the gravity action of the powder above and the compact powder accumulation, so that the situation that the powder cannot be discharged occurs.

Referring to fig. 7, in the present embodiment, a conical net 19 is fixed to the top end inside the collecting chamber 6a, and reinforcing bars 20 are uniformly arranged on the inner side surface of the conical net 19 in the circumferential direction. With the design, the reinforcing strips 20 can improve the strength of the conical net 19, so that the conical net 19 forms a bearing net to play a role of bearing powder above the collecting cavity 6a, and the powder in the collecting cavity 6a is prevented from being pressed tightly by gravity on the powder in the collecting cavity 6a, so that the powder cannot be discharged, because the powder is dense due to the property of the powder, the powder above the conical net 19 is dense, under the influence of no external force, the powder can not rapidly pass through the meshes of the conical net 19, so that the powder in the collecting cavity 6a is prevented from being compacted, the rapid discharge of the powder is facilitated, and when the collecting part 6 rotates, the conical net 19 can be driven to rotate together, the conical net 19 rotates to scrape the powder above the collecting cavity 6a, so that the powder enters the collecting cavity 6a through the meshes of the conical net 19 to compensate the powder amount discharged by the discharging pipe.

Referring to fig. 9 and 13, in this embodiment, a contact ring 21 is disposed at the bottom of the tapered hopper 6c, a fixing strip 22 with a circular-arc cross section is fixed on the lower surface of the contact ring 21 along the circumferential direction, a striking component for striking the contact ring 21 is disposed at the bottom end inside the storage cavity 4a along the circumferential direction, the striking component includes a fixing cylinder 23 corresponding to the contact ring 21, a striking rod 24 is disposed inside the fixing cylinder 23 in a longitudinal sliding manner, the top end of the striking rod 24 has a circular arc head abutting against the contact ring 21, and a second return spring 25 is disposed between the bottom end of the striking rod 24 and the fixing cylinder 23. The purpose of design so lies in, the rotation in-process of collecting member 6 can drive its bottom conflict ring 21 and rotate together, when the fixed strip 22 of conflict ring 21 lower surface when beating the pole 24, can oppress and beat pole 24 and move down and compress second reset spring 25 then upwards bounce and strike on conflict ring 21 for the vibration takes place for the collecting hopper, thereby accelerates the inside powder of collecting chamber 6a and removes to row's material pipe.

Referring to fig. 1 and 6, in this embodiment, the cover assembly 2 includes a sealing ring, the sealing ring includes a first annular clamping portion 2a and a second annular clamping portion 2b having a U-shaped cross section, the first annular clamping portion 2a is clamped on a side wall of the top of the tank body 1, the second annular clamping portion 2b is clamped on a side wall of the top of the partition cylinder 5, the sealing ring further includes an annular connecting portion 2c connected between the first annular clamping portion 2a and the second annular clamping portion 2b, an annular sealing groove 2d is formed among the annular connecting portion 2c, the first annular clamping portion 2a and the second annular clamping portion 2b, a sealing rubber pad 2e is disposed inside the annular sealing groove 2d, the cover assembly 2 further includes a cover plate 2f hinged on the first annular clamping portion 2a, and a locking device assembled between the first annular clamping portion 2a and the cover plate 2f, the hinged parts of the locking devices and the cover plate 2f are symmetrically arranged. The aim at of so designing, convenient equipment, concrete first cyclic annular joint portion 2a and the cyclic annular joint portion 2b with lid body assembly 2 joint respectively in the lateral wall at 1 top lateral wall of the jar body and 5 tops at a distance from the section of thick bamboo, pass first cyclic annular joint portion 2a and be connected with the lateral wall of the jar body 1 through the screw, can accomplish lid body assembly 2's installation, wherein, sealed cushion 2e can be placed to cyclic annular sealed recess 2d, after closing apron 2f, the lower surface of apron 2f can be contradicted and realize sealedly at sealed cushion 2e, and the locking ware can lock apron 2 f.

Referring to fig. 4, 6, 11, 12 and 13, the support member 12 includes three support rods 12a, and the number of the support members 12 is at least three, the three support rods 12a penetrate through the bottom wall of the tank body 1 and extend to the heat insulation cavity 4b fixedly connected with sliding ring 29, and the sliding ring 29 is connected with the heat insulation cavity 4b in a sliding manner, the support mechanism further includes a screw rod 26 symmetrically and rotatably arranged inside the heat insulation cavity 4b, the screw rod 26 is connected with the sliding ring 29 in a threaded manner, and the top end of the screw rod 26 penetrates through the annular connecting portion 2c and is provided with a knob 27, the height of the sealing rubber gasket 2e is greater than the depth of the annular sealing groove 2d, and the sealing rubber gasket 2e is provided with a relief hole 28 corresponding to the knob 27. The purpose of the design is that the bottom cover 11 is always attached to the bottom of the can body 1 in the transportation and selling processes of the invention, so that the situation that a user opens the bottom cover 11 to drive the quantitative blanking mechanism in the selling process can be prevented, and only when the user purchases the invention, the user opens the cover body to take out the sealing rubber gasket 2e, and simultaneously, the knob 27 is rotated to drive the screw 26 to rotate, so that the sliding ring 29 can move downwards to drive the bottom cover 11 to be far away from the bottom of the can body 1 through the support rod 12 a. When the support device is used, a user can adaptively drive the moving-out distance of the support rod 12a, namely the distance between the bottom cover 11 and the bottom of the tank body 1 according to the size of a self-bearing container, and the use is convenient.

Referring to fig. 5, in this embodiment, the locking ware is including fixing the first fixed block 30 in the first cyclic annular joint portion 2a outside and fixing the second fixed block 31 at apron 2f lateral wall, one side that first fixed block 30 kept away from first cyclic annular joint portion 2a is rotated and is provided with dwang 32, one side that dwang 32 is close to jar body 1 is provided with spacing post 33, one side that second fixed block 31 is close to dwang 32 is provided with circular-arc spacing groove 34 when dwang 32 rotates, spacing post 33 can circular-arc spacing groove 34 inside slides, the both ends symmetry of circular-arc spacing groove 34 is provided with the gag lever post 35 of plastics material. When the cover plate 2f is not used, the limiting column 33 of the rotating rod 32 is limited in the arc-shaped limiting groove 34 by the pair of limiting rods 35, and the cover plate 2f cannot be opened.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The beverage powder storage tank convenient for quantitative taking comprises a tank body and a cover body assembly, wherein a storage space with an open top is formed inside the tank body, the cover body assembly is assembled at the open end of the tank body and used for plugging the open end so as to enable the storage space to form a closed state, and the beverage powder storage tank is characterized in that a partition barrel which is as high as the tank body is coaxially fixed at the bottom end inside the storage space, the partition barrel divides the storage space into a cylindrical storage cavity and an annular heat insulation cavity, a discharging hole is further formed in the center of the bottom of the tank body, and a quantitative discharging mechanism is assembled at the discharging hole; quantitative unloading mechanism includes: the material collecting part is assembled at the bottom end inside the material storage cavity, the outer part of the material collecting part is matched with the material storage cavity and is tightly attached to the inner wall of the material storage cavity, a material collecting cavity with the radius continuously decreasing along the vertical direction is formed inside the material collecting hopper, and the bottom end of the material collecting cavity is connected with a discharging pipe which penetrates through the discharging hole and extends to the outer part of the tank body; the feeding device comprises a shell connected with a discharging pipe, wherein a strip-shaped feeding cavity is formed inside the shell and is communicated with the discharging pipe; the sliding piece is arranged in the strip-shaped feeding cavity and can slide along the axial direction of the strip-shaped feeding cavity, and a storage hole which is longitudinally communicated and matched with the blanking pipe is formed in the sliding piece; the discharging pipe is coaxial with the discharging pipe and is fixed at the bottom of the shell, one side of the discharging pipe is provided with a material guiding inclined pipe with the same inner diameter as the discharging pipe, one end of the material guiding inclined pipe is communicated with the discharging pipe, the other end of the material guiding inclined pipe extends to be connected with the bottom of the shell, and the other end of the material guiding inclined pipe is communicated with the strip-shaped feeding cavity; the driving piece is used for sliding the sliding piece between an initial position and a terminal position, when the sliding piece is positioned at the initial position, the storage hole of the sliding piece is positioned right below the discharging pipe corresponding to the discharging pipe, and when the sliding piece is positioned at the initial position, the storage hole of the sliding piece is positioned at the position where the storage inclined pipe is communicated with the strip-shaped feeding cavity corresponding to the guide inclined pipe; beverage powder storage tank still includes supporting mechanism, supporting mechanism is including the coaxial end cover of locating jar body bottom to and evenly locate the supporting member between end cover and the jar body along the circumferencial direction when beverage powder storage tank is not used, supporting member can penetrate the inside in thermal-insulated chamber or can be folded and accomodate in the inside of end cover to make end cover axial displacement and laminate in the bottom of the jar body and cover in ration unloading mechanism beverage powder storage tank is when using, supporting member can roll off the inside in thermal-insulated chamber or can straighten the inside that shifts out the end cover, so that the bottom that jar body was kept away from to end cover axial displacement forms bearing structure.

2. The powdered beverage storage tank convenient for quantitative access according to claim 1, wherein the driving member comprises: the guide structure comprises a fixed ring coaxially fixed at the bottom of the tank body, a sliding groove is formed in the lower surface of the fixed ring, the sliding groove is provided with an arc part and a curve part which are connected with each other, the circle center of the arc part is positioned on the central axis of the fixed ring, one end, far away from the arc part, of the curve part is gradually close to the circle center of the arc part along the extending direction of the curve part, a strip-shaped through groove is formed in the position, corresponding to the sliding groove, of the top of the shell along the extending direction of the slide groove, the guide structure further comprises an inserting rod which is vertically fixed at the top of the sliding part and corresponds to the strip-shaped through groove, and one end, far away from the sliding part, of the inserting rod penetrates through the strip-shaped through groove to extend into the sliding groove; a first return spring providing damping when the slide moves to a terminal position; the handle is fixed on the side wall of one end of the shell, one end, far away from the shell, of the handle extends to the edge position of the tank body, a fixed column is fixed at the bottom of the tank body, an included angle is formed between a connecting line of the fixed column and the center of the circle of the bottom of the tank body and the handle when the sliding piece is located at the initial position of the sliding piece, and one side of the handle is attached to the fixed column when the sliding piece is located at the terminal position.

3. The beverage powder storage tank convenient for quantitative taking according to claim 2, wherein the collecting part comprises an annular surrounding plate attached to the inner wall of the storage cavity and a cone-shaped hopper connected to the bottom of the annular surrounding plate, the annular surrounding plate and the inner side of the cone-shaped hopper form a collecting cavity, and the discharging pipe is detachably connected with the output end of the cone-shaped hopper.

4. The beverage powder storage tank convenient for quantitative taking according to claim 3, wherein a conical net is fixed at the top end inside the material collecting cavity, and reinforcing strips are uniformly arranged on the inner side surface of the conical net along the circumferential direction.

5. The beverage powder storage tank convenient for quantitative taking according to claim 4, wherein a touch ring is arranged at the bottom of the conical hopper, a fixing strip with a circular arc-shaped cross section is fixed on the lower surface of the touch ring along the circumferential direction of the lower surface of the touch ring, a knocking component for knocking the touch ring is arranged at the bottom end inside the storage cavity along the circumferential direction, the knocking component comprises a fixed cylinder corresponding to the touch ring, a knocking rod is arranged inside the fixed cylinder in a longitudinal sliding manner, a circular arc head abutting against the touch ring is arranged at the top end of the knocking rod, and a second return spring is arranged between the bottom end of the knocking rod and the fixed cylinder.

6. The beverage powder storage tank convenient for quantitative taking according to claim 1, the cover body assembly comprises a sealing ring, the sealing ring comprises a first annular clamping part and a second annular clamping part, the cross section of the first annular clamping part is U-shaped, the first annular clamping part is clamped on the side wall of the top of the tank body, the second annular clamping part is clamped on the side wall of the top of the separating cylinder, the sealing ring comprises an annular connecting part connected between a first annular clamping part and a second annular clamping part, an annular sealing groove is formed among the annular connecting part, the first annular clamping part and the second annular clamping part, the inside of the annular sealing groove is provided with a sealing rubber gasket, the cover body assembly also comprises a cover plate hinged on the first annular clamping part, and the locking device is assembled between the first annular clamping part and the cover plate, and the locking device and the hinged part of the cover plate are symmetrically arranged.

7. The beverage powder storage tank convenient for quantitative taking according to claim 6, wherein the supporting members comprise at least three supporting rods, the three supporting rods penetrate through the bottom wall of the tank body and extend to the thermal insulation cavity to be fixedly connected with a sliding ring, the sliding ring is slidably connected with the thermal insulation cavity, the supporting mechanism further comprises a screw rod which is symmetrically and rotatably arranged inside the thermal insulation cavity, the screw rod is in threaded connection with the sliding ring, the top end of the screw rod penetrates through the annular connecting part to be provided with a knob, the height of the sealing rubber gasket is larger than the depth of the annular sealing groove, and the sealing rubber gasket is provided with a abdication hole corresponding to the knob.

8. The beverage powder storage tank convenient for quantitative taking is characterized in that the locking device comprises a first fixing block fixed on the outer side of the first annular clamping portion and a second fixing block fixed on the side wall of the cover plate, a rotating rod is rotatably arranged on one side, away from the first annular clamping portion, of the first fixing block, a limiting column is arranged on one side, close to the tank body, of the rotating rod, a circular arc-shaped limiting groove is arranged on one side, close to the rotating rod, of the second fixing block, when the rotating rod rotates, the limiting column can slide in the circular arc-shaped limiting groove, and plastic limiting rods are symmetrically arranged at two ends of the circular arc-shaped limiting groove.

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