A kind of adjustable locker in space
Technical field
The utility model relates to logistics locker technical field, especially a kind of adjustable locker in space.
Background technique
With the increasingly development of delivery industry, logistics locker is also gradually popularized in major cell and office building, and existing mesh
The preceding locker used is virtually all still the locker of the fixed size of use, includes several on each locker
The small matter storage lattice of fixed size and big matter storage lattice, postman or user are put according to the suitable matter storage lattice of the size of express mail selection
Part.
But the matter storage lattice of this fixed space size, it is used in the waste that many times still there is storage space, example
Such as when the matter storage lattice of suitable size has run out, postman or user can only then abandon part or select big matter storage lattice
It carries out putting part, at this moment, the utilization rate of matter storage lattice just significantly reduces, because when big matter storage lattice is used to store lesser express mail,
It is to significantly reduce the space utilization rate of cabinet body.
For this in order to improve cabinet body space utilization rate, there are also some sides for devising change storing grid space
Case.Such as: Publication No. CN107485193A, publication date are on December 19th, 2017, a kind of entitled " intelligence of variable spaces
The Chinese invention patent document of cabinet ", the document discloses a kind of intelligent cabinets of variable spaces, including cabinet body, door panel assemblies, partition
The storage chamber penetrated through along the vertical direction is arranged on the cabinet body, is arranged at the storage chamber for component, parting bead component and Power Component
There are door panel assemblies described at least two groups, the baffle assembly and the parting bead component are arranged between the door panel assemblies, and one group
The matter storage lattice of the corresponding minimum unit of the door panel assemblies;The baffle assembly can be moved, and adjacent minimum unit is made
Matter storage lattice connection, the parting bead component can be moved, and the adjacent door panel assemblies is made to synchronize folding, and institute
Stating parting bead component follows the door panel assemblies to move, and the Power Component provides for the movement of the baffle assembly and parting bead component
Power.The problem of program realizes matter storage lattice spatial variations by baffle assembly and parting bead component, when user needs
Two or more matter storage lattices can be merged into a matter storage lattice, the storage for the person of being convenient to use automatically by time.But in the program
Parting bead component and door panel assemblies opposed configuration it is complex, and in the specific implementation process, the knot such as several connecting rods, screw rod
Structure, it is easy to break down, failure rate is higher, is removed for repair or replacement and is all more troublesome, and maintenance cost and manpower are all larger.Cause
A kind of new, the article cabinet structure in the relatively simple changeable space of structure to need to design.
Utility model content
The utility model is to overcome above-mentioned technical problem, provides a kind of adjustable locker in space, which uses
The cooperation of sliding groove and active clapboard can easily realize the size conversion of storage space, and structure is simple, easy to maintain.
The technical solution of the utility model is as follows:
A kind of adjustable locker in space, including several matter storage lattices with cabinet door, cabinet door includes big cabinet independently
Door and small cabinet door, it is characterised in that: several small lattice doors that can independently open, the big cabinet door pair are additionally provided in the big cabinet door
It is provided with corresponding active clapboard in the matter storage lattice answered, is divided into the matter storage lattice by active clapboard corresponding with small lattice door
Small matter storage lattice;The active clapboard is that the mobile sky realized in matter storage lattice is carried out by the slide groove being arranged on matter storage lattice interior plate
Between change.
At least one active clapboard can be set in the big cabinet door, adjust the sliding of active clapboard according to demand, with full
The demand of sufficient space size.
The specific installation settings mode of the active clapboard is as follows:
The first set-up mode: cambered way slot, the rear end of active clapboard are provided on the side plate in the matter storage lattice
It is installed in the back plate of matter storage lattice by movable axis, the front end of active clapboard is placed in cambered way slot and can arcuately slide groove
Sliding;When needing to become larger matter storage lattice, the front end of mobile active clapboard, arcuately slide groove is slided backwards on close to matter storage lattice
Back plate at so that storing grid space becomes larger;When needing for matter storage lattice to be separated, the front end of mobile active clapboard, along arc
Shape slide groove forward slip, so that active clapboard separates matter storage lattice.
Second of set-up mode: the side plate in the matter storage lattice is provided with vertical slideway slot, the side peace of active clapboard
Loaded on vertical slideway slot, active clapboard can be slided up and down along vertical slideway slot;When needing to become larger matter storage lattice, by activity every
Plate is slid up or down at the top plate or bottom plate of matter storage lattice along vertical slideway slot, so that storing grid space becomes larger;When
When needing for matter storage lattice to be separated, will be close to active clapboard at the top plate or bottom plate of matter storage lattice along vertical slideway slot downwards or
Upward sliding, so that matter storage lattice is divided into small matter storage lattice by active clapboard.
The third set-up mode: being provided with symmetrical horizontal slide slot on two side plates in the matter storage lattice, activity every
Plate is roller shutter partition, and two sides difference installation settings of active clapboard is in two horizontal slide slots;When needing matter storage lattice
When becoming larger, by active clapboard along horizontal slide slot rear end scrolling, so that storing grid space becomes larger;When needing to carry out matter storage lattice
When separation, will be located at matter storage lattice rear end active clapboard rotate so that active clapboard rotate forward and along horizontal slide slot forward
Stretching, extension, so that matter storage lattice is separated into small matter storage lattice.
Electromagnetic lock is respectively arranged in the small cabinet door and big cabinet door.
Meanwhile the small lattice door in the big cabinet door and big cabinet door is also individually provided with the electromagnetic lock being independent of each other, root
According to the demand of user, when needing big cell, the electromagnetic lock of big cabinet door is operated, at this point, a part of small lattice door as big cabinet door,
Big cabinet door is integrally opened;When user needs small cell, the electromagnetic lock running of small lattice door, the electromagnetic lock of big cabinet door is still in lock
Closed state only opens small lattice door, and control system controls the electromagnetism lock-switch of big cabinet door or small lattice door according to user demand.
The beneficial effects of the utility model are as follows:
The utility model uses the cooperation of sliding groove and active clapboard, can easily realize the size conversion of storage space, and
And structure is simple, it is easy to maintain;When user needs big storage space, then by the active clapboard of two or more storage spaces
It is slided by slide groove, adjusts storage space variation, to adapt to item sizes, meet user demand.
Detailed description of the invention
Fig. 1 is structural schematic diagram of the utility model using the slide groove of arc.
Fig. 2 is structural schematic diagram of the active clapboard in switching process in corresponding diagram 1.
Fig. 3 is the schematic view of the front view after the active clapboard overturning in corresponding diagram 1.
Fig. 4 is the right side structural representation after the active clapboard overturning in corresponding diagram 1.
Fig. 5 is the backsight structural representation after the active clapboard overturning in corresponding diagram 1.
Fig. 6 is the schematic view of the front view that the utility model forms two cells using vertical slideway slot.
Fig. 7 is the side structure schematic view in corresponding diagram 6.
Fig. 8 is the side structure schematic view in another direction in corresponding diagram 6.
Fig. 9 is the schematic view of the front view that the utility model forms one big cell using vertical slideway slot.
Figure 10 is the side structure schematic view in corresponding diagram 9.
Figure 11 is the side structure schematic view in another direction in corresponding diagram 9.
Figure 12 is structural schematic diagram of the active clapboard in moving process in corresponding diagram 9.
Figure 13 is the structural schematic diagram that the utility model uses roller shutter partition and horizontal slide slot.
Figure 14 is the structural schematic diagram in the active clapboard scrolling in corresponding diagram 13.
Figure 15 is schematic view of the front view of the active clapboard scrolling in corresponding diagram 13 to rear end.
Figure 16 is the structural schematic diagram that the door opening state of big cell is formed after the utility model active clapboard slides.
Figure 17 is the side structure schematic view of Figure 16.
Figure 18 is the structural schematic diagram for separating the door opening state after big cell after the utility model active clapboard slides.
Figure 19 is the side structure schematic view of Figure 18.
Wherein, appended drawing reference are as follows: 1 small cabinet door, 2 big cabinet doors, 3 small lattice doors, 4 stationary barriers, 5 active clapboards, 6 cambered ways
Slot, 7 vertical slideway slots, 8 horizontal slide slots, the electromagnetic lock of 9 small lattice doors, the electromagnetic lock of 10 big cabinet doors, 11 motors, 12 rotary shafts,
13 spools.
Specific embodiment
A kind of adjustable locker in space, including several matter storage lattices with cabinet door, cabinet door includes big cabinet independently
Door 2 and small cabinet door 1, is additionally provided with several small lattice doors 3 that can independently open in the big cabinet door 2, the corresponding cell of big cabinet door 2 and
Be stationary barrier 4 between the corresponding cell of small cabinet door 1, be provided in the corresponding matter storage lattice of the big cabinet door 2 corresponding activity every
The matter storage lattice is divided into small matter storage lattice corresponding with small lattice door 3 by active clapboard 5 by plate 5;The active clapboard 5 is logical
It crosses the slide groove being arranged on matter storage lattice interior plate and carries out the mobile spatial variations realized in matter storage lattice.
At least one active clapboard 5 can be set in the big cabinet door 2, adjust the sliding of active clapboard 5 according to demand, with
Meets the needs of space size.
The specific installation settings of the active clapboard 5 includes that there are three types of modes, shown in embodiment 1-3 specific as follows.
Embodiment 1
As shown in Figs. 1-5, the adjustable locker in a kind of space is provided with cambered way on the side plate in the matter storage lattice
The rear end of slot 6, active clapboard 5 is installed in the back plate of matter storage lattice by movable axis, and the front end of active clapboard 5 is placed in cambered way
In slot 6 and can arcuately slide groove 6 it slide;When needing to become larger matter storage lattice, the front end of mobile active clapboard 5 is arcuately slided
Road slot 6 slides backwards at the back plate of matter storage lattice, so that storing grid space becomes larger;When needing to be separated matter storage lattice
When, the front end of active clapboard 5 is moved, arcuately 6 forward slip of slide groove, so that active clapboard 5 separates matter storage lattice.
Cooperated by active clapboard 5 and cambered way slot 6, posteriorly or anteriorly moves the spatial variations realized in matter storage lattice.
In Fig. 2, in sliding switching process, another piece of active clapboard 5 is not overturn one of active clapboard 5.In Fig. 5, it can see
To the rotary shaft 12 and motor 11 for controlling the sliding of active clapboard 5.
Embodiment 2
As shown in figs 6-12, the adjustable locker in a kind of space, the side plate in the matter storage lattice are provided with vertical slideway
Slot 7, the side of active clapboard 5 are installed on vertical slideway slot 7, and active clapboard 5 can be slided up and down along vertical slideway slot 7;When need
When matter storage lattice is become larger, active clapboard 5 is slid up or down to top plate or the bottom of close matter storage lattice along vertical slideway slot 7
At plate, so that storing grid space becomes larger;When needing for matter storage lattice to be separated, will be close at the top plate or bottom plate of matter storage lattice
Active clapboard 5 slides downward or upward along vertical slideway slot 7, so that matter storage lattice is divided into small matter storage lattice by active clapboard 5.
Cooperated by active clapboard 5 and vertical slideway slot 7, moves up or down the spatial variations realized in matter storage lattice.
It is the schematic diagram that cell is separated into two small cells by active clapboard 5 shown in Fig. 6-8;It is mobile activity shown in Fig. 9-11
At the top of partition 5 to cell, the schematic diagram of big cell is formed;It is the state that active clapboard 5 is moved to half shown in Figure 12.
Embodiment 3
As illustrated in figs. 13-15, the adjustable locker in a kind of space is provided on two side plates in the matter storage lattice symmetrical
Horizontal slide slot 8, active clapboard 5 is roller shutter partition, and two sides difference installation settings of active clapboard 5 is horizontal sliding in two
In road slot 8;When needing to become larger matter storage lattice, by active clapboard 5 along 8 rear end scrolling of horizontal slide slot, so that matter storage lattice is empty
Between become larger;When needing for matter storage lattice to be separated, the active clapboard 5 for being located at matter storage lattice rear end is rotated, so that active clapboard 5
It rotates forward and is stretched forward along horizontal slide slot 8, so that matter storage lattice is separated into small matter storage lattice.
Cooperated by active clapboard 5 and horizontal slide slot 8, active clapboard 5 is realized in matter storage lattice by scrolling or expansion
Spatial variations.It wherein, is that one of roller shutter partition scrolling packs up the state to form big cell to below shown in Figure 13, another
Roller shutter partition is unfolded to form the state of two small cells;It is the shape that one of roller shutter partition is in during scrolling shown in Figure 14
State, another roller shutter partition are unfolded to form the state of two small cells, wherein also splitting side cabinet plate can see motor 11;Figure
It is that two roller shutter partitions are unfolded shown in 15, the state of multiple small cells is formed, wherein it can also be seen that motor 11 and spool 13.
Embodiment 4
The setting of active clapboard 5 based on embodiment 1-3 is respectively arranged with electromagnetism in the small cabinet door 1 and big cabinet door 2
Lock.
Meanwhile the small lattice door 3 in the big cabinet door 2 and big cabinet door 2 is also individually provided with the electromagnetic lock being independent of each other,
According to the demand of user, when needing big cell, the electromagnetic lock 10 of big cabinet door 2 is operated, at this point, small lattice door 3 is as big cabinet door 2
A part, big cabinet door 2 is whole to be opened;When user needs small cell, the electromagnetic lock 9 of small lattice door 3 is operated, the electromagnetism of big cabinet door 2
Lock 10 is still in locking states, only opens small lattice door 3, control system controls big cabinet door 2 or small lattice door according to user demand
3 electromagnetism lock-switch.
As shown in figs. 16-17, it is that active clapboard 5 is packed up, forms the state of big cell, the electromagnetic lock 9 of small lattice door 3 not work
Make, the electromagnetic lock 10 of big cabinet door 2 works.
As depicted in figs. 18-19, it is 5 separation case grid space of active clapboard, forms the state of two small cells, small lattice door 3
Electromagnetic lock 9 works, and the electromagnetic lock 10 of big cabinet door 2 does not work.