CN212878392U - Structure cabinet is accomodate in location - Google Patents

Abstract

The utility model relates to a mechanical device field provides a utilize the small effort of magnetic force production to realize the lateral shifting of matter storage lattice in the structure cabinet, thereby utilizes the track to carry out the location that article were taken in the longitudinal movement location and accomodates the structure cabinet, including the structure cabinet body, still include matter storage lattice, drive mechanism, control mechanism. The storage lattices are arranged on the body through the rack; the transmission mechanism comprises a rail, an electromagnet, a sliding plate, a moving plate and the like, and the storage lattices are fixed through magnetic force, so that the transverse and longitudinal movement of the storage lattices is realized; the control mechanism comprises a motor and a central controller, and the movement of the storage compartment is controlled by controlling the movement of the transmission mechanism. The utility model discloses from taking power-off protection and electric power storage function, device simple structure, dependable performance, utilize the space reasonable, it is convenient to accomodate article, can help people, especially the simple directly storage article of handicapped person.

Description

Structure cabinet is accomodate in location

Technical Field

The utility model relates to a mechanical device and transportation technical field provide an utilize the small effort that magnetic force produced to realize the lateral shifting of storage compartment in the structure cabinet, thereby utilize the track to carry out the location that article were taken in the longitudinal movement location and accomodate the structure cabinet.

Background

The storage cabinet is mainly used for placing and storing articles. Wherein, accomodate the cabinet and generally include the cabinet body, drive mechanism and matter storage lattice, the matter storage lattice removes in the accommodation space under drive mechanism's drive. At present, current cabinet of accomodating all has a plurality of matter storage lattices, and the user can only blindly start drive mechanism when looking for required article, lets each matter storage lattice move in the accommodation space, just closes drive mechanism until finding target article. This results in a long and inefficient process for finding the target item. Therefore, there is a need for an improved storage cabinet in the prior art to reduce the time required to search for a target object in a plurality of storage compartments and to improve the efficiency.

The use history of the cabinet is long, and since people use the cabinet, people invent various cabinets in thousands of postures. No matter be traditional portable cupboard, still emerging and the integrative cupboard of wall, generally all include cupboard body and storing space, and storing space generally all is fixed, needs the people to move from top to bottom and moves about, realizes depositing and taking of storing article. Too high or low storing space of position leads to can't seeing article in the storing space because of its position reason, need realize climbing with the help of other instruments when taking eminence article, need bow or lie prone ground when taking article in the low storing space, and the user probably causes the harm to the health because the action is improper. For the people who are inconvenient to move, the operation is difficult to realize, so that the storage space at the position which is too high or too low cannot meet the use requirement of people, and the reasonable utilization is difficult.

With the advent of the mechatronic era, intelligent electronic cabinet products are continuously updated. In the aspect of appearance design of the cabinet and the space structure design inside the cabinet, new products are developed endlessly, but still some deficiencies exist in the positioning and containing structure of the cabinet.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a structure cabinet is accomodate in location for the space utilization of solving the matter storage lattice is unreasonable, and the structural problem is accomodate in the location.

In order to realize the above-mentioned purpose, the utility model provides a structure cabinet is accomodate in location, a serial communication port the location and the lateral shifting that the structure cabinet is accomodate in location utilizes the small effort that magnetic force produced to realize the matter storage lattice, thereby utilizes the track to carry out longitudinal movement location and take article, include: providing a body of the positioning and containing structure cabinet frame structure and the bracket; a storage compartment for providing classified storage space; the transmission mechanism is arranged in the middle of the positioning and containing structure cabinet and is used for fixing and realizing the movement of the storage lattices; thereby realize the control mechanism that the matter storage lattice removed through controlling drive mechanism.

Further, a magnet groove is formed in the back of the storage compartment.

Further, drive mechanism includes first drive assembly and second drive assembly, the second drive assembly passes through magnetic force and fixes the matter storage lattice realizes the lateral shifting of matter storage lattice, first drive assembly passes through the guide rail and the movable plate realizes the longitudinal movement of matter storage lattice.

Further, first transmission assembly includes first track, movable plate, steel wire and pulley, first track is located the structure cabinet middle part is accomodate in the location, for vertical track, fixes between structure cabinet body bottom plate and the roof, the movable plate with first track gomphosis, be fixed with the steel wire on the movable plate, the pulley passes through the steel wire is connected the movable plate, the steel wire can pull when the atress the movable plate is followed first track reciprocates.

Further, the second transmission assembly comprises a second rail, a sliding plate and an electromagnet, the second rail is installed on the moving plate and is a transverse rail, the sliding plate is embedded with the second rail and can transversely move, the sliding plate is provided with an electromagnet groove, and the electromagnet is installed in the electromagnet groove.

Further, the control mechanism comprises a servo motor, a rudder motor and a control panel, and the control panel is electrically connected with the servo motor, the rudder motor and the electromagnet; the servo motor is electrically connected with the sliding plate, the control panel transmits an instruction, and the servo motor receives a signal to control the transverse movement of the sliding plate; the control panel transmits an instruction, the electromagnet is electrified and is embedded with the magnet groove on the storage lattice, and the function of positioning the storage lattice is achieved; the rudder motor is connected with the moving plate through the steel wire and the pulley, receives an instruction from the control panel, and drives the steel wire to be wound and unwound through the rudder motor, so that the moving plate can move up and down.

Furthermore, the control system uses 12V voltage, and a device which can be automatically disconnected when the current is too large is added in the central circuit, so that the short circuit of the circuit is prevented; the control system is provided with an energy storage battery, when the control system is powered on, the control system works while charging, and after the control system is powered off, the energy storage battery drives the control system to work.

Further, the structure cabinet body comprises a top plate, side plates, a bottom plate, a front plate, a small cabinet door, an external rear support and a rack.

Further, the small cabinet door and the control panel are mounted on the front plate; the frame provides the support for the matter storage lattice, and the rudder motor is equipped with at the top, provides the support for transport mechanism.

Compared with the prior art, the beneficial effects of the utility model reside in that, the location is accomodate the small effort that the structure cabinet utilized magnetic force to produce and is realized the fixed and lateral shifting of matter storage lattice adds other subassemblies of drive mechanism realize the directional shifting of matter storage lattice for the matter storage lattice of optional position all can conveniently move little cabinet door department realizes taking of convenience of article.

Furthermore, the magnet groove is formed in the back of the storage box, when the electromagnet at the position of the sliding block is electrified, the sliding block can be embedded with the electromagnet and fixed by magnetic force, and therefore the sliding block can be used for randomly selecting and positioning the storage grids.

Further, the control panel, the servo motor and the rudder motor of the control system use 12V voltage, and compared with 220V common alternating current, the safety factor is greatly increased.

Further, control system contains energy storage battery, can guarantee under the outage circumstances, the normal use of structure cabinet is accomodate in the location.

Further, can classify the storage cabinet according to the user's demand on the control panel, through control panel, select the storage compartment that oneself wants to deposit, for example the filing cabinet can be put to archives, and the instrument cabinet can be put to the instrument, realizes that the high efficiency of article is accomodate and is deposited.

Furthermore, the positioning storage structure cabinet can adjust the height of the small cabinet door according to the requirements of users, so that the requirements of the users are really met.

Furthermore, the user is prevented from climbing high and lying low when storing things, so that harm of improper actions to the body is effectively avoided.

Drawings

FIG. 1 is a sectional view of the assembled integral cabinet of the positioning and storing structure of the present invention;

FIG. 2 is a rear view of the positioning and accommodating structure cabinet of the present invention;

FIG. 3 is a front view of the positioning and storage structure cabinet of the present invention;

fig. 4 is a front view of the sliding plate of the positioning and storage structure cabinet of the present invention;

FIG. 5 is a front view of the cabinet moving plate of the positioning and accommodating structure of the present invention;

figure 6 is the utility model discloses be connected with the electro-magnet and use the magnet recess on the location storage structure cabinet matter storing lattice.

In the figure, the drawings are marked as a body 1, a storage grid 2, a transmission mechanism 3, a control mechanism 4, a top plate 11, a side plate 12, a bottom plate 13, a front plate 14, a cabinet door 15, a rack 16, an external rear bracket 17, a storage grid 21, a magnet groove 22, a first rail 31, a moving plate 32, a thin steel wire 33, a pulley 34, a second rail 35, a sliding plate 36, a magnet groove 37, an electromagnet 38, a steering motor 41, a servo motor 42 and a control panel 43.

Detailed Description

The above and further features and advantages of the present invention will be described in more detail below with reference to the accompanying drawings.

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and do not limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "inner", "outer", etc. are based on the direction or positional relationship shown in the drawings, which are only for convenience of description, and do not indicate or imply that the units or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Please refer to fig. 1-6, which are the present invention, a positioning storage structure cabinet, which is characterized in that the positioning storage structure cabinet utilizes the small acting force generated by magnetic force to realize the positioning and lateral movement of the storage lattice, and utilizes the rail to perform longitudinal movement, thereby positioning and taking the articles, comprising: a body 1 for providing a frame structure and a support of the positioning and containing structure cabinet; a storage compartment 2 for providing classified storage space; the transmission mechanism 3 is arranged in the middle of the positioning and containing structure cabinet, is fixed and realizes the movement of the storage lattices; and the control mechanism 4 is used for controlling the transmission mechanism 3 so as to realize the movement of the storage compartment 2.

Specifically, when the storage compartments are taken out from the positioning and accommodating structure cabinet, the control panel 43 is used for selecting the storage compartment 21 to be taken out, the control unit 43 transmits a command signal, the rudder motor 41 drives the thin 34 pulley to rotate, and the thin steel wire 33 is stored, so that the moving plate 32 and the second transmission assembly fixed on the moving plate 32 longitudinally move along the first track 31 to reach the same height of the designated storage compartment 21; the servo motor 42 receives an instruction to drive the sliding plate 36 to move transversely to the specified storage lattice 21, and the electromagnet 38 receives an electric signal to generate magnetic force, and is embedded with the magnet groove 37 on the storage lattice 21 and fixed through the magnetic force; the servo motor 42 drives the sliding plate 36 and the storage lattices 21 fixed by the sliding plate to move transversely to return to the central position of the moving plate 32, and the rudder motor drives the moving plate 32, the second transmission assembly and the storage lattices 21 fixed by magnetic force to return to the set position of the small cabinet door 15, so that one-time storage lattice taking is completed.

When the storage compartment is taken out, the control panel 43 selects to put back the storage compartment, the control unit 43 transmits a command signal, the rudder motor 41 drives the thin 34 pulley to rotate, and the thin steel wire 33 is stored, so that the moving plate 32, the second transmission assembly and the storage compartment 21 fixed through magnetic force move longitudinally along the first track 31 to reach the same height of the designated storage compartment 21; the servo motor 42 drives the sliding plate 36 to move transversely to return to the initial position of the storage compartment 21; the electromagnet 38 is disconnected with a signal and separated from the storage compartment 21; the servo motor 42 drives the sliding plate 36 and moves laterally back to the center of the moving plate 32 to stand by. As can be understood by those skilled in the art, the positioning storage cabinet can not only store the storage lattices, but also be used for taking other articles as long as the positioning and transmission tracks of the positioning storage structure can be met.

Particularly, the back of the storage lattice 21 of the embodiment of the present invention is provided with the magnet groove 22, and it can be understood that the number and size of the storage lattices are not specifically limited in this embodiment, as long as the requirements of the customizer are met; the position, size and number of the magnet grooves 22 are not particularly limited in this embodiment, as long as the fixing strength meets the use requirement corresponding to the arrangement position, size and number of the electromagnets 38.

Specifically, the transmission mechanism 3 includes a first transmission assembly and a second transmission assembly, the second transmission assembly fixes the storage lattice 21 through magnetic force to realize the transverse movement of the storage lattice 21, and the first transmission assembly realizes the longitudinal movement of the storage lattice 21 through the first rail 35 and the moving plate 32. It is to be understood that the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying any number or importance.

Specifically, first drive assembly includes first track 31, movable plate 32, steel wire 33 and pulley 34, first track is located the structure cabinet middle part is accomodate in the location, for vertical track, fixes between structure cabinet body roof 11 and the floor 13, movable plate 32 with first track 31 gomphosis, be fixed with steel wire 33 on the movable plate 32, pulley 34 passes through steel wire 33 connects movable plate 32, steel wire 33 can pull when the atress movable plate 32 follows first track 31 reciprocates. It is understood that the way of engaging the first rail 31 with the moving plate 32 is not particularly limited in this embodiment as long as the condition of being movable in the rail direction is satisfied; the materials and specifications of the first rail 31, the moving plate 32, the wire 33, and the pulley 34 are not particularly limited in this embodiment as long as the use strength is satisfied.

Specifically, the second transmission assembly includes a second rail 35, a sliding plate 36 and an electromagnet 38, the second rail 35 is mounted on the moving plate 32 and is a transverse rail, the sliding plate 36 is fitted into the second rail 35 and can transversely move, the sliding plate 36 is provided with an electromagnet groove 37, and the electromagnet 38 is mounted in the electromagnet groove 37. It is understood that the way of engaging the second rail 35 with the sliding plate 36 is not particularly limited in this embodiment, as long as the condition of being movable in the rail direction is satisfied; the materials and specifications of the second rail 35, the sliding plate 36 and the electromagnet 38 are not particularly limited in this embodiment, as long as the use strength is satisfied; the strength of the magnetic force when the electromagnet is energized is not particularly limited in this embodiment as long as the strength with which the storage compartments 21 can be fixed is satisfied.

Specifically, the control mechanism includes a rudder motor 41, a servo motor 42 and a control panel 43, and the control panel 43 is connected to the rudder motor 41, the servo motor 42 and the electromagnet 38; the servo motor 42 is connected with the sliding plate circuit 36, the control panel 43 transmits instructions, and the servo motor 42 receives signals to control the transverse movement of the sliding plate 36; the control panel 43 emits an instruction, the electromagnet 36 is electrified and is embedded with the magnet groove 22 on the storage compartment, and the function of positioning the storage compartment is achieved; the rudder motor 42 is connected with the moving plate 32 through the steel wire 33 and the pulley 34, the rudder motor 41 receives an instruction from the control panel 43, and the steel wire is driven to be wound and unwound through the rudder motor 41, so that the moving plate 32 moves up and down. It should be understood that the embodiment of the intelligent operating system of the control system 4 is not particularly limited as long as the functions and instructions can be completed; the size, position and operation mode of the control panel 43 are not particularly limited in this embodiment, as long as the requirement of convenient use for the user is satisfied; the specification and the installation position of the rudder motor 41 and the servo motor 42 are not specifically described in this embodiment, as long as the control purpose can be achieved.

Specifically, the control system 43 uses 12V voltage, and a device which can automatically break when the current is too large is added in the central circuit, so as to prevent the short circuit of the circuit; the control system 43 is provided with an energy storage battery, when the control system is powered on, the control system works while charging, and after the control system is powered off, the energy storage battery drives the control system to work.

Further, the structural cabinet body comprises a top plate 11, side plates 12, a bottom plate 13, a front plate 14, a small cabinet door 15, a rack 16 and an external rear support 16. It is understood that the materials and specifications of the top plate 11, the side plates 12, the bottom plate 13, the front plate 14, the small cabinet door 15, the rack 16 and the external rear support 16 are not particularly limited in this embodiment, as long as the cabinet strength is satisfied.

Further, the small cabinet door 15 and the control panel 43 are mounted on the front plate 14; the frame 16 provides support for the storage compartment 21 and the top is provided with a rudder motor 41 for supporting the transfer mechanism 2. It is to be understood that the supporting manner of the frame 16, the installation position and the strength of the rudder motor 41 are not particularly limited in this embodiment as long as the use strength is satisfied.

The disclosure is not limited to the examples illustrated and may be varied and altered in different ways within the scope of the appended claims.

Claims (9)

1. A positioning and containing structure cabinet is characterized in that the positioning and containing structure cabinet realizes the positioning and the transverse movement of storage lattices by utilizing the micro acting force generated by magnetic force and utilizes a track to carry out longitudinal movement so as to position and take articles, and the positioning and containing structure cabinet comprises a body, a frame structure and a support, wherein the body is used for providing the positioning and containing structure cabinet; a storage compartment for providing classified storage space; the transmission mechanism is arranged in the middle of the positioning and containing structure cabinet and is used for fixing and realizing the movement of the storage lattices; thereby realize the control mechanism that the matter storage lattice removed through controlling drive mechanism.

2. The cabinet according to claim 1, wherein the back of the storage compartment is provided with a magnet recess.

3. The cabinet according to claim 1, wherein the transmission mechanism comprises a first transmission assembly and a second transmission assembly, the second transmission assembly fixes the storage compartments by magnetic force to realize the transverse movement of the storage compartments, and the first transmission assembly realizes the longitudinal movement of the storage compartments by a guide rail and a moving plate.

4. A directional storage structural cabinet according to claim 3, wherein the first transmission assembly comprises:

the movable plate comprises a first rail, a movable plate, a steel wire and a pulley, wherein the first rail is located in the middle of the positioning storage structure cabinet and is a longitudinal rail, the first rail is fixed between a bottom plate and a top plate of a structure cabinet body, the movable plate is embedded with the first rail, the steel wire is fixed on the movable plate, the pulley is connected with the movable plate through the steel wire, and the steel wire can pull the movable plate to move up and down along the first rail when stressed.

5. The cabinet of claim 4, wherein the second drive assembly comprises:

the second rail is arranged on the moving plate and is a transverse rail, the sliding plate is embedded with the second rail and can move transversely, the sliding plate is provided with an electromagnet groove, and the electromagnet is arranged in the electromagnet groove.

6. The cabinet according to claim 5, further comprising a control mechanism comprising a servo motor, a rudder motor and a control panel electrically connected to the servo motor, the rudder motor and the electromagnet; the servo motor is electrically connected with the sliding plate, the control panel transmits an instruction, and the servo motor receives a signal to control the transverse movement of the sliding plate; the control panel transmits an instruction, the electromagnet is electrified and is embedded with the magnet groove on the storage lattice, and the function of positioning the storage lattice is achieved; the rudder motor is connected with the moving plate through the steel wire and the pulley, receives an instruction from the control panel, and drives the steel wire to be wound and unwound through the rudder motor, so that the moving plate can move up and down.

7. A cabinet according to claim 6, wherein the control mechanism uses 12V voltage and the central circuit incorporates a device which automatically opens when the current is too high to prevent short circuit; the control mechanism is provided with an energy storage battery, when the control mechanism is powered on, the control system works while charging, and after the control mechanism is powered off, the energy storage battery drives the control system to work.

8. A structural cabinet according to claim 6, wherein the structural cabinet body includes a top panel, side panels, a bottom panel, a front panel, a cabinet door, an external rear support and a rack.

9. A directional storage structural cabinet according to claim 8, wherein the front panel has the cabinet door and the control panel mounted thereon; the frame provides the support for the matter storage lattice, and the rudder motor is equipped with at the top, provides the support for transport mechanism.

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