CN218858972U - Storage assembly and storage equipment - Google Patents

Abstract

The utility model provides a storage assembly and storage equipment. The storage component comprises: the box body comprises a first cavity, an opening and a feed opening, and the opening is used for storing and taking materials; in the height direction of the box body, the feed opening is positioned at the bottom of the first cavity, and the opening is positioned above the feed opening; the box body is communicated with the feed opening; in the direction of height of box, the box body is located first cavity below for collect the material through the feed opening. When the material in the first cavity needs to be emptied, the material in the first cavity can be collected through the feed opening and the box body under the condition that the box body is not turned over, residual material in the first cavity is avoided, and then the residual material collected in the box body can be uniformly discharged by opening the box body or disassembling the box body through a user's accessible, so that the material is emptied. The technical defects of complex operation for emptying materials and poor use experience in the related technology are overcome.

Description

Storage assembly and storage equipment

Technical Field

The utility model relates to a material storage technical field particularly, relates to a storage assembly and storage equipment.

Background

In the related art, the rice bin is used for storing and taking materials through the upper opening, but in the process of cleaning the rice bin, the rice bin needs to be turned over to ensure that the materials do not remain inside, and the turning action needs a user to detach the rice bin from a related product, so that time and labor are wasted.

Therefore, how to overcome the above technical defects becomes a technical problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least.

To this end, the utility model discloses a first aspect provides a storage assembly.

The second aspect of the utility model provides a storage equipment.

In view of this, the utility model discloses the first aspect provides a storage assembly, and storage assembly includes: the box body comprises a first cavity, an opening and a feed opening, and the opening is used for storing and taking materials; in the height direction of the box body, the feed opening is positioned at the bottom of the first cavity, and the opening is positioned above the feed opening; the box body is communicated with the feed opening; in the direction of height of box, the box body is located first cavity below for collect the material through the feed opening.

The present application proposes a magazine assembly which can be arranged directly in the kitchen or can be mounted on a cabinet or a cooking appliance. The storage assembly comprises a box body, a first cavity is formed in the box body and used for storing materials, and the materials can specifically comprise granular food materials such as rice, soybeans and sesames. The box body is also provided with an opening, the opening is arranged at the top of the first cavity and communicated with the first cavity, a user can fill materials into the first cavity through the opening and can take out the materials in the first cavity through the opening.

In the related art, for storage structures such as rice boxes, materials are stored and taken through an opening in the top of the rice box. When the material kind in the rice case needs to be changed, or the rice case needs to be cleaned, the user needs to transfer the upper and lower end of rice case, just can ensure that the material in the rice case is whole to be discharged by the opening, otherwise for example small granule materials such as rice, sesame can remain in rice bottom of the case, can't take out. However, the action of turning the rice bin needs to firstly remove the positioning connection relation between the rice bin and the associated product, so that the user needs to frequently disassemble and assemble and turn over the rice bin to meet the requirements of material changing and cleaning in the process of using the rice bin, and the rice bin has the technical defects of inconvenient operation and poor use experience.

To this, still be formed with the feed opening on the box that this application was injectd, feed opening and first cavity intercommunication, and in the direction of height of box, the feed opening is located first cavity bottom, and the opening is located the feed opening top. On this basis, storage component still is provided with the box body, and the box mouth and the feed opening intercommunication of box body accomplish the assembly back of box body, and in the direction of height of box, the box body is located first cavity below, and the material in the first cavity can be discharged into to the box body via the feed opening under the dead weight effect.

When the material in the first cavity is emptied to needs, can collect the material in the first cavity through feed opening and box body under the condition of not overturning the box, avoid having residual material in the first cavity, user's accessible opens the box body or dismantles the unified discharge of residual material of box body collection thereafter to empty the material.

Therefore, by arranging the feed opening and the box body, a user can empty materials in the first cavity under the condition that the box body is not detached and not turned over, the mixture of residual materials and newly added materials is avoided, and the residual materials are prevented from being adhered to the box body in the process of cleaning the first cavity. Therefore, the technical defects of complex operation and poor use experience of emptying materials in the related technology are overcome. And then realized optimizing storage assembly structure, promoted the storage assembly practicality, for the technological effect of the condition of facilitating of user's provision.

Additionally, the utility model provides an above-mentioned storage component can also have following additional technical characterstic:

in the technical scheme, the box body is detachably arranged outside the box body.

In this technical scheme, the box body is arranged on the outside preset position of box, after installing the box body to preset position, the box mouth and the feed opening of box body are relative, and the material of first cavity can fall into the box body by oneself under the dead weight. On this basis, the box body can be dismantled, when the residual material in the box body needs to be emptyd, pull down the box body by preset position, adorn preset position again after accomplishing empting of material. Arrange the box body and can provide convenient condition for the dismouting box body in the box outside, reduce the box body and interfere the possibility with the box body at the dismouting in-process. And then realize optimizing box body structural layout, promote user operation experience's technological effect.

In any one of the above technical solutions, the magazine assembly further includes: the box body is arranged on the base, and the box body is arranged in the base.

In this technical scheme, storage assembly still is provided with the base, and box detachably sets up in the base top, and the base is used for supporting and location base, can prevent the storage case slope or collapse to guarantee that the storage case can accurately install on associated product. On the basis, the box body is detachably arranged in the base.

Through arranging the box body in the base, can play the effect of hiding the box body on the one hand to avoid exposing the box body outside and bring sharp sensation, thereby promote the uniformity of storage component outward appearance. On the other hand, the base can play the effect of protection box body, can reduce the box body because of the possibility that the collision drops through resisting the impact. On the other hand, the arrangement mode can reasonably utilize the inner space of the base and improve the structural compactness of the storage assembly, so that convenience is provided for the miniaturization design of the storage assembly.

In any one of the above technical schemes, the base comprises a mounting groove facing the feed opening, and the box body is arranged in the mounting groove.

In this technical solution, a positioning and mounting manner of the cartridge on the base is explained in connection with the above technical solution. Specifically, a mounting groove is formed in the base, the shape of the mounting groove is matched with the shape of the outer contour of the box body, and the box body can be embedded into the mounting groove. Wherein, after the assembly of the box body on the base is completed, the mounting groove faces the feed opening, after the assembly of the box body on the base is completed, the box opening of the box body is communicated with the feed opening, and at the moment, the material in the first cavity can be discharged into the box body through the feed opening.

Through setting up the mounting groove, can realize the built-in of box body on the one hand, on the other hand can carry on spacingly to the box body with the help of the mounting groove, reduces the box body and takes place the possibility of dislocation because of factors such as vibration to guarantee the reliability that the box body was collected to remaining material, avoid remaining material to leak outside the box body. Thereby realizing the technical effects of improving the reliability of the storage component and reducing the failure rate of the storage component.

In any one of the above technical schemes, the base further comprises a dismounting opening, the dismounting opening is communicated with the mounting groove, and the box body can penetrate through the dismounting opening.

In this technical scheme, still be formed with the dismouting mouth on the base, dismouting mouth and mounting groove intercommunication, and the orientation of dismouting mouth is different with the orientation of mounting groove. Specifically, an installation groove facing upward may be provided, and a mounting/dismounting hole facing the circumferential side of the base may be provided. Wherein, the size of dismouting mouth is greater than the size of box body, and the dismouting mouth can be run through to the box body.

Through setting up the dismouting mouth, make the box body can pack into the mounting groove through the dismouting mouth, or tear open out in by the mounting groove through the dismouting mouth. Thereby make the user can accomplish the dismouting action and the material of box body and empty the action on the basis of not operating the box, make the material empty the operation and be independent of material access operation. And then realize promoting storage assembly operation convenience, promote the technological effect that the user used and experienced.

In any one of the above technical solutions, the magazine assembly further includes: and the switch mechanism is arranged on the base and used for opening or closing the feed opening.

In this technical scheme, storage assembly still is provided with on-off mechanism, and on-off mechanism installs on the base, and on-off mechanism can be through the break-make state of self action control feed opening to open or close the feed opening.

Under the storage state, switching mechanism closes the feed opening, when the inside material of box body need be emptyd, moves out the big batch material in first cavity by the opening through structures such as shovel, graduated flask earlier. And then, the switch mechanism is controlled to open the feed opening, so that residual materials which cannot be taken out by the shovel and the measuring cup in the first cavity automatically fall into the box body through the feed opening. The box body can be detached from the base subsequently to pour the residual materials in the box body. Finally, the box body is installed to the bottom of the feed opening again, and the feed opening is closed again by the control switch mechanism, so that the box body is prevented from being filled with the materials in the first cavity, and the effectiveness of the box body in collecting the residual materials is guaranteed.

Therefore, the opening and closing of the box body collection function can be controlled by means of the switch mechanism through the switch mechanism, so that the box body and the feed opening can be communicated in time when residual materials need to be collected, and the box body and the feed opening can be blocked in time when the residual materials do not need to be collected. And then realize promoting the technical effect of storage component controllability, promotion storage component practicality.

In any of the above technical solutions, the switch mechanism includes: the baffle is arranged on the base and can move relative to the base, and the baffle comprises a first position and a second position; under the first position, the baffle covers the feed opening; and under the second position, the baffle avoids the feed opening.

In this embodiment, a structure of the switch mechanism will be described. Specifically, the switch mechanism comprises a baffle plate, the baffle plate is installed on the base, and the baffle plate can move relative to the base. Wherein the baffle has a first position and a second position. When the baffle was located the first position, the baffle closed the feed opening in the below lid of feed opening to block the intraoral material of feed opening through the baffle, avoid the material to get into the box body. Correspondingly, when the baffle is located the second position, the feed opening is kept away to the baffle to make the feed opening communicate box body inner space, the material alright get into the box body smoothly this moment.

Therefore, the on-off state of the feed opening can be controlled by arranging the baffle and controlling the baffle to reciprocate between the first position and the second position. The structure form that blocks the feed opening through the baffle is simple and effective, can compress storage component's manufacturing cost on the basis that satisfies feed opening switch demand.

In any of the above technical solutions, the switch mechanism further includes: the key is connected with the base in a sliding mode, and the baffle is connected with the key.

In this technical scheme, on the one hand, the key can slide along the extending direction of the sliding groove, on the other hand, the key can be limited by the sliding groove, and the key is prevented from moving in directions other than the sliding direction. The tail end of the key is connected with the plate, and the key sliding relative to the base drives the plate to move synchronously, so that a user can adjust the position of the plate through operating the key.

Can provide convenient condition for user operation switching mechanism through setting up the button, remove the complicated operation that the user explored into the inside push-and-pull plate of base from, and then realize promoting the technological effect that the user used and experienced.

In any of the above technical solutions, the switch mechanism further includes: the first end of the elastic piece is connected with the base, and the second end of the elastic piece is connected with the baffle and/or the key for driving the baffle to reset to the first position.

In this technical scheme, switch mechanism still is provided with the elastic component, and the first end and the pedestal connection of elastic component specifically can fix the first end of elastic component in the jack on the base, and the second end and the baffle or the button of elastic component are connected, specifically can set up the reference column on the baffle, cup joints the second end of elastic component on the reference column.

When the plate is located at the first position, the elastic piece is in a tensioning state so as to keep the plate at the first position. When a user presses the key, the plate is pushed away from the first position along with the key until the plate is pushed to the second position, and the elastic piece deforms and accumulates elastic potential energy in the process. After the collection of the residual materials is completed, the user removes the pressing of the key, and the elastic piece releases elastic potential energy to drive the plate to reset to the first position and simultaneously pop up the key from the base.

Therefore, the elastic piece is arranged, so that the opening and closing mechanism can automatically close the feed opening, the leakage of materials from the feed opening in the conventional use process is avoided, and the box filled with the leaked materials is prevented from losing the due residual material collecting capacity. And then realized optimizing on-off mechanism structure, promoted the storage component practicality, reduced the technical effect of storage component fault rate.

In any one of the above technical solutions, the magazine assembly further includes: the positioning part is arranged on the box body and comprises a slot; the convex rib is arranged on the box body and surrounds the box opening of the box body, and the convex rib is inserted in the slot.

In this technical scheme, the box body can be dismantled with the box and be connected. Specifically, the bottom of the box body is provided with a positioning portion, the positioning portion is arranged on the periphery of the feed opening, and a slot is formed in the positioning portion. Correspondingly, the surrounding convex ribs are arranged around the box opening of the box body, and the shape of the slot is matched with the shape of the outer contour of the convex ribs. In the process of installing the box body, the convex ribs are aligned and inserted into the slots, so that the box body and the box body can be connected together. Otherwise, when the box body needs to be disassembled, the convex rib is pulled out from the slot.

Through setting up this slot and protruding muscle structure, can further promote the positioning accuracy of box body to ensure that the box body can accurately be installed to preset position, the box body of avoiding the dislocation installation can't effectively collect the remaining material in the first cavity, and then realizes promoting the technological effect of storage component reliability. Meanwhile, the structural complexity of the slots and the convex ribs is low, and the production cost of the storage component can be reduced on the basis of meeting the positioning effect.

In any one of the above technical solutions, the magazine assembly further includes: the spacing portion is located location portion, box body and spacing portion butt, and spacing portion is used for providing spacingly to the box body on the extending direction of slot.

In this technical scheme, accept aforementioned technical scheme, still be provided with spacing portion on the location portion, spacing portion is connected with the location portion, is located the terminal of slot. In the process of installing the box body, the convex rib is pushed to the tail end of the slot from the inlet end of the slot until the convex rib is abutted against the limiting part to complete assembly. The sliding installation stroke of the box body can be limited by arranging the limiting part, and the box body is prevented from sliding through a preset position. And then realize promoting box body assembly precision, ensure the box body can effectively collect the inside residual material's of first cavity technological effect.

In any of the above technical solutions, the box further includes a second cavity, the second cavity is located below the first cavity in the height direction of the box, and the feed opening communicates the first cavity and the second cavity; the box body is detachably arranged in the second cavity.

In this technical scheme, be different from aforementioned technical scheme, the box body sets up inside the box. Specifically, a second cavity is formed in the box body, the second cavity is located below the first cavity, and the feed opening is communicated with the first cavity and the second cavity. On the basis, the shape of the second cavity is matched with the shape of the outer contour of the box body, the box body is embedded in the second cavity, and materials remaining in the first cavity enter the box body placed in the second cavity through the feed opening. Wherein, the box body can run through the opening, when the first cavity is emptied to needs, earlier remove the big batch material in the first cavity through shovel or graduated flask, take out the box body in by the second cavity after that to take out outside the box from the opening. And after the residual materials in the box body are poured out, the box body is placed into the second cavity again from the opening.

Compare in the technical scheme of external box body, through arranging the box body in the box, can eliminate the structure butt joint clearance between box body and the box, avoid the material to have the butt joint clearance to leak outside the storage component, can also prevent outside moisture and pollutant to have the butt joint clearance to get into first cavity. And then realized promoting the technological effect of storage component security and reliability.

In any one of the above technical solutions, the magazine assembly further includes: the limiting groove is arranged in the box body, is communicated with the second cavity and is positioned on the periphery of the second cavity; the limiting ribs are arranged on the box body and are positioned in the limiting grooves.

In the technical scheme, a limiting groove is further formed in the box body, the limiting groove is communicated with the second cavity, and the limiting groove surrounds the second cavity. Correspondingly, the peripheral side surface of the box body is provided with a limiting rib, the limiting rib and the limiting groove are arranged oppositely, and the number and the arrangement mode are consistent. In the process of installing the box body, the limiting rib is firstly aligned to the limiting groove, and then the box body is pressed into the second cavity, so that the limiting rib slides into the limiting groove to complete assembly.

Through setting up spacing groove and spacing muscle, can play the guide effect on the one hand, ensure that the gesture of the box body of packing into is accurate, reduce the probability of box body misloading. On the other hand, the limiting groove and the limiting ribs can play a role in positioning the box body, the box body is prevented from moving in the second cavity due to factors such as vibration, and the materials are prevented from falling into a gap generated by the movement of the box body. And then realize optimizing box body location structure, reduce the box body assembly degree of difficulty, promote box body positioning accuracy's technological effect.

In any one of the above technical solutions, the magazine assembly further includes: the handle is connected with the box body, and part of the handle is positioned in the first cavity.

In the technical scheme, the storage assembly is further provided with a handle, and the handle is installed on the box body and protrudes out of the top of the box body. After the cartridge is mounted to the second cavity, a portion of the handle extends into the first cavity. When the second box body needs to be detached, a user can pull the box body out of the second cavity by holding the handle.

It follows that by providing a handle, a user can be provided with a point of effort that can extend to the first cavity, so that the user can pull on the cartridge. And then realize reducing the box body and dismantle the degree of difficulty, promote the technological effect of storage assembly practicality.

The utility model discloses the second aspect provides a storage equipment, and storage equipment includes: a cabinet body; the drawing frame is connected with the cabinet body in a sliding manner; like the magazine assembly among any technical scheme above, the box is connected with the pull frame.

In this technical scheme, limited one kind and been provided with the storage component's among the above-mentioned any technical scheme storage equipment, consequently this storage equipment possesses the advantage of the storage component among the above-mentioned any technical scheme, can realize the technical effect that the storage component among the above-mentioned any technical scheme can realize, for avoid repetition, here is no longer repeated.

On this basis, storage equipment still includes the cabinet body, and the internal cavity that is formed with and deposits storage assembly of cabinet, and cabinet body surface is formed with the through-hole of intercommunication cavity. The drawing frame is used for connecting the cabinet body, and after the assembly of the drawing frame is completed on the cabinet body, the drawing frame can slide relative to the cabinet body through drawing action. The box body is arranged on the drawing frame and can synchronously move along with the drawing frame. The drawing frame is connected with the cabinet body in a sliding mode, when the box body needs to be disassembled and assembled or materials are added temporarily, the material storage assembly can be drawn out of the cavity through the through hole through drawing action, and therefore the box body can be disassembled and assembled conveniently and materials can be added conveniently. After the disassembly and assembly and the material addition are completed, the material storage assembly can be pushed into the cavity to accommodate the box body.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 illustrates one of the schematic structural views of a magazine assembly according to one embodiment of the present invention;

fig. 2 shows a second schematic view of the magazine assembly according to an embodiment of the present invention;

FIG. 3 illustrates a third schematic structural view of a magazine assembly according to an embodiment of the present invention;

fig. 4 shows a schematic structural view of a case according to an embodiment of the present invention;

fig. 5 shows a schematic structural view of a base according to an embodiment of the invention;

FIG. 6 shows a fourth schematic of the configuration of a magazine assembly according to an embodiment of the present invention;

fig. 7 shows a schematic structural view of a switching mechanism according to an embodiment of the present invention;

FIG. 8 shows a fifth schematic view of a magazine assembly according to an embodiment of the present invention;

fig. 9 shows a schematic structural view of the elastic member according to an embodiment of the present invention;

FIG. 10 shows a sixth schematic view of a magazine assembly according to an embodiment of the present invention;

fig. 11 shows a seventh schematic view of a magazine assembly according to an embodiment of the present invention;

fig. 12 shows one of the schematic structural views of the cartridge according to an embodiment of the present invention;

fig. 13 shows a second schematic structural view of a cartridge body according to an embodiment of the invention;

fig. 14 shows an eighth schematic view of a magazine assembly according to an embodiment of the present invention;

figure 15 shows nine of the schematic structural views of a magazine assembly according to one embodiment of the present invention;

fig. 16 shows a tenth schematic of a magazine assembly according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 16 is:

100 of a material storage component, 110 of a box body, 112 of a first cavity, 114 of an opening, 116 of a feed opening, 118 of a second cavity, 120 of a box body, 122 of a convex rib, 124 of a limit rib, 126 of a handle, 130 of a base, 132 of an installation groove, 134 of a disassembly and assembly opening, 136 of a sliding groove, 140 of a switch mechanism, 142 of a baffle, 144 of a key, 146 of an elastic element, 150 of a positioning part, 152 of a slot and 154 of a limit part.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The following describes a magazine assembly and a magazine apparatus according to some embodiments of the present invention with reference to fig. 1 to 16.

Example one

As shown in fig. 1, fig. 2 and fig. 4, an embodiment of the first aspect of the present invention provides a storage assembly 100, including: a box body 110, including a first cavity 112, an opening 114 and a feed opening 116, wherein the opening 114 is used for storing and taking materials; in the height direction of the box body 110, the feed opening 116 is located at the bottom of the first cavity 112, and the opening 114 is located above the feed opening 116; a box body 120 communicated with the feed opening 116; the box body 120 is located below the first chamber 112 in a height direction of the case 110, for collecting the material through the feed opening 116.

The present application is directed to a magazine assembly 100, which magazine assembly 100 may be disposed directly in a kitchen or may be mounted on a cabinet or cooking device. The storage assembly 100 comprises a box body 110, a first cavity 112 is formed in the box body 110, the first cavity 112 is used for storing materials, and the materials can specifically comprise granular food materials such as rice, soybeans and sesame. The box body 110 further has an opening 114 formed thereon, the opening 114 is disposed at the top of the first cavity 112 and is communicated with the first cavity 112, so that a user can fill the first cavity 112 with materials through the opening 114 and can take out the materials in the first cavity 112 through the opening 114.

In the related art, for storage structures such as rice boxes, materials are stored and taken through an opening in the top of the rice box. When the material kind in the rice case needs to be changed, or the rice case needs to be cleaned, the user needs to transfer the upper and lower end of rice case, just can ensure that the material in the rice case is whole to be discharged by the opening, otherwise for example small granule materials such as rice, sesame can remain in rice bottom of the case, can't take out. However, the action of turning the rice bin needs to remove the positioning connection relation between the rice bin and the associated product, so that the user needs to frequently disassemble and assemble and turn over the rice bin to meet the requirements of changing materials and cleaning in the process of using the rice bin, and the rice bin has the technical defects of inconvenient operation and poor use experience.

In this regard, a feed opening 116 is further formed on the box body 110 defined in the present application, the feed opening 116 is communicated with the first cavity 112, and in the height direction of the box body 110, the feed opening 116 is located at the bottom of the first cavity 112, and the opening 114 is located above the feed opening 116. On the basis, the magazine assembly 100 is further provided with a magazine body 120, a magazine opening of the magazine body 120 is communicated with the feed opening 116, after the assembly of the magazine body 120 is completed, the magazine body 120 is located below the first cavity 112 in the height direction of the box body 110, and the material in the first cavity 112 can be discharged into the magazine body 120 through the feed opening 116 under the self-weight effect.

When the material in the first cavity 112 needs to be emptied, the material in the first cavity 112 can be collected through the feed opening 116 and the box 120 without turning over the box 110, so as to avoid the residual material in the first cavity 112, and then the user can open the box 120 or detach the box 120 to discharge the residual material collected in the box 120 uniformly, thereby emptying the material.

Therefore, by arranging the feeding opening 116 and the box body 120, a user can empty the materials in the first cavity 112 without disassembling the box body 110 and turning over the box body 110, so that the residual materials are prevented from being mixed with the newly added materials, and the residual materials are prevented from being adhered to the box body 110 in the process of cleaning the first cavity 112. Therefore, the technical defects of complex operation and poor use experience of emptying materials in the related technology are overcome. And then realized optimizing storage assembly 100 structure, promoted storage assembly 100 practicality, for the technical effect of the convenient condition of user's offering.

The bottom of the first cavity 112 is a funnel shape, and the feed opening 116 is located at the bottom of the funnel shape. Through setting up the bottom surface of leaking hopper-shaped, make the material can be under the dead weight effect along the bottom surface automatic sliding feed opening 116 of first cavity 112, the dead angle that can pile up the material appears in avoiding first cavity 112 to promote feed opening 116 and box body 120 to the collection effect of residual material, reduce the possibility of residual material in first cavity 112.

Further, the tray 120 may be hinged to the case 110, and when it is desired to pour the residue collected in the tray 120, the residue may be poured out of one side of the tray 120 by turning the tray 120. The box body 120 can be further provided with a discharge hole, and the connection and disconnection of the discharge hole are controlled through a rubber plug, a turnover door and other controllable switch structures so as to discharge residual materials through the discharge hole. In addition, the box body 120 can be detachably arranged below the first cavity 112, and when the residual materials need to be poured, the box body 120 can be directly detached, so that the residual materials can be poured conveniently. Therefore, the technical scheme does not make rigid limitation on the specific positioning connection form of the box body 120, and the requirement of residual material collection is met.

As shown in fig. 1, 2, 14 and 15, in the above-described embodiment, the case 120 is detachably provided outside the case 110.

In this embodiment, the box 120 is disposed at a predetermined position outside the box 110, and after the box 120 is mounted at the predetermined position, the opening of the box 120 is opposite to the feeding opening 116, and the material in the first cavity 112 can fall into the box 120 by itself under its own weight. On this basis, box body 120 can be dismantled, when the residual material in box body 120 needs to be emptyd, pulls down box body 120 by predetermined position, and the predetermined position is installed again after accomplishing empting of material. Arranging cassette 120 outside case 110 may provide convenient conditions for disassembling cassette 120, reducing the possibility that cassette 120 interferes with case 110 during the disassembling process. Further, the structural layout of the box body 120 is optimized, and the technical effect of user operation experience is improved.

As shown in fig. 3 and 14, in any of the above solutions, the magazine assembly 100 further includes: base 130, case 110 is disposed on base 130, and case 120 is disposed in base 130.

In this embodiment, the magazine assembly 100 is further provided with a base 130, the box body 110 is detachably disposed above the base 130, and the base 130 is used for supporting and positioning the base 130, so as to prevent the magazine from inclining or collapsing, and ensure that the magazine can be accurately mounted on the associated product. On this basis, the cassette 120 is detachably disposed in the base 130.

By arranging the magazines 120 within the base 130, one aspect may be to hide the magazines 120 to avoid creating a sharp appearance for the magazines 120 that are exposed, thereby improving the consistency of the appearance of the magazine assembly 100. On the other hand, the base 130 may protect the case 120, and may reduce the possibility that the case 120 may be separated from the case due to collision by resisting impact. On the other hand, the arrangement can reasonably utilize the internal space of the pedestal 130, and improve the compactness of the magazine assembly 100, thereby providing convenience for the miniaturization design of the magazine assembly 100.

As shown in fig. 1 and 5, in any of the above solutions, the base 130 includes a mounting groove 132, the mounting groove 132 faces the feeding opening 116, and the box body 120 is disposed in the mounting groove 132.

In this embodiment, the positioning and mounting manner of the cartridge 120 on the base 130 will be described in connection with the above-described embodiment. Specifically, a mounting groove 132 is formed in the base 130, the shape of the mounting groove 132 is adapted to the outer contour shape of the box 120, and the box 120 can be inserted into the mounting groove 132. After the assembly of the box body 110 on the base 130 is completed, the mounting groove 132 faces the feed opening 116, and after the assembly of the box body 120 on the base 130 is completed, the opening of the box body 120 is communicated with the feed opening 116, so that the material in the first cavity 112 can be discharged into the box body 120 through the feed opening 116.

Through setting up mounting groove 132, the built-in of box body 120 can be realized on the one hand, and on the other hand can carry on spacingly to box body 120 with the help of mounting groove 132, reduces box body 120 because of the possibility that factors such as vibration take place the dislocation to guarantee box body 120 to the reliability that residual material collected, avoid residual material to leak outside box body 120. Thereby realizing the technical effects of improving the reliability of the storage assembly 100 and reducing the failure rate of the storage assembly 100.

As shown in fig. 3 and 5, in any of the above solutions, the base 130 further includes a mounting/dismounting opening 134, the mounting/dismounting opening 134 is communicated with the mounting groove 132, and the cartridge 120 can pass through the mounting/dismounting opening 134.

In this embodiment, the base 130 is further formed with a mounting/dismounting opening 134, the mounting/dismounting opening 134 is communicated with the mounting groove 132, and the orientation of the mounting/dismounting opening 134 is different from the orientation of the mounting groove 132. Specifically, the mounting groove 132 may be provided to face upward, and the attaching/detaching opening 134 may be provided to face the circumferential side of the base 130. Wherein, the size of the opening 134 is larger than the size of the box 120, and the box 120 can penetrate through the opening 134.

By providing the opening 134, the box 120 can be inserted into the mounting groove 132 through the opening 134, or can be removed from the mounting groove 132 through the opening 134. Therefore, the user can finish the dismounting and mounting actions and the material dumping actions of the box body 120 on the basis of not operating the box body 110, and the material dumping operation is independent of the material storing and taking operation. And further realize promoting the storage assembly 100 operation convenience, promote the technical effect that the user used the experience.

Specifically, the box 120 can be accurately positioned in the mounting groove 132 by a snap and a card slot, so as to prevent the box 120 from moving towards the direction of the dismounting hole 134 during the working process.

As shown in fig. 1, fig. 2 and fig. 6, in any of the above solutions, the magazine assembly 100 further includes: the opening and closing mechanism 140 is disposed on the base 130 and is used for opening or closing the feed opening 116.

In this embodiment, the magazine assembly 100 is further provided with a switch mechanism 140, the switch mechanism 140 is installed on the base 130, and the switch mechanism 140 can control the on-off state of the feed opening 116 through its own action, so as to open or close the feed opening 116.

In a storage state, the opening and closing mechanism 140 closes the feed opening 116, and when the materials in the box body 120 need to be poured, the large batch of materials in the first cavity 112 are moved out from the opening 114 through a shovel, a measuring cup and other structures. Thereafter, the switch mechanism 140 is controlled to open the feed opening 116, so that the residual material in the first cavity 112, which cannot be taken out by the shovel or the measuring cup, automatically falls into the box body 120 through the feed opening 116. The tray 120 may then be removed from the base 130 to dump the residue within the tray 120. Finally, box 120 is remounted to the bottom of feed opening 116, and switching mechanism 140 is controlled to reclose feed opening 116 to prevent the material in first chamber 112 from filling box 120, thereby ensuring the effectiveness of box 120 for residual material collection.

Therefore, by arranging the switch mechanism 140, the opening and closing of the collecting function of the box body 120 can be controlled by means of the switch mechanism 140, so that the box body 120 and the feed opening 116 can be communicated in time when residual materials need to be collected, and the box body 120 and the feed opening 116 can be blocked in time when the residual materials do not need to be collected. Thereby realizing the technical effects of improving the controllability of the storage assembly 100 and improving the practicability of the storage assembly 100.

Further, during daily use, a user often adds multiple batches of materials into the first cavity 112, resulting in layering of materials in the height direction for different storage periods. Because of the material of unable direct observation bottom, lead to the user to the unable control of the state of the earlier material of depositing in bottom, even if the material has also not in time found rotten. To this end, when the state of the bottom material needs to be checked, the feed opening 116 can be opened for a short time by controlling the switch mechanism 140 to take out a small part of the bottom material for analysis, so that the user can conveniently control the condition of the bottom material and timely eliminate the risk that the bottom material deteriorates and pollutes the upper material. Thereby realizing the technical effects of widening the functions of the storage component 100 and improving the safety of the storage component 100.

As shown in fig. 6 and 7, in any of the above solutions, the switch mechanism 140 includes: the baffle 142 is arranged on the base 130 and can move relative to the base 130, and the baffle 142 comprises a first position and a second position; in the first position, the baffle 142 covers the feed opening 116; in the second position, the baffle 142 clears the feed opening 116.

In this embodiment, the structure of the switch mechanism 140 will be described. Specifically, the switch mechanism 140 includes a shutter 142, the shutter 142 is mounted on the base 130, and the shutter 142 is movable relative to the base 130. Wherein the baffle 142 has a first position and a second position. When the baffle 142 is located at the first position, the baffle 142 covers the feed opening 116 below the feed opening 116, so that the baffle 142 blocks the material in the feed opening 116 to prevent the material from entering the box body 120. Correspondingly, when the baffle 142 is located at the second position, the baffle 142 avoids the feed opening 116, so that the feed opening 116 communicates with the inner space of the box 120, and the material can smoothly enter the box 120.

It can be seen that the on-off state of the feed opening 116 can be controlled by setting the baffle 142 and controlling the baffle 142 to reciprocate between the first position and the second position. The structure that blocks the feed opening 116 through the baffle 142 is simple and effective, and can compress the production cost of the magazine assembly 100 on the basis of meeting the switch requirement of the feed opening 116.

Further, the movement pattern of the blocking plate 142 includes rotation or sliding, the blocking plate 142 can be driven to turn between the first position and the second position by rotating a knob or a rocker, and can also be driven to slide between the first position and the second position by pushing and pulling the plate member.

As shown in fig. 6 and 7, in any of the above solutions, the switch mechanism 140 further includes: the key 144 is slidably connected to the base 130, and the baffle 142 is connected to the key 144.

In this technical solution, the switch mechanism 140 further includes a button 144, the button 144 is slidably connected to the base 130, specifically, the sliding slot 136 may be disposed on the base 130, and the button 144 is inserted into the sliding slot 136, so that on one hand, the button 144 can slide along the extending direction of the sliding slot 136, and on the other hand, the button 144 can be limited by the sliding slot 136, thereby preventing the button 144 from moving in a direction other than the sliding direction. The end of the key 144 is connected to the plate, and the key 144 sliding relative to the base 130 drives the plate to move synchronously, so that a user can adjust the position of the plate by operating the key 144.

The key 144 can provide convenience for the user to operate the switch mechanism 140, so that the complicated operation of the user for inserting the plate into the base 130 is avoided, and the technical effect of improving the user experience is achieved.

As shown in fig. 8 and 9, in any of the above solutions, the switch mechanism 140 further includes: the first end of the elastic element 146 is connected with the base 130, and the second end of the elastic element 146 is connected with the baffle 142 and/or the key 144, so as to drive the baffle 142 to return to the first position.

In this technical solution, the switch mechanism 140 is further provided with an elastic member 146, a first end of the elastic member 146 is connected with the base 130, specifically, the first end of the elastic member 146 may be fixed in the insertion hole on the base 130, a second end of the elastic member 146 is connected with the baffle 142 or the key 144, specifically, a positioning column may be provided on the baffle 142, and the second end of the elastic member 146 is sleeved on the positioning column.

Wherein when the plate member is in the first position, the resilient member 146 is under tension to maintain the plate member in the first position. When the user presses the button 144, the plate is pushed away from the first position along with the button 144 until the plate is pushed to the second position, in which process the elastic member 146 is deformed and accumulates elastic potential energy. After the collection of the residual material is completed, the user releases the pressing of the button 144, and the elastic member 146 releases the elastic potential energy to drive the plate to return to the first position, and simultaneously, the button 144 is ejected from the base 130.

It can be seen that, by providing the elastic member 146, the opening and closing mechanism 140 can automatically close the feed opening 116, so as to prevent the material from leaking from the feed opening 116 during the normal use process, and prevent the box body 120 filled with the leaked material from losing the proper residual material collecting capability. And then realized optimizing switch mechanism 140 structure, promoted the practicality of storage assembly 100, reduced the technical effect of storage assembly 100 fault rate.

Specifically, the elastic member 146 is a tension spring, which is gradually elongated during the sliding of the plate from the first position to the second position.

As shown in fig. 12, 13, 14 and 15, in any of the above technical solutions, the magazine assembly 100 further includes: a positioning part 150, which is arranged on the box body 110 and comprises a slot 152; the rib 122 is disposed on the box body 120 and surrounds the opening of the box body 120, and the rib 122 is inserted into the slot 152.

In this embodiment, the box 120 can be detachably connected to the box 110. Specifically, the bottom of the box 110 is provided with a positioning portion 150, the positioning portion 150 is disposed on the periphery of the feed opening 116, and the positioning portion 150 is provided with a slot 152. Correspondingly, a surrounding rib 122 is arranged around the box opening of the box body 120, and the shape of the slot 152 is matched with the outer contour shape of the rib 122. During the process of installing the box 120, the box 120 and the housing 110 can be connected by aligning the ribs 122 and inserting the grooves 152. Conversely, when the box body 120 needs to be disassembled, the rib 122 can be pulled out of the slot 152.

Through setting up this slot 152 and protruding muscle 122 structure, can further promote the positioning accuracy of box body 120 to ensure that box body 120 can accurately be installed to preset position, the residual material in the first cavity 112 can't effectively be collected to the box body 120 of avoiding the dislocation installation, and then realize promoting the technological effect of storage component 100 reliability. Meanwhile, the structural complexity of the slot 152 and the rib 122 is low, and the production cost of the magazine assembly 100 can be reduced on the basis of meeting the positioning effect.

As shown in fig. 15 and 16, in any of the above technical solutions, the magazine assembly 100 further includes: spacing portion 154 is disposed on positioning portion 150, and box body 120 abuts against spacing portion 154, and spacing portion 154 is used for providing spacing to box body 120 in the extending direction of slot 152.

In this technical solution, a position-limiting portion 154 is further disposed on the positioning portion 150, and the position-limiting portion 154 is connected to the positioning portion 150 and located at the end of the slot 152. In the process of installing the box body 120, the rib 122 is pushed from the inlet end of the slot 152 to the end of the slot 152 until the rib 122 abuts against the limiting part 154 to complete the assembly. The sliding installation stroke of the cartridge 120 can be limited by providing the limiting portion 154, and the cartridge 120 is prevented from sliding through a predetermined position. Thereby realizing the technical effects of improving the assembly precision of the box body 120 and ensuring that the box body 120 can effectively collect the residual materials in the first cavity 112.

As shown in fig. 10 and 11, in any of the above technical solutions, the box body 110 further includes a second cavity 118, in the height direction of the box body 110, the second cavity 118 is located below the first cavity 112, and the feed opening 116 communicates the first cavity 112 and the second cavity 118; cassette 120 is removably disposed in second cavity 118.

In this embodiment, unlike the foregoing embodiment, the box 120 is disposed inside the box 110. Specifically, a second cavity 118 is further formed in the box body 110, the second cavity 118 is located below the first cavity 112, and the feed opening 116 communicates the first cavity 112 and the second cavity 118. On the basis, the shape of the second cavity 118 is matched with the outer contour shape of the box body 120, the box body 120 is embedded in the second cavity 118, and the material remaining in the first cavity 112 enters the box body 120 placed in the second cavity 118 through the feed opening 116. The box 120 can penetrate through the opening 114, and when the first cavity 112 needs to be emptied, a large batch of materials in the first cavity 112 is removed by a scoop or a measuring cup, and then the box 120 is taken out of the second cavity 118 and taken out of the box 110 from the opening 114. After the residue material in cassette 120 is poured clean, cassette 120 is reloaded into second cavity 118 through opening 114.

Compared with the technical scheme of the external box body 120, the box body 120 is arranged in the box body 110, so that the structural butt joint gap between the box body 120 and the box body 110 can be eliminated, the materials are prevented from leaking out of the storage assembly 100 due to the butt joint gap, and external moisture and pollutants can be prevented from entering the first cavity 112 due to the butt joint gap. Thereby realizing the technical effect of improving the safety and the reliability of the storage component 100.

As shown in fig. 10 and 11, in any of the above solutions, the magazine assembly 100 further includes: the limiting groove is arranged on the box body 110, is communicated with the second cavity 118 and is positioned on the periphery of the second cavity 118; the limiting rib 124 is disposed on the box body 120 and located in the limiting groove.

In this technical scheme, still be provided with the spacing groove in the box 110, the spacing groove communicates with second cavity 118, and the spacing groove encircles second cavity 118. Correspondingly, the peripheral side surface of the box body 120 is provided with a limiting rib 124, the limiting rib 124 is arranged opposite to the limiting groove, and the number and the arrangement mode are consistent. In the process of installing the box body 120, the limiting rib 124 is firstly aligned with the limiting groove, and then the box body 120 is pressed into the second cavity 118, so that the limiting rib 124 slides into the limiting groove to complete the assembly.

Through setting up spacing groove and spacing muscle 124, can play the guide effect on the one hand, ensure the gesture accuracy of the box body 120 of packing into, reduce the probability of box body 120 misloading. On the other hand, the limiting groove and the limiting rib 124 can play a role in positioning the box body 120, so that the box body 120 is prevented from moving in the second cavity 118 due to factors such as vibration, and the material is prevented from falling into a gap generated by the movement of the box body 120. And then realize optimizing box body 120 location structure, reduce the box body 120 assembly degree of difficulty, promote box body 120 positioning accuracy's technological effect.

As shown in fig. 10 and 12, in any of the above solutions, the magazine assembly 100 further includes: handle 126 is coupled to cartridge body 120, and a portion of handle 126 is disposed within first cavity 112.

In this embodiment, the magazine assembly 100 is further provided with a handle 126, and the handle 126 is mounted on the magazine body 120 and protrudes from the top of the magazine body 120. After cartridge 120 is mounted to second cavity 118, a portion of handle 126 extends into first cavity 112. When it is desired to remove the second casing 120, the user can pull the casing 120 out of the second cavity 118 by holding the handle 126.

It can be seen that by providing handle 126, a user may be provided with a point of effort that can extend to first chamber 112 to facilitate the user pulling on cartridge 120. Thereby realizing the technical effects of reducing the difficulty in disassembling the box body 120 and improving the practicability of the storage assembly 100.

Example two

The embodiment of the second aspect of the utility model provides a storage equipment, storage equipment includes: a cabinet body; the drawing frame is connected with the cabinet body in a sliding manner; as in any of the above solutions of the magazine assembly 100, the box 110 is connected to the pull frame.

In this technical scheme, a storage device provided with storage assembly 100 in any one of the above technical schemes is limited, so this storage device possesses the advantage of storage assembly 100 in any one of the above technical schemes, can realize the technical effect that storage assembly 100 in any one of the above technical schemes can realize, and for avoiding repetition, it is no longer repeated here.

On this basis, storage equipment still includes the cabinet body, and the internal cavity that is formed with and deposits storage assembly 100 of cabinet, and the cabinet body surface is formed with the through-hole that communicates the cavity. The pull-out frame is used for connecting the cabinet body, and after the assembly of the pull-out frame is completed on the cabinet body, the pull-out frame can slide relative to the cabinet body through pull-out action. The case 110 is mounted on the drawing frames to be capable of moving in synchronization with the drawing frames. The drawing frame is connected with the cabinet body in a sliding mode, when the box body 110 needs to be disassembled and assembled or materials are temporarily added, the storage assembly 100 can be drawn out of the cavity through the through hole through drawing action, and therefore the box body 110 can be conveniently disassembled and assembled and the materials can be conveniently added. After the disassembly and assembly and the addition of the materials are completed, the storage assembly 100 can be pushed into the cavity to accommodate the box body 110.

It is to be understood that, unless explicitly defined otherwise, in the claims, specification and drawings of the present application, the term "plurality" means two or more, and unless otherwise indicated, the terms "upper", "lower", and the like indicate orientations or positional relationships based on those shown in the drawings, and are used only for the purpose of describing the present application more conveniently and simplifying the description, but not for the purpose of indicating or implying that the device or element referred to must have the specific orientation described, be constructed and operated in a specific orientation, and therefore, such description should not be construed as limiting the present application; the terms "connect," "mount," "secure," and the like are to be construed broadly, and for example, "connect" may refer to a fixed connection between multiple objects, a removable connection between multiple objects, or an integral connection; the multiple objects may be directly connected to each other or indirectly connected to each other through an intermediate. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific situation of the above data.

In the claims, the specification and drawings of the specification, the description of the term "one embodiment," "some embodiments," "specific embodiments," and the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In the claims, the description and the drawings of the present application, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (15)

1. A magazine assembly, comprising:

the box body comprises a first cavity, an opening and a feed opening, wherein the opening is used for storing and taking materials;

in the height direction of the box body, the feed opening is positioned at the bottom of the first cavity, and the opening is positioned above the feed opening;

the box body is communicated with the feed opening;

in the height direction of the box body, the box body is located below the first cavity and used for collecting the materials through the feed opening.

2. The magazine assembly of claim 1, wherein the magazine body is removably located outside the housing.

3. The magazine assembly of claim 2, further comprising:

the box body is arranged on the base, and the box body is arranged in the base.

4. The magazine assembly of claim 3, wherein the base includes a mounting slot facing the feed opening, the cassette body being disposed in the mounting slot.

5. The magazine assembly of claim 4, wherein the base further comprises a removal port in communication with the mounting slot, the cassette body being capable of passing through the removal port.

6. The magazine assembly of claim 4, further comprising:

and the switch mechanism is arranged on the base and used for opening or closing the feed opening.

7. The magazine assembly of claim 6, wherein the switch mechanism comprises:

the baffle is arranged on the base and can move relative to the base, and the baffle comprises a first position and a second position;

under the first position, the baffle covers the feed opening;

and under the second position, the baffle avoids the feed opening.

8. The magazine assembly of claim 7, wherein the switch mechanism further comprises:

the key is connected with the base in a sliding mode, and the baffle is connected with the key.

9. The magazine assembly of claim 8, wherein the switch mechanism further comprises:

the first end of the elastic piece is connected with the base, and the second end of the elastic piece is connected with the baffle and/or the key for driving the baffle to reset to the first position.

10. The magazine assembly of any one of claims 2 to 9, further comprising:

the positioning part is arranged on the box body and comprises a slot;

the convex rib is arranged on the box body and surrounds the box opening of the box body, and the convex rib is inserted in the slot.

11. The stock assembly as set forth in claim 10 further including:

the spacing portion is arranged on the positioning portion, the box body is abutted to the spacing portion, and the spacing portion is used for limiting the box body in the extending direction of the slot.

12. The stock assembly as set forth in claim 1,

the box body also comprises a second cavity, the second cavity is positioned below the first cavity in the height direction of the box body, and the feed opening is communicated with the first cavity and the second cavity;

the box body is detachably arranged in the second cavity.

13. The magazine assembly of claim 12, further comprising:

the limiting groove is arranged in the box body, is communicated with the second cavity and is positioned on the periphery of the second cavity;

and the limiting rib is arranged on the box body and is positioned in the limiting groove.

14. The stock assembly as set forth in claim 12, further including:

the handle is connected with the box body, and part of the handle is located in the first cavity.

15. A magazine apparatus, comprising:

a cabinet body;

the drawing frame is connected with the cabinet body in a sliding manner;

a magazine assembly as defined in any one of claims 1 to 14 wherein the magazine is attached to the pull frames.

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